SU802520A1 - Blowout preventer control system for underwater operation - Google Patents

Description

Laziness of the hydraulic distributor to close the preventer.

The hydraulic circuit of the preventer control system with shear dies of underwater blowout equipment is shown in the drawing.

The working fluid of the electric drive pump 1 and the pneumatic drive pump 2 enters the pressure line 3. The pump 2 is equipped with a hydraulically controlled starting valve 4. The system is equipped with a hydropneumatic accumulator 5, subsea 6 and control 7.

Underwater hydropneumatic accumulators 6 are smaller in volume than surface 5 and are intended to increase the speed of the system.

The surface hydropneumatic accumulators 5 are connected to the pressure line 3 through a three-way hydraulically controlled shut-off valve 8 and an additional non-return valve 9, and the underwater hydraulic-pneumatic accumulators 6 - through a shut-off valve 10, an additional three-way shut-off valve 11 and an additional non-return valve 12. Discharge line 3 through the hydraulic control The control valves 14 and 15 of the closing and opening of the preventer are also connected to the preventer 16.

The hydraulically controlled valves and hydraulic distributors are controlled by hydraulic distributors 17 and 18, and the control lines of valves 4.8 and 11 and the hydraulic distributor 14 are hydraulically connected, and these valves are controlled in parallel by the hydraulic distributor 18.

The device works as follows.

After mounting the underwater blowout equipment, the valve 18 is switched. On command from this valve, the valve 10 is switched, the connection of the underwater hydraulic accumulators to the pressure line 3 is connected. the hydraulic valve switches and connects the pressure line 3 to the piston cavities of the preventer hydraulic cylinders 16. At the same time The hydraulic signal of Hydraulic distributor 17 fed to Directional control valves 14 for closing nreventora is supplied to the valve 4, including pneumatically pump 2 to the valves 8 and AND connecting surface and underwater gidropnevmoakkumul tori with the pressure line 3 via the check valves 9 and 12.

Since the operation of closing the preventer with shear dies is performed, as a rule, after performing a number of other operations during control of blowout equipment (closing and opening of universal and die preventers, manifold gate valves), hydropneumatic accumulators 5 and 6, releasing energy to perform these operations, they are pressed and have enough pressure to quickly pass the preventer piston before the dies come in contact with the drill pipe, but not enough to provide the required force to see and cut the pipe but this force is fully provided by the pump 2, which supplies the working agent under the required pressure to the reduced cavities of the preventer hydraulic cylinders 16. The piston stroke when the pipe is cut is small, and the closing speed is necessary is provided by the pump 2. In this case, check valves 9 and 12 cut off the hydro-pneumatic accumulators 5 and 6 from the pressure line 3.

To open the preventer 16, the valve 17 is switched so that the hydraulic-pneumatic accumulators of the control 7 are connected to the control chamber of the hydraulic distributor 15, which switches and connects the pressure line 3 to the rod cavities of the hydraulic cylinders of the preventer 16. In this case, the piston cavities through the hydraulic distributor 14 are connected to the drain. If necessary, charging batteries include electric-1 or pneumatic 2 pumps.

Such a combined drive of preventer hydraulic cylinders allows to reduce

O its dimensions and weight.

Claims (2)

1. US patent number 3561527, CL. Е 21 В, 33/06, published 1971. 2.Catalogue “Oil field Eqjiipment and Servis 1978-1979, vo 4, p. 6148-6149. In a