Patent ID: 11959346
Assignee: GUANGZHOU MARINE GEOLOGICAL SURVEY
Field: Civil engineering (Other fields)
Classification: CPC E | IPC E

Claim 0:
1. A method for offshore dual-drive core drilling with three layers of casings under surge compensation, comprising steps of:
(1) providing a device for offshore dual-drive core drilling with three layers of casings under surge compensation, the device comprising:
a drilling vessel with a dynamic positioning system, wherein the drilling vessel has a deck provided with a moon pool and a tower, the moon pool is provided with a moon pool cover on a top, the moon pool cover is provided with a pneumatic slip in a center, and an elevatable seabed template is suspended in the moon pool;
a drilling tool system, comprising outer casings, inner casings, drill pipes, and a surge compensator, wherein the surge compensator is configured to connect the outer casings to prevent the outer casings from colliding with wellhead equipment;
an outer-casing drilling system, comprising a tower-mounted traveling block, a top driver mounted on the tower-mounted traveling block, and a hydraulic elevator mounted on the top driver, wherein the top driver is configured to provide the outer casings with a rotation power, the tower-mounted traveling block is vertically movable and configured to provide a longitudinal feed to achieve drilling of the outer casings, and the hydraulic elevator is configured to pick the outer casings and assist buckling of the outer casings;
an inner-casing and drill-pipe drilling system, comprising a vertical-spindle type drill and a winch, wherein the vertical-spindle type drill is movably mounted next to the moon pool and is configured to provide the inner casings and the drill pipes with a drilling power, the winch is mounted on the deck, configured to hoist the inner casings and the drill pipes and provided with a matched drawing head, the vertical-spindle type drill has a drill guide rail provided with a matched counterweight, and a drilling pressure is adjusted for the inner casings and the drill pipes by coordination between the counterweight and the winch; and
a mud circulation system, comprising a deck-mounted mud recovery tank, a mud filter, a mud pool, and a mud pump, wherein the inner casings are connected to the mud recovery pool by a first pipeline, the mud recovery pool is connected to the mud filter by a second pipeline, the mud filter is connected to the mud pool by a third pipeline, the mud pool is connected to the mud pump by a fourth pipeline, and the mud pump is connected to the drill pipes by a fifth pipeline, thereby forming a mud circulation loop; and
(II) performing core drilling by using the device for offshore dual-drive core drilling with three layers of casings under surge compensation, comprising:
(1) sailing the drilling vessel to a designated station, and enabling dynamic positioning to stabilize a wellhead at a designated sampling position;
(2) allowing an initial position of the vertical-spindle type drill to reside next to the moon pool, the elevatable seabed template to reside in the moon pool, and the tower-mounted traveling block, the top driver and the hydraulic elevator to reside on an uppermost end, and limiting the counterweight to an uppermost end of the drill guide rail;
(3) opening the pneumatic slip, clamping the outer casing with a drill bit by the hydraulic elevator, delivering the outer casing into the pneumatic slip which clamps the outer casing, continuing to clamp another outer casing with the hydraulic elevator, aligning the another outer casing to the outer casing clamped by the pneumatic slip, tightening and buckling the outer casings, repeatedly connecting a plurality of outer casings such that the outer casings pass through the pneumatic slip, the moon pool and the elevatable seabed template till the drill bit is close to a seabed, connecting the outer casings to the surge compensator, and then continuing to connect the outer casing, till the drill bit reaches the seabed;
(4) lowering the elevatable seabed template to the seabed;
(5) connecting the top driver to the outer casings, starting the top driver to drill, lifting the outer casings after drilling to a certain depth such that the surge compensator is in a middle position, then closing the pneumatic slip to clamp the outer casings, disconnecting the outer casings from the top driver, and elevating the top driver to leave the outer casings as a first layer of wall protection casings;
(6) connecting the drawing head to the inner casing with a drill bit, starting the winch, delivering the inner casing into the corresponding outer casing, clamping the inner casing to a mouth of the outer casing by callipers, continuing to draw another inner casing to an interface of the previous inner casing, buckling and connecting the inner casings, and repeatedly connecting a plurality of inner casings, till the drill bit reaches the seabed;
(7) moving the vertical-spindle type drill to a wellhead position to connect the inner casings, connecting the counterweight to the drawing head, releasing the limit of the counterweight, starting drilling to allow the inner casings to begin to rotate, adjusting a drilling pressure by the winch and the counterweight, stop drilling after drilling to a certain footage, disconnecting the inner casings from the vertical-spindle type drill to leave the inner casings as a second layer of casings, returning the counterweight to the uppermost end of the drill guide rail, disconnecting the counterweight from the drawing head, and returning the vertical-spindle type drill to the initial position;
(8) connecting the drawing head to the drill pipe with the drill bit, starting the winch to deliver the drill pipe into the inner casings, clamping the drill pipe to the mouth of the inner casing by the calipers, continuing to draw another drill pipe to an interface of the previous drill pipe, buckling and connecting the inner casings, and repeatedly connecting a plurality of drill pipes, till the drill bit reaches the seabed;
(9) moving the vertical-spindle type drill to the wellhead position again to connect the drill pipes, connecting the counterweight to the drawing head, releasing the limit of the counterweight, starting drilling to allow the drill pipe to begin to rotate, adjusting the drilling pressure by the winch and the counterweight, ending a first round after drilling to a certain footage, lifting the drill bit for core drilling, taking out a rock core sample from the core-drilling dill bit of the drill pipe, and cutting, cataloging and sealing the rock core sample;
(10) starting a new round by reconnecting the drill pipes till the seabed is reached, connecting the vertical-spindle type drill, starting the mud pump to pump mud from the mud pool into the drill pipes, transporting the mud to the drill bit of the drill pipe to take away internal rock debris from a borehole and to return from the inner casings, returning the mud carrying the rock debris to the mud recovery pool, filtering the mud by the mud filter, returning the mud to the mud pool to achieve mud circulation, starting the vertical-spindle type drill to sweep the borehole till a sampling horizon is reached, turning off the mud pump, starting drilling for sampling, ending a current round after drilling to a certain footage, lifting the drill bit for coring, taking out a rock core sample from the coring dill bit of the drill pipe, and cutting, cataloging and sealing the rock core sample; and
(11) repeating step (10) to achieve continuous sampling.