Patent Number: 044217161
Section: claims

1. For use in a nuclear reactor power plant, including a reactor vessel having a reactor core, said power plant having a number of first subsystems utilized for operating said plant during normal operating conditions, a number of second subsystems utilized for operating said plant during abnormal and accident operating conditions, and a control panel for displaying plant parameters relating to plant operation, said first and second subsystems including subsystems that add water to said reactor vessel, and subsystems that take water away from said reactor vessel, a transient interpreter comprising: A. means (36) connected to said first and second subsystems for receiving signals representing the values of various ones of said plant parameters;  B. interpreter logic means (22) responsive to said receiving means (36) for analyzing said ones of said plant parameters, said interpreter logic means including:  means for determining the instantaneous water inventory of said reactor vessel by monitoring the parameters of those of said first and second subsystems that add water to said reactor vessel, and those of said first and second subsystems that take water away, to provide first data corresponding to the net inflow or outflow of water to said reactor vessel as indicated by directly measured process instrumentation level meters;  means for converting said first data to measured water level data relative to the top of said reactor core;  back-up system means for calculating reactor vessel water level based upon an analytical model of said reactor vessel and said core, said analytical model being based upon the integration of the inflow and outflow of water to said reactor vessel, reactor power, reactor pressure, and reactor water mass, to thereby provide calculated water level data as an alternate to said measured water level data;  means for setting said calculated water level data to be equal to said measured water level data, so that said calculated water level is consistent with said measured water level data as indicated by said directly measured process instrumentation level meters, said means for setting being operative periodically only during normal operation of said plant;  C. first means (14) responsive to said interpreter logic means (22) for generating for display, a primary display, said primary display comprised of information corresponding to primary parameters, said primary parameters comprising a first subset of said plant parameters, said first subset of said plant parameters relating to said first subsystems utilized for operating said plant during normal operating conditions;  D. second means (18, 20) responsive to said interpreter logic means (22) for generating for display, a plurality of secondary displays, each of said secondary displays comprised of information corresponding to secondary parameters, said secondary parameters comprising a second subset of said plant parameters relating to said second subsystems utilized for operating said plant during abnormal and accident operating conditions,  said second means including third means (310) responsive to said determining means within said interpreter logic means (22) for generating a first one of said plurality of secondary displays, said first one secondary display comprised of said calculated water level data; and,  E. fourth means (16, 32, 34) connected to said first means (14) and to said second means (18, 20), said fourth means being selectively operable by an operator, for selecting for display any one of said secondary displays, including said first one of said secondary displays, from said plurality of secondary displays.  fifth means for determining the instantaneous power level; and,  sixth means for determining whether or not the reactor is reaching the containment pressure limit that will rupture said containment vessel;  said first means (14) further including seventh means responsive to said determining means within said interpreter logic means (22), and to said fifth, and sixth means, for generating for display, a primary display, said primary display comprised of information corresponding to said instantaneous water inventory of said reactor vessel, said instantaneous power level, and information as to whether or not the reactor is reaching the containment pressure limit that will rupture the containment vessel.  means (22) for logically combining critical ones of said plant parameters to thereby provide data as to normal, abnormal and accident plant conditions;  first means (14), responsive to said combining means (22), for generating a primary output display comprised of primary output display (POD) data, said POD data containing information in summary form of selected ones of said critical plant parameters, said selected ones of said critical plant parameters comprising a first subset of said plant parameters, said first subset of said plant parameters relating to said first subsystems utilized for operating said plant during normal operating conditions said POD data including measured data corresponding to the net inflow or outflow of water to said reactor vessel as indicated by directly measured process instrumentation level meters;  displaying means (9, 10, 11) for displaying data inputted thereto;  second means (26) connected to said first means (14) and to said displaying means (9, 10, 11) for gating said primary output display, selectively under control of a first selection input (17), to said displaying means (9, 10, 11);  third means (18) responsive to said combining means (22) for generating a plurality of secondary output displays (19),  said third means including means for calculating reactor vessel water level based upon an analytical model of said reactor vessel and said core, said analytical model being based upon the integration of the inflow and outflow of water to said reactor vessel, reactor power, reactor pressure, and reactor water mass, to thereby provide calculated water level data,  said secondary output displays (19) comprised of secondary output display (SOD) data, said SOD data comprising a second subset of said plant parameters relating to said second subsystems utilized for operating said plant during abnormal and accident operating conditions, said SOD data containing information in summary form of said second subset of said plant parameters, said SOD data including said calculated water level data which provides an operator with a secondary display during abnormal and accident operating conditions which is an alternative to said measured data available on said primary output display;  fourth means (34) connected to said third means (18) and to said displaying means (9, 10, 11) for gating one of said secondary output displays (19), selectively under control of a corresponding one of said second selection inputs (28), to said displaying means; and,  fifth means (16) operable by an operator, for selectively energizing and deenergizing said second selection inputs (28) and said first selection input (17) to thereby provide said operator with a display of only selected ones of said second subset of said plant parameters.  A. generating primary information as to whether the core is covered and likely to remain covered, including information as to the status of those of said first and second subsystems needed to provide water to cool the core and maintain core integrity;  said step of generating primary information including the steps of:  determining the instantaneous water inventory of said reactor vessel by monitoring the parameters of those of said first and second subsystems that add water to said reactor vessel, and those of said first and second subsystems that take water away, to provide first data corresponding to the net inflow or outflow of water to said reactor vessel as indicated by directly measured process instrumentation level meters;  converting said first data to measured water level data relative to the top of said reactor core; and,  generating for display, a primary display, said primary display comprised of information corresponding to said instantaneous water inventory of said reactor vessel;  B. generating secondary information which provides a secondary display comprised of information as to reactor vessel water inflow and outflow in ranked order which can be viewed selectively for more detailed information when an abnormal condition occurs;  said step of generating secondary information including the steps of:  calculating reactor vessel water level based upon an analytical model of said reactor vessel and said core, said analytical model being based upon the integration of the inflow and outflow of water to said reactor vessel, reactor power, reactor pressure, and reactor water mass, to thereby provide calculated water level data as an alternate to said measured water level data;  setting said calculated water level data to be equal to said measured water level data periodically only during normal operation of said plant, so that said calculated water level is consistent with said measured water level data as indicated by said directly measured process instrumentation level meters; and,  C. displaying with said primary information, a prompt message indicating that said secondary display should be selected for viewing. 2. The combination in accordance with claim 1 wherein said interpreter logic means further comprises: 3. For use in a nuclear reactor power plant, including a reactor vessel, said power plant having a number of first subsystems utilized for operating said plant during normal operating conditions, a number of second subsystems utilized for operating said plant during abnormal and accident operating conditions, and a control panel for displaying plant parameters relating to plant operation, a transient interpreter comprising: 4. The combination in accordance with claim 3, wherein said fifth means (16) operable by an operator, for selectively energizing and deenergizing said second selection inputs (28) includes a number of pushbuttons, each of said number of pushbuttons being associated with a corresponding one of said second selection inputs (28), and said POD data includes at least one prompt message for display to thereby inform an operator as to which of said number of pushbuttons to press in order to call up the corresponding one of said secondary displays for viewing. 5. For use in a nuclear reactor power plant, including a reactor vessel, said power plant having a number of first subsystems utilized for operating said plant during normal operating conditions, a number of second subsystems utilized for operating said plant during abnormal and accident operating conditions, and a control panel for displaying plant parameters relating to plant operation, said plant including a water-cooled reactor core in a reactor vessel, the method comprising the steps of: 6. The method in accordance with claim 5 wherein said step B of generating secondary information includes the further step of performing a thermal-hydraulic analysis in order to generate secondary information for display as to whether the water level is rising or dropping, and how much time remains before the core will become uncovered if the water level continues to drop at its current rate.