The present application provides a liquid fuel system for use with a flow of a liquid fuel and a combustor of a gas turbine engine. The liquid fuel system may include a number of fuel lines in communication with the combustor, a purge air inlet positioned about each of the fuel lines, a number of dr
The present application provides a liquid fuel system for use with a flow of a liquid fuel and a combustor of a gas turbine engine. The liquid fuel system may include a number of fuel lines in communication with the combustor, a purge air inlet positioned about each of the fuel lines, a number of drain lines with each drain line in communication with a respective fuel line, and a number of drain valves with each drain valve in communication with a respective drain line so as to drain the flow of liquid fuel in the fuel lines via a flow of purge air through the purge air inlet and opening the drain valves.
대표청구항▼
1. A liquid fuel system for use with a flow of a liquid fuel and a combustor of a gas turbine engine, comprising: a plurality of fuel lines in communication with the combustor;a purge air inlet, in communication with a source of purge air, positioned about each of the fuel lines upstream of the comb
1. A liquid fuel system for use with a flow of a liquid fuel and a combustor of a gas turbine engine, comprising: a plurality of fuel lines in communication with the combustor;a purge air inlet, in communication with a source of purge air, positioned about each of the fuel lines upstream of the combustor;a check valve positioned on each of the fuel lines upstream of the purge air inlet;a plurality of drain lines, wherein each drain line is in communication with a respective fuel line downstream of the check valve; anda plurality of drain valves, wherein each drain valve is in communication with a respective drain line and configured to allow liquid fuel in the respective fuel lines downstream of the check valve to drain via a flow of purge air through the purge air inlet and opening the drain valves. 2. The liquid fuel system of claim 1, wherein the combustor comprises a primary nozzle intake and a secondary nozzle intake, and wherein the plurality of fuel lines comprises a plurality of primary nozzle fuel lines and a plurality of secondary nozzle fuel lines. 3. The liquid fuel system of claim 1, further comprising a liquid fuel skid positioned apart from the combustor. 4. The liquid fuel system of claim 3, wherein the combustor is positioned within a compartment. 5. The liquid fuel system of claim 3, wherein the liquid fuel skid comprises a pump and a flow divider. 6. The liquid fuel system of claim 1, wherein the plurality of drain lines are in communication with a merged drain line. 7. The liquid fuel system of claim 6, wherein the merged drain line is in communication with a drain tank. 8. The liquid fuel system of claim 7, wherein the drain tank comprises a pressurized drain tank. 9. The liquid fuel system of claim 3, wherein the check valve is positioned on the liquid fuel skid. 10. The liquid fuel system of claim 4, wherein the check valve is positioned outside of the compartment. 11. The liquid fuel system of claim 7, wherein the drain tank is in communication with a liquid fuel container, a liquid fuel skid, or the fuel lines, and wherein the drain tank is configured to return the flow of liquid fuel to the liquid fuel container, the liquid fuel skid, or the fuel lines. 12. A method of protecting a flow of liquid fuel in a fuel line from the heat produced by a combustor of a gas turbine engine when the fuel line is not in use, comprising: positioning a purge air inlet about the fuel line upstream of the combustorpositioning a check valve on the fuel line upstream of the purge air inlet;positioning a drain valve about the fuel line downstream of the check valve and at an elevation that is less than the combustor;forcing a flow of purge air through the purge air inlet and into the fuel line;opening the drain valve; andflowing the liquid fuel through the drain valve. 13. The method of claim 12, further comprising the step of flowing the liquid fuel to a drain tank. 14. The method of claim 13, further comprising the step of positioning the drain tank at a distance from the combustor. 15. The method of claim 13, further comprising the step of pressurizing the drain tank. 16. The method of claim 12, further comprising the step of returning the flow of fuel to the fuel line. 17. The method of claim 12, further comprising the step of opening and closing the drain valve in a repeated sequence. 18. A purge air drain system for use with a flow of a liquid in a liquid line, comprising: a purge air inlet, in communication with a source of purge air, positioned about the liquid line;a check valve positioned on the liquid line upstream of the purge air inlet;a drain line in communication with the liquid line downstream of the check valve; anda drain valve in communication with the drain line and configured to allow so as to drain the flow of liquid in the liquid line downstream of the check valve to drain via a flow of purge air through the purge air inlet and opening the drain valve. 19. The purge air drain system of claim 18, wherein the drain line is in communication with a drain tank. 20. The purge air drain system of claim 19, wherein the drain tank comprises a pressurized drain tank.
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이 특허에 인용된 특허 (1)
Kunkle, Kevin Lee; Backman, Steven William; Smith, David William, Methods and apparatus for a combustion turbine nitrogen purge system.
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