초록 ▼

The present invention generally relates to a subsurface safety valve configured to control fluid flow through a production tubing string. In one aspect, a safety valve for deployment beneath a surface of a wellbore is provided. The valve includes a control piston and a balance piston. The valve is c

The present invention generally relates to a subsurface safety valve configured to control fluid flow through a production tubing string. In one aspect, a safety valve for deployment beneath a surface of a wellbore is provided. The valve includes a control piston and a balance piston. The valve is configured to be connected to a controller at the surface by a control line so that the control piston is actuatable between a first position and a second position in response to receiving pressurized fluid from the controller through the control line. The balance piston is configured to compensate for hydrostatic pressure in the control line. The valve may have a bore therethrough and the control piston may be configured to utilize tubing pressure within the valve bore to urge the control piston towards the second position.

대표청구항 ▼

The invention claimed is: 1. A subsurface safety valve, comprising: a flow tube having a bore therethrough; a control piston having two sides isolated from each other by a seal assembly and coupled to the flow tube; and a balance piston having two sides isolated from each other by a seal assembly a

The invention claimed is: 1. A subsurface safety valve, comprising: a flow tube having a bore therethrough; a control piston having two sides isolated from each other by a seal assembly and coupled to the flow tube; and a balance piston having two sides isolated from each other by a seal assembly and selectively coupled to the flow tube, wherein: the valve is configured so that the control piston will receive a control pressure on the first side and the balance piston will receive a hydrostatic pressure on the second side, and the flow tube is actuatable between a first position and a second position and the balance piston is selectively coupled to the flow tube so that the balance piston may urge the flow tube towards the second position but not towards the first position. 2. The safety valve of claim 1, wherein the second side of the control piston is in fluid communication with the flow tube bore. 3. The safety valve of claim 1, wherein the first side of the balance piston is in fluid communication with the flow tube bore. 4. The safety valve of claim 1, further comprising at least one housing, wherein the flow tube, the control piston, and the balance piston are disposed within the housing and the balance piston is selectively coupled to the housing. 5. The safety valve of claim 4, further comprising a flapper coupled to the housing and a flapper spring coupled between the flapper and the housing, wherein the flapper is actuatable by the flow tube between a first position and a second position and the flapper spring biases the flapper in the second position. 6. The safety valve of claim 1, wherein the first side of the control piston has an area A1, the second side of the control piston has an area A2, and A1 is substantially equal to A2. 7. The safety valve of claim 1, wherein the first side of the balance piston has an area A3, the second side of the balance piston has an area A4, and A3 is substantially equal to A4. 8. The safety valve of claim 1, wherein the first side of the control piston has an area A1, the first side of the balance piston has an area A3, and A1 is substantially equal to A3. 9. The safety valve of claim 1, further comprising at least one housing and a biasing member disposed between the flow tube and the housing. 10. A method of using the safety valve of claim 1, comprising: deploying production tubing with the safety valve disposed therein in a wellbore proximate to a formation; and flowing hydrocarbons from the formation through the production tubing and the safety valve to a surface of the wellbore. 11. The method of claim 10, wherein a control line extends from the surface to a port in communication with the first side of the control piston and a balance line extends from the surface to a port in communication with the second side of the balance piston. 12. A subsurface safety valve, comprising: a housing having a control port disposed through a wall thereof, and a balance port disposed through the housing wall; a flow tube disposed in the housing and having a bore therethrough, the flow tube movable between first and second positions; a control piston: disposed in the housing, having a first side in communication with the control port and a second side isolated from the first side by a seal assembly, and coupled to the flow tube; and a balance piston: disposed in the housing, having a second side in communication with the balance port and a first side isolated from the second side by a seal assembly, and movable relative to the flow tube when the flow tube is in the second position. 13. The safety valve of claim 12, wherein the second side of the control piston is in communication with the flow tube bore and the first side of the balance piston is in communication with the flow tube bore. 14. The safety valve of claim 12, wherein the balance piston is movable between active and idle positions when the flow tube is in the second position and the balance piston is longitudinally coupled to the flow tube in the active position and longitudinally coupled to the housing in the idle position. 15. The safety valve of claim 14, wherein the flow tube has a wall and a shoulder is formed in the wall and the balance piston abuts the flow tube shoulder in the active position and a shoulder formed in the housing wall in the idle position. 16. The safety valve of claim 12, further comprising a flapper coupled to the housing and a flapper spring coupled between the flapper and the housing, wherein the flapper is movable by the flow tube to an open position and movable by the flapper spring to a closed position. 17. The safety valve of claim 12, wherein: the housing further has a bore therethrough, the housing further has a control chamber formed in the housing wall and in communication with the control port, the housing further has a balance chamber formed in the housing wall and in communication with the balance port, the control piston is at least partially disposed in the control chamber, and the balance piston is disposed in the balance chamber. 18. The safety valve of claim 12, further comprising a biasing member disposed between the flow tube and the housing, wherein the biasing member is longitudinally coupled to the housing and the flow tube. 19. A method of using the safety valve of claim 12, comprising: deploying production tubing with the safety valve disposed therein in a wellbore proximate to a formation; and flowing hydrocarbons from the formation through the production tubing and the safety valve to a surface of the wellbore. 20. The method of claim 19, wherein a control line extends from the surface to the control port and a balance line extends from the surface to the balance port.