***************************************** ** note: license expires in 38 days ** ***************************************** ************************************************* ** ** ** notices ** ** ** ** this code and its documentation are ** ** property of flow science, inc. due ** ** credit must accompany presentation of ** ** calculated results. ** ** ** ** ** ** FLOW-3D is a registered trademark ** ** of flow science, inc. ** ** ** ** ** ** use, duplication, or disclosure of the ** ** code is restricted under conditions of ** ** the purchase contract and/or paragraph ** ** (c)(1)(ii) of the rights in technical ** ** data and computer software clause at ** ** dfars 252.227-7013. ** ** ** ** ** ** the warranty and the obligation and ** ** liability of owner expressed in the ** ** agreement are in lieu of, and user hereby ** ** waives, all other guarantees and ** ** warranties or obligations and liabilities ** ** of owner hereunder, expressed or implied, ** ** arising by law or otherwise, including ** ** without limitation any implied warranty ** ** of fitness for a particular purpose or ** ** merchantability, and all obligations and ** ** liabilities with respect to loss of use, ** ** data, revenue, or profit, or indirect, ** ** special, or consequential damages. user ** ** agrees that the obligations of owner as ** ** set forth herein shall constitute the ** ** sole remedy for a claim relating in any ** ** way to the code provided under this ** ** agreement. ** ** ** ** flow science, inc. ** ** 683 harkle rd, suite a ** ** santa fe, nm 87505 ** ** usa ** ** ** ** telephone: 505-982-0088 ** ** fax: 505-982-5551 ** ** email: info@flow3d.com ** ** ** ************************************************* ************************************************* ** ** ** copyright (c) flow science, inc. ** ** 1985-2019 ** ** all rights reserved ** ** ** ************************************************* program title : FLOW-3D program version : hydr3d version 12.0.2.01 lnx64 12/03/2019 version id : double DOUBLE precision version the following updates are active : heat source welding : 300W_1mpersec_paper *** estimated uncompressed solver output file size (flsgrf): 53 mb *** *** running solver on 32 cores *** 1 *************************************** ** initial values of selected data ** *************************************** ------------------------------------------------- restart and spatial data available at t= 0.00000E+00 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 0.00000E+00, cycle = 0, delt = 1.00000E-06 stability limit = 8.13992E-04, stability code = vs elapsed time = 00:00:04 parallel efficiency (%) = 21 estimated remaining time = ... *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 0.00000E+00 relative convergence criterion = 0.00000E+00 absolute convergence criterion = 0.00000E+00 convergence criterion = 0.00000E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 13, 2, 5) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 0.00000E+00, cycle = 0, dtstbl = 8.13992E-04, dtcode = vs, delt = 1.00000E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401032976E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088509522664E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 0.000000000000000E+00 total mass of scalar species 4 = 0.000000000000000E+00 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 0.00000E+00 cycle= 0 iter= 0 delt= 1.00000E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 5.52563E-06 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 5.52563E-06, cycle = 5, delt = 1.21551E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 21 estimated remaining time = 00:12:24 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 7.71637E+01 relative convergence criterion = 7.71637E+01 absolute convergence criterion = 7.71637E-03 convergence criterion = 7.71637E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.52563E-06, cycle = 5, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.21551E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401030488E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088509742285E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.52563E-06 cycle= 5 iter= 0 delt= 1.21551E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 9.54911E-06 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 9.54911E-06, cycle = 8, delt = 1.40710E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 21 estimated remaining time = 00:07:12 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 6.96403E+01 relative convergence criterion = 6.96403E+01 absolute convergence criterion = 6.96403E-03 convergence criterion = 6.96403E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 9.54911E-06, cycle = 8, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.40710E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401028683E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088509901408E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 9.54911E-06 cycle= 8 iter= 0 delt= 1.40710E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 1.10266E-05, cycle = 9, delt = 1.47746E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 21 estimated remaining time = 00:06:14 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 6.61583E+01 relative convergence criterion = 6.61583E+01 absolute convergence criterion = 6.61583E-03 convergence criterion = 6.61583E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ------------------------------------------------- restart and spatial data available at t= 1.42068E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 1.42068E-05, cycle = 11, delt = 1.62889E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 21 estimated remaining time = 00:04:52 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 5.97078E+01 relative convergence criterion = 5.97078E+01 absolute convergence criterion = 5.97078E-03 convergence criterion = 5.97078E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.42068E-05, cycle = 11, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.62889E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401026604E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088510084774E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.42068E-05 cycle= 11 iter= 0 delt= 1.62889E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 1.77130E-05, cycle = 13, delt = 1.79586E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 21 estimated remaining time = 00:03:56 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 5.38863E+01 relative convergence criterion = 5.38863E+01 absolute convergence criterion = 5.38863E-03 convergence criterion = 5.38863E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ------------------------------------------------- restart and spatial data available at t= 1.95986E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 1.95986E-05, cycle = 14, delt = 1.88565E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 21 estimated remaining time = 00:03:33 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 5.11920E+01 relative convergence criterion = 5.11920E+01 absolute convergence criterion = 5.11920E-03 convergence criterion = 5.11920E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.95986E-05, cycle = 14, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.88565E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401024207E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088510295940E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.95986E-05 cycle= 14 iter= 0 delt= 1.88565E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 2.36575E-05, cycle = 16, delt = 2.07893E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 77 estimated remaining time = 00:02:58 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 4.62008E+01 relative convergence criterion = 4.62008E+01 absolute convergence criterion = 4.62008E-03 convergence criterion = 4.62008E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ------------------------------------------------- restart and spatial data available at t= 2.58404E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 2.58404E-05, cycle = 17, delt = 2.18287E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 77 estimated remaining time = 00:02:43 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 4.38907E+01 relative convergence criterion = 4.38907E+01 absolute convergence criterion = 4.38907E-03 convergence criterion = 4.38907E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.58404E-05, cycle = 17, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.18287E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401021451E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088510538917E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.58404E-05 cycle= 17 iter= 0 delt= 2.18287E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.05390E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 3.05390E-05, cycle = 19, delt = 2.40662E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 77 estimated remaining time = 00:02:18 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.96114E+01 relative convergence criterion = 3.96114E+01 absolute convergence criterion = 3.96114E-03 convergence criterion = 3.96114E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.05390E-05, cycle = 19, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.40662E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401019391E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088510720796E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.05390E-05 cycle= 19 iter= 0 delt= 2.40662E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.57193E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 3.57193E-05, cycle = 21, delt = 2.65330E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 77 estimated remaining time = 00:01:59 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.57493E+01 relative convergence criterion = 3.57493E+01 absolute convergence criterion = 3.57493E-03 convergence criterion = 3.57493E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.57193E-05, cycle = 21, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.65330E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401017129E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088510920293E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.57193E-05 cycle= 21 iter= 0 delt= 2.65330E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 4.14305E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 4.14305E-05, cycle = 23, delt = 2.92526E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 77 estimated remaining time = 00:01:43 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.22637E+01 relative convergence criterion = 3.22637E+01 absolute convergence criterion = 3.22637E-03 convergence criterion = 3.22637E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 4.14305E-05, cycle = 23, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.92526E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401014647E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088511139007E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 4.14305E-05 cycle= 23 iter= 0 delt= 2.92526E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 4.45020E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:46 time = 4.45020E-05, cycle = 24, delt = 3.07152E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:04 parallel efficiency (%) = 77 estimated remaining time = 00:01:36 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.06505E+01 relative convergence criterion = 3.06505E+01 absolute convergence criterion = 3.06505E-03 convergence criterion = 3.06505E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 4.45020E-05, cycle = 24, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.07152E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401013318E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088511256102E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 4.45020E-05 cycle= 24 iter= 0 delt= 3.07152E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 4.77271E-05, cycle = 25, delt = 3.22510E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:01:30 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.91180E+01 relative convergence criterion = 2.91180E+01 absolute convergence criterion = 2.91180E-03 convergence criterion = 2.91180E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ------------------------------------------------- restart and spatial data available at t= 5.11135E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 5.11135E-05, cycle = 26, delt = 3.38635E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:01:24 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.91180E+01 relative convergence criterion = 2.91180E+01 absolute convergence criterion = 2.91180E-03 convergence criterion = 2.91180E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.11135E-05, cycle = 26, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.38635E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401010473E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088511506901E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.11135E-05 cycle= 26 iter= 0 delt= 3.38635E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 5.46691E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 5.46691E-05, cycle = 27, delt = 3.55567E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:01:18 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.76621E+01 relative convergence criterion = 2.76621E+01 absolute convergence criterion = 2.76621E-03 convergence criterion = 2.76621E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.46691E-05, cycle = 27, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.55567E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401008951E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088511641081E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.46691E-05 cycle= 27 iter= 0 delt= 3.55567E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 5.84026E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 5.84026E-05, cycle = 28, delt = 3.73346E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:01:13 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.62790E+01 relative convergence criterion = 2.62790E+01 absolute convergence criterion = 2.62790E-03 convergence criterion = 2.62790E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.84026E-05, cycle = 28, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.73346E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401007358E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088511781446E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.84026E-05 cycle= 28 iter= 0 delt= 3.73346E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 6.23227E-05, cycle = 29, delt = 3.92013E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:01:08 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.49651E+01 relative convergence criterion = 2.49651E+01 absolute convergence criterion = 2.49651E-03 convergence criterion = 2.49651E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ------------------------------------------------- restart and spatial data available at t= 6.64388E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 6.64388E-05, cycle = 30, delt = 4.11614E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:01:04 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.37168E+01 relative convergence criterion = 2.37168E+01 absolute convergence criterion = 2.37168E-03 convergence criterion = 2.37168E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 6.64388E-05, cycle = 30, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.11614E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401003952E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088512081770E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 6.64388E-05 cycle= 30 iter= 0 delt= 4.11614E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 7.07608E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 7.07608E-05, cycle = 31, delt = 4.32194E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:60 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.25310E+01 relative convergence criterion = 2.25310E+01 absolute convergence criterion = 2.25310E-03 convergence criterion = 2.25310E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 7.07608E-05, cycle = 31, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.32194E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401002134E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088512242272E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 7.07608E-05 cycle= 31 iter= 0 delt= 4.32194E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 7.52988E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 7.52988E-05, cycle = 32, delt = 4.53804E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:56 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.14044E+01 relative convergence criterion = 2.14044E+01 absolute convergence criterion = 2.14044E-03 convergence criterion = 2.14044E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 10, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 7.52988E-05, cycle = 32, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.53804E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698401000230E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088512410046E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 7.52988E-05 cycle= 32 iter= 0 delt= 4.53804E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 8.00638E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 8.00638E-05, cycle = 33, delt = 4.76494E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:53 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.03342E+01 relative convergence criterion = 2.03342E+01 absolute convergence criterion = 2.03342E-03 convergence criterion = 2.03342E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 8.00638E-05, cycle = 33, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.76494E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400998242E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088512585375E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 8.00638E-05 cycle= 33 iter= 0 delt= 4.76494E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 8.50670E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 8.50670E-05, cycle = 34, delt = 5.00319E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:50 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.93175E+01 relative convergence criterion = 1.93175E+01 absolute convergence criterion = 1.93175E-03 convergence criterion = 1.93175E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 8.50670E-05, cycle = 34, dtstbl = 1.87167E-04, dtcode = cd, delt = 5.00319E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400996163E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088512768565E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 8.50670E-05 cycle= 34 iter= 0 delt= 5.00319E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 9.03203E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 9.03203E-05, cycle = 35, delt = 5.25335E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:46 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.83516E+01 relative convergence criterion = 1.83516E+01 absolute convergence criterion = 1.83516E-03 convergence criterion = 1.83516E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 9.03203E-05, cycle = 35, dtstbl = 1.87167E-04, dtcode = cd, delt = 5.25335E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400993992E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088512959921E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 9.03203E-05 cycle= 35 iter= 0 delt= 5.25335E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 9.58363E-05 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 9.58363E-05, cycle = 36, delt = 5.51602E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:44 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.74340E+01 relative convergence criterion = 1.74340E+01 absolute convergence criterion = 1.74340E-03 convergence criterion = 1.74340E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 9.58363E-05, cycle = 36, dtstbl = 1.87167E-04, dtcode = cd, delt = 5.51602E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400991725E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088513159759E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 9.58363E-05 cycle= 36 iter= 0 delt= 5.51602E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.01628E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.01628E-04, cycle = 37, delt = 5.79182E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:41 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.65623E+01 relative convergence criterion = 1.65623E+01 absolute convergence criterion = 1.65623E-03 convergence criterion = 1.65623E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.01628E-04, cycle = 37, dtstbl = 1.87167E-04, dtcode = cd, delt = 5.79182E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400989359E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088513368402E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.01628E-04 cycle= 37 iter= 0 delt= 5.79182E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.07710E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.07710E-04, cycle = 38, delt = 6.08141E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:39 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.57342E+01 relative convergence criterion = 1.57342E+01 absolute convergence criterion = 1.57342E-03 convergence criterion = 1.57342E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.07710E-04, cycle = 38, dtstbl = 1.87167E-04, dtcode = cd, delt = 6.08141E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400986889E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088513586171E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.07710E-04 cycle= 38 iter= 0 delt= 6.08141E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.14095E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.14095E-04, cycle = 39, delt = 6.38548E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:36 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.49475E+01 relative convergence criterion = 1.49475E+01 absolute convergence criterion = 1.49475E-03 convergence criterion = 1.49475E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.14095E-04, cycle = 39, dtstbl = 1.87167E-04, dtcode = cd, delt = 6.38548E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400984312E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088513813409E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.14095E-04 cycle= 39 iter= 0 delt= 6.38548E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.20800E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.20800E-04, cycle = 40, delt = 6.70475E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:34 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.42001E+01 relative convergence criterion = 1.42001E+01 absolute convergence criterion = 1.42001E-03 convergence criterion = 1.42001E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.20800E-04, cycle = 40, dtstbl = 1.87167E-04, dtcode = cd, delt = 6.70475E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400981622E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088514050459E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.20800E-04 cycle= 40 iter= 0 delt= 6.70475E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.27840E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.27840E-04, cycle = 41, delt = 7.03999E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 76 estimated remaining time = 00:00:32 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.34901E+01 relative convergence criterion = 1.34901E+01 absolute convergence criterion = 1.34901E-03 convergence criterion = 1.34901E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.27840E-04, cycle = 41, dtstbl = 1.87167E-04, dtcode = cd, delt = 7.03999E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400978819E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088514297664E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.27840E-04 cycle= 41 iter= 0 delt= 7.03999E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.35232E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.35232E-04, cycle = 42, delt = 7.39199E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:30 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.28156E+01 relative convergence criterion = 1.28156E+01 absolute convergence criterion = 1.28156E-03 convergence criterion = 1.28156E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.35232E-04, cycle = 42, dtstbl = 1.87167E-04, dtcode = cd, delt = 7.39199E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400975896E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088514555381E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.35232E-04 cycle= 42 iter= 0 delt= 7.39199E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.42993E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.42993E-04, cycle = 43, delt = 7.76159E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:28 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.21748E+01 relative convergence criterion = 1.21748E+01 absolute convergence criterion = 1.21748E-03 convergence criterion = 1.21748E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.42993E-04, cycle = 43, dtstbl = 1.87167E-04, dtcode = cd, delt = 7.76159E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400972847E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088514823962E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.42993E-04 cycle= 43 iter= 0 delt= 7.76159E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.51143E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.51143E-04, cycle = 44, delt = 8.14967E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:27 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.15661E+01 relative convergence criterion = 1.15661E+01 absolute convergence criterion = 1.15661E-03 convergence criterion = 1.15661E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.51143E-04, cycle = 44, dtstbl = 1.87167E-04, dtcode = cd, delt = 8.14967E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400969673E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088515103774E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.51143E-04 cycle= 44 iter= 0 delt= 8.14967E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.59700E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.59700E-04, cycle = 45, delt = 8.55715E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:25 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.09878E+01 relative convergence criterion = 1.09878E+01 absolute convergence criterion = 1.09878E-03 convergence criterion = 1.09878E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.59700E-04, cycle = 45, dtstbl = 1.87167E-04, dtcode = cd, delt = 8.55715E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400966369E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088515395176E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.59700E-04 cycle= 45 iter= 0 delt= 8.55715E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.68685E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.68685E-04, cycle = 46, delt = 8.98501E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:23 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.04384E+01 relative convergence criterion = 1.04384E+01 absolute convergence criterion = 1.04384E-03 convergence criterion = 1.04384E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.68685E-04, cycle = 46, dtstbl = 1.87167E-04, dtcode = cd, delt = 8.98501E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400962928E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088515698530E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.68685E-04 cycle= 46 iter= 0 delt= 8.98501E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.78119E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.78119E-04, cycle = 47, delt = 9.43426E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:22 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.04384E+01 relative convergence criterion = 1.04384E+01 absolute convergence criterion = 1.04384E-03 convergence criterion = 1.04384E+01 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.78119E-04, cycle = 47, dtstbl = 1.87167E-04, dtcode = cd, delt = 9.43426E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400959347E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088516014212E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.78119E-04 cycle= 47 iter= 0 delt= 9.43426E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.88025E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.88025E-04, cycle = 48, delt = 9.90597E-06 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:21 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 9.91648E+00 relative convergence criterion = 9.91648E+00 absolute convergence criterion = 9.91648E-04 convergence criterion = 9.91648E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.88025E-04, cycle = 48, dtstbl = 1.87167E-04, dtcode = cd, delt = 9.90597E-06 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400955623E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088516342584E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.88025E-04 cycle= 48 iter= 0 delt= 9.90597E-06 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.98427E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.98427E-04, cycle = 49, delt = 1.04013E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:19 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 9.42066E+00 relative convergence criterion = 9.42066E+00 absolute convergence criterion = 9.42066E-04 convergence criterion = 9.42066E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.98427E-04, cycle = 49, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.04013E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400951750E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088516684005E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.98427E-04 cycle= 49 iter= 0 delt= 1.04013E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 2.09348E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 2.09348E-04, cycle = 50, delt = 1.09213E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:18 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 8.94962E+00 relative convergence criterion = 8.94962E+00 absolute convergence criterion = 8.94962E-04 convergence criterion = 8.94962E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.09348E-04, cycle = 50, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.09213E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400947724E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088517038840E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.09348E-04 cycle= 50 iter= 0 delt= 1.09213E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 2.20815E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 2.20815E-04, cycle = 51, delt = 1.14674E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:17 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 8.50214E+00 relative convergence criterion = 8.50214E+00 absolute convergence criterion = 8.50214E-04 convergence criterion = 8.50214E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.20815E-04, cycle = 51, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.14674E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400943544E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088517407448E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.20815E-04 cycle= 51 iter= 0 delt= 1.14674E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 2.32856E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 2.32856E-04, cycle = 52, delt = 1.20408E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:16 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 8.07703E+00 relative convergence criterion = 8.07703E+00 absolute convergence criterion = 8.07703E-04 convergence criterion = 8.07703E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.32856E-04, cycle = 52, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.20408E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400939203E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088517790173E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.32856E-04 cycle= 52 iter= 0 delt= 1.20408E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 2.45499E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 2.45499E-04, cycle = 53, delt = 1.26428E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:15 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 7.67318E+00 relative convergence criterion = 7.67318E+00 absolute convergence criterion = 7.67318E-04 convergence criterion = 7.67318E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.45499E-04, cycle = 53, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.26428E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400934699E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088518187366E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.45499E-04 cycle= 53 iter= 0 delt= 1.26428E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 2.58774E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 2.58774E-04, cycle = 54, delt = 1.32749E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:14 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 7.28952E+00 relative convergence criterion = 7.28952E+00 absolute convergence criterion = 7.28952E-04 convergence criterion = 7.28952E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.58774E-04, cycle = 54, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.32749E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400930026E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088518599357E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.58774E-04 cycle= 54 iter= 0 delt= 1.32749E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 2.72713E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 2.72713E-04, cycle = 55, delt = 1.39387E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:13 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 6.92505E+00 relative convergence criterion = 6.92505E+00 absolute convergence criterion = 6.92505E-04 convergence criterion = 6.92505E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.72713E-04, cycle = 55, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.39387E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400925181E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088519026469E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.72713E-04 cycle= 55 iter= 0 delt= 1.39387E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 2.87348E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 2.87348E-04, cycle = 56, delt = 1.46356E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:12 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 6.57880E+00 relative convergence criterion = 6.57880E+00 absolute convergence criterion = 6.57880E-04 convergence criterion = 6.57880E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 2.87348E-04, cycle = 56, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.46356E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400920160E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088519469007E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 2.87348E-04 cycle= 56 iter= 0 delt= 1.46356E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.02716E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 3.02716E-04, cycle = 57, delt = 1.53674E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:11 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 6.24986E+00 relative convergence criterion = 6.24986E+00 absolute convergence criterion = 6.24986E-04 convergence criterion = 6.24986E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.02716E-04, cycle = 57, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.53674E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400914964E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088519927271E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.02716E-04 cycle= 57 iter= 0 delt= 1.53674E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.18851E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 3.18851E-04, cycle = 58, delt = 1.61358E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:10 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 5.93736E+00 relative convergence criterion = 5.93736E+00 absolute convergence criterion = 5.93736E-04 convergence criterion = 5.93736E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.18851E-04, cycle = 58, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.61358E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400909585E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088520401534E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.18851E-04 cycle= 58 iter= 0 delt= 1.61358E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.35794E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 3.35794E-04, cycle = 59, delt = 1.69426E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:10 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 5.64049E+00 relative convergence criterion = 5.64049E+00 absolute convergence criterion = 5.64049E-04 convergence criterion = 5.64049E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.35794E-04, cycle = 59, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.69426E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400904020E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088520892054E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.35794E-04 cycle= 59 iter= 0 delt= 1.69426E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.53584E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 3.53584E-04, cycle = 60, delt = 1.77897E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:09 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 5.35847E+00 relative convergence criterion = 5.35847E+00 absolute convergence criterion = 5.35847E-04 convergence criterion = 5.35847E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.53584E-04, cycle = 60, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.77897E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400898267E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088521399060E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.53584E-04 cycle= 60 iter= 0 delt= 1.77897E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.72263E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 3.72263E-04, cycle = 61, delt = 1.86792E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:08 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 5.09055E+00 relative convergence criterion = 5.09055E+00 absolute convergence criterion = 5.09055E-04 convergence criterion = 5.09055E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.72263E-04, cycle = 61, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.86792E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400892328E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088521922770E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.72263E-04 cycle= 61 iter= 0 delt= 1.86792E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 3.91876E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 3.91876E-04, cycle = 62, delt = 1.96131E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:08 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 4.83602E+00 relative convergence criterion = 4.83602E+00 absolute convergence criterion = 4.83602E-04 convergence criterion = 4.83602E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 3.91876E-04, cycle = 62, dtstbl = 1.87167E-04, dtcode = cd, delt = 1.96131E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400886197E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088522463364E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 3.91876E-04 cycle= 62 iter= 0 delt= 1.96131E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 4.12470E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 4.12470E-04, cycle = 63, delt = 2.05938E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:07 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 4.59422E+00 relative convergence criterion = 4.59422E+00 absolute convergence criterion = 4.59422E-04 convergence criterion = 4.59422E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 4.12470E-04, cycle = 63, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.05938E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400879872E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088523021001E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 4.12470E-04 cycle= 63 iter= 0 delt= 2.05938E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 4.34093E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 4.34093E-04, cycle = 64, delt = 2.16235E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 86 estimated remaining time = 00:00:06 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 4.36451E+00 relative convergence criterion = 4.36451E+00 absolute convergence criterion = 4.36451E-04 convergence criterion = 4.36451E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 4.34093E-04, cycle = 64, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.16235E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400873350E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088523595806E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 4.34093E-04 cycle= 64 iter= 0 delt= 2.16235E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 4.56798E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 4.56798E-04, cycle = 65, delt = 2.27047E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 84 estimated remaining time = 00:00:06 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 4.14628E+00 relative convergence criterion = 4.14628E+00 absolute convergence criterion = 4.14628E-04 convergence criterion = 4.14628E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 4.56798E-04, cycle = 65, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.27047E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400866635E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088524187868E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 4.56798E-04 cycle= 65 iter= 0 delt= 2.27047E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 4.80638E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 4.80638E-04, cycle = 66, delt = 2.38399E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 84 estimated remaining time = 00:00:05 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.93897E+00 relative convergence criterion = 3.93897E+00 absolute convergence criterion = 3.93897E-04 convergence criterion = 3.93897E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 4.80638E-04, cycle = 66, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.38399E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400859726E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088524797250E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 4.80638E-04 cycle= 66 iter= 0 delt= 2.38399E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 5.05670E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 5.05670E-04, cycle = 67, delt = 2.50319E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 84 estimated remaining time = 00:00:05 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.93897E+00 relative convergence criterion = 3.93897E+00 absolute convergence criterion = 3.93897E-04 convergence criterion = 3.93897E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.05670E-04, cycle = 67, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.50319E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400852616E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088525423971E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.05670E-04 cycle= 67 iter= 0 delt= 2.50319E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 5.31953E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 5.31953E-04, cycle = 68, delt = 2.62835E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 84 estimated remaining time = 00:00:04 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.74202E+00 relative convergence criterion = 3.74202E+00 absolute convergence criterion = 3.74202E-04 convergence criterion = 3.74202E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.31953E-04, cycle = 68, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.62835E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400845310E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088526068013E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.31953E-04 cycle= 68 iter= 0 delt= 2.62835E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 5.59551E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 5.59551E-04, cycle = 69, delt = 2.75977E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 84 estimated remaining time = 00:00:04 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.55492E+00 relative convergence criterion = 3.55492E+00 absolute convergence criterion = 3.55492E-04 convergence criterion = 3.55492E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.59551E-04, cycle = 69, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.75977E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400837809E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088526729328E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.59551E-04 cycle= 69 iter= 0 delt= 2.75977E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 5.88529E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 5.88529E-04, cycle = 70, delt = 2.89775E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 84 estimated remaining time = 00:00:04 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.37717E+00 relative convergence criterion = 3.37717E+00 absolute convergence criterion = 3.37717E-04 convergence criterion = 3.37717E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 5.88529E-04, cycle = 70, dtstbl = 1.87167E-04, dtcode = cd, delt = 2.89775E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400830114E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088527407816E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 5.88529E-04 cycle= 70 iter= 0 delt= 2.89775E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 6.18955E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 6.18955E-04, cycle = 71, delt = 3.04264E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 84 estimated remaining time = 00:00:03 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.20831E+00 relative convergence criterion = 3.20831E+00 absolute convergence criterion = 3.20831E-04 convergence criterion = 3.20831E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 6.18955E-04, cycle = 71, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.04264E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400822222E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088528103339E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 6.18955E-04 cycle= 71 iter= 0 delt= 3.04264E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 6.50903E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 6.50903E-04, cycle = 72, delt = 3.19477E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:03 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 3.04790E+00 relative convergence criterion = 3.04790E+00 absolute convergence criterion = 3.04790E-04 convergence criterion = 3.04790E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 6.50903E-04, cycle = 72, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.19477E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400814143E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088528815722E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 6.50903E-04 cycle= 72 iter= 0 delt= 3.19477E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 6.84448E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 6.84448E-04, cycle = 73, delt = 3.35451E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:02 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.89550E+00 relative convergence criterion = 2.89550E+00 absolute convergence criterion = 2.89550E-04 convergence criterion = 2.89550E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 6.84448E-04, cycle = 73, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.35451E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400805876E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088529544750E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 6.84448E-04 cycle= 73 iter= 0 delt= 3.35451E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 7.19670E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 7.19670E-04, cycle = 74, delt = 3.52224E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:02 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.75073E+00 relative convergence criterion = 2.75073E+00 absolute convergence criterion = 2.75073E-04 convergence criterion = 2.75073E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 7.19670E-04, cycle = 74, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.52224E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400797420E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088530290158E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 7.19670E-04 cycle= 74 iter= 0 delt= 3.52224E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 7.56654E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 7.56654E-04, cycle = 75, delt = 3.69835E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:02 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.61319E+00 relative convergence criterion = 2.61319E+00 absolute convergence criterion = 2.61319E-04 convergence criterion = 2.61319E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 7.56654E-04, cycle = 75, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.69835E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400788783E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088531051649E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 7.56654E-04 cycle= 75 iter= 0 delt= 3.69835E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 7.95486E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 7.95486E-04, cycle = 76, delt = 3.88327E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:01 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.48253E+00 relative convergence criterion = 2.48253E+00 absolute convergence criterion = 2.48253E-04 convergence criterion = 2.48253E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 10, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 7.95486E-04, cycle = 76, dtstbl = 1.87167E-04, dtcode = cd, delt = 3.88327E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400779968E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088531828882E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 7.95486E-04 cycle= 76 iter= 0 delt= 3.88327E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 8.36261E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 8.36261E-04, cycle = 77, delt = 4.07743E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:01 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.35841E+00 relative convergence criterion = 2.35841E+00 absolute convergence criterion = 2.35841E-04 convergence criterion = 2.35841E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 8.36261E-04, cycle = 77, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.07743E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400770977E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088532621492E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 8.36261E-04 cycle= 77 iter= 0 delt= 4.07743E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 8.79074E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 8.79074E-04, cycle = 78, delt = 4.28130E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:01 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.24049E+00 relative convergence criterion = 2.24049E+00 absolute convergence criterion = 2.24049E-04 convergence criterion = 2.24049E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 8.79074E-04, cycle = 78, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.28130E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400761817E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088533429062E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 8.79074E-04 cycle= 78 iter= 0 delt= 4.28130E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 9.24027E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 9.24027E-04, cycle = 79, delt = 4.49537E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:00 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.12846E+00 relative convergence criterion = 2.12846E+00 absolute convergence criterion = 2.12846E-04 convergence criterion = 2.12846E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 9.24027E-04, cycle = 79, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.49537E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400752491E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088534251153E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 9.24027E-04 cycle= 79 iter= 0 delt= 4.49537E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 9.71229E-04 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 9.71229E-04, cycle = 80, delt = 4.72014E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:00 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 2.02204E+00 relative convergence criterion = 2.02204E+00 absolute convergence criterion = 2.02204E-04 convergence criterion = 2.02204E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 9.71229E-04, cycle = 80, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.72014E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400743007E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088535087308E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 9.71229E-04 cycle= 80 iter= 0 delt= 4.72014E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print ------------------------------------------------- restart and spatial data available at t= 1.02079E-03 ------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** start short print at 20:10:47 time = 1.02079E-03, cycle = 81, delt = 4.95614E-05 stability limit = 1.87167E-04, stability code = cd elapsed time = 00:00:05 parallel efficiency (%) = 87 estimated remaining time = 00:00:00 *** pressure iteration info: number of iterations = 0 residual = 0.00000E+00 baseline convergence criterion = 1.92094E+00 relative convergence criterion = 1.92094E+00 absolute convergence criterion = 1.92094E-04 convergence criterion = 1.92094E+00 resid/criterion ratio = 0.00000E+00 omega = 1.00000E+00, rcsql = 0.00000E+00 *** fluid #1 volume info: fluid #1 volume = 7.80000E-04 % volume lost = 0.00000E+00 fill fraction = 6.66667E-01 solidified fluid #1 volume = 7.80000E-04 solidified fraction = 1.00000E+00 *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 *** end of short print ---------------------------------------------------------------------------------------------------- ---------------------------------------------------------------------------------------------------- *** long print 11/19/2024 20:10:4600 time = 1.02079E-03, cycle = 81, dtstbl = 1.87167E-04, dtcode = cd, delt = 4.95614E-05 number of void regions is 1 l vol(l) pr_usr(l) pr_sim(l) prt_usr(l) prt_sim(l) tvr_usr(l) tvr_sim(l) dvrdp(l) kvht(l) kvpr(l) area(l) 8 3.90000E-04 1.01300E+06 1.01300E+06 1.01300E+06 1.01300E+06 2.99150E+02 2.99150E+02 0.00000E+00 1 0 1.95000E-02 total unresolved void region volume= 0.000E+00 volume occupied by fluid = 7.800000000000005E-04 avrck-adjusted volume of fluid #1 = 7.800000000000005E-04 fluid surface area = 1.950000000000000E-02 total active solid component volume = 0.000000000000000E+00 avrck-adjusted solid component volume = 0.000000000000000E+00 mass and energy audits mass-averaged mean kinetic energy = 0.000000000000000E+00 open volume in mesh = 1.170000000000000E-03 avrck-adjusted open volume in mesh = 1.170000000000000E-03 fill fraction of open volume = 6.666666666666669E-01 solidified fraction of fluid volume = 1.000000000000000E+00 solidified volume of fluid #1 = 7.800000000000005E-04 avrck-adjusted solidified volume of fluid #1 = 7.800000000000005E-04 total fluid mass = 6.200698400733369E-03 cumulative fluid mass source = 0.000000000000000E+00 total fluid #1 thermal energy = 7.950088535937031E+06 total mass of scalar species 1 = 0.000000000000000E+00 total mass of scalar species 2 = 0.000000000000000E+00 total mass of scalar species 3 = 7.800000000000004E-10 total mass of scalar species 4 = 1.455353907007636E-10 total mass of scalar species 5 = 0.000000000000000E+00 total mass of scalar species 6 = 0.000000000000000E+00 total mass of scalar species 7 = 0.000000000000000E+00 total mass of scalar species 8 = 0.000000000000000E+00 total mass of scalar species 9 = 0.000000000000000E+00 total solid thermal energy = 0.000000000000000E+00 t= 1.02079E-03 cycle= 81 iter= 0 delt= 4.95614E-05 vl= 7.80000E-04 vchgt= 0.00000E+00 particle model diagnostics at the end of cycle: current hot spots count = 0 generated = 0 discarded = 0 *** end of long print *** time step stability limits: x- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 y- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 z- explicit convective time-step limit = 4.50000E+19 at cell ( 2, 2, 1) in mesh block 1 explicit viscous time-step limit = 8.13992E-04 at cell ( 2, 2, 2) in mesh block 1 thermal conduction time-step limit = 1.87167E-04 at cell ( 20, 3, 3) in mesh block 1 wall heat transfer time-step limit = 1.08604E-03 at cell ( 2, 2, 2) in mesh block 1 end of calculation at t = 1.02079E-03, cycle = 81 normal completion flsgrf.simulation file size: 21 mb elapsed time = 5.38400E+00 seconds, or 0 days : 0 hours : 0 minutes : 5 seconds cpu time = 6.15071E+01 seconds date of completion = 11/19/2024 time = 20:10:47