초록 ▼

A steam turbine plant partially utilizes a hydrocarbon fuel such as an LNG as a fuel to improve the efficiency of the plant. A steam turbine plant includes a boiler, a steam turbine, a feedwater system, and a superheating combustor. The boiler generates steam, and the steam turbine is driven by the

A steam turbine plant partially utilizes a hydrocarbon fuel such as an LNG as a fuel to improve the efficiency of the plant. A steam turbine plant includes a boiler, a steam turbine, a feedwater system, and a superheating combustor. The boiler generates steam, and the steam turbine is driven by the steam generated in the boiler. The feedwater system recovers the steam exhausted from the steam turbine and supplies the steam to the boiler as a feedwater. The superheating combustor is provided between the boiler and the steam turbine, wherein fuel originated from hydrocarbon fuel and oxidizer are mixed with the steam generated in the boiler and combusted in the superheating combustor to increase the temperature of the steam.

대표청구항 ▼

What is claimed is: 1. A steam turbine plant, comprising: a boiler that generates steam, wherein the boiler utilizes coal to generate the steam; a steam turbine driven by the steam generated in the boiler; a feedwater system that recovers the steam exhausted from the steam turbine and supplies the

What is claimed is: 1. A steam turbine plant, comprising: a boiler that generates steam, wherein the boiler utilizes coal to generate the steam; a steam turbine driven by the steam generated in the boiler; a feedwater system that recovers the steam exhausted from the steam turbine and supplies the steam to the boiler as feedwater; a superheating combustor provided between the boiler and the steam turbine, wherein fuel originated from a hydrocarbon fuel and an oxidizer are mixed with the steam generated in the boiler and combusted in the superheating combustor to increase the temperature of the steam; and a fuel controller which controls a quantity of heat of the hydrocarbon fuel up to about 40 percent of a total heat quantity of the fuel and the coal utilized in the plant. 2. A steam turbine plant according to claim 1, wherein the oxidizer is oxygen. 3. A steam turbine plant according to claim 2, further comprising: an air separator that extracts the oxygen from air. 4. A steam turbine plant according to claim 1, further comprising: a fuel reforming means for making hydrogen rich gas from the hydrocarbon fuel. 5. A steam turbine plant according to claim 1, further comprising: a steam reformer, which makes the hydrocarbon fuel for the superheating combustor, the steam reformer provided in the boiler; and a carbon dioxide separator provided between the steam reformer and the superheating combustor. 6. A steam turbine plant according to claim 5, further comprising: a reforming steam supply line connecting between the feedwater system and the steam reformer. 7. A steam turbine plant, comprising: a boiler that generates steam; a steam turbine driven by the steam generated in the boiler; a feedwater system that recovers the steam exhausted from the steam turbine and supplies the steam to the boiler as feedwater, wherein the feedwater system includes a steam condenser connected to the steam turbine; a superheating combustor provided between the boiler and the steam turbine, wherein fuel originated from a hydrocarbon fuel and an oxidizer are mixed with the steam generated in the boiler and combusted in the superheating combustor to increase the temperature of the steam; and a compressor coupled with the steam condenser which separates noncondensing gas from the steam condenser. 8. A steam turbine plant according to claim 1, further comprising: a steam valve which adjusts an amount of the steam supplied to the superheating combustor. 9. A steam turbine plant according to claim 8, further comprising: a fuel valve which adjusts an amount of the fuel supplied to the superheating combustor; a oxidizer valve which adjusts an amount of the oxidizer supplied to the superheating combustor; and a flow controller coupled with the steam valve, the fuel valve and the oxidizer valve. 10. A steam turbine plant according to claim 1, further comprising: a cooling steam supplying line connecting between the boiler and the steam turbine, which bleeds steam from the boiler as cooling steam and supplies the cooling steam to the steam turbine. 11. A steam turbine plant according to claim 1, wherein; the boiler includes a steam generator and a reheater, the steam turbine includes a high pressure turbine, an intermediate pressure turbine and a low pressure turbine, and the superheating combustor is provided between the reheater and the intermediate pressure turbine. 12. A steam turbine plant according to claim 11, further comprising: a fuel reforming device for making hydrogen rich gas from the the hydrocarbon fuel. 13. A steam turbine plant according to claim 11, further comprising: a steam reformer, which makes the hydrocarbon fuel for the superheating combustor, the steam reformer provided in the boiler; and a carbon dioxide separator provided between the steam reformer and the superheating combustor. 14. A steam turbine plant according to claim 13, further comprising: a reforming steam supply line connecting between the feedwater system and the steam reformer. 15. A steam turbine plant according to claim 11, further comprising: a cooling steam supplying line connecting between the boiler and the intermediate pressure turbine of the steam turbine, which bleeds steam from the boiler as a cooling steam and supplies the cooling steam to the intermediate pressure turbine of the steam turbine. 16. A steam turbine plant according to claim 11, further comprising: a cooling steam supplying line connecting between the high pressure turbine and the intermediate pressure turbine of the steam turbine, which bleeds steam from the high pressure turbine as cooling steam and supplies the cooling steam to the intermediate pressure turbine of the steam turbine. 17. A steam turbine plant according to claim 1, wherein; the boiler includes a steam generator and a reheater, the steam turbine includes a high pressure turbine, an intermediate pressure turbine and a low pressure turbine, the superheating combustor includes a first superheating combustor provided between the steam generator and the high pressure turbine and a second superheating combustor provided between the reheater and the intermediate pressure turbine. 18. A steam turbine plant according to claim 17, further comprising: a fuel reforming device for making hydrogen rich gas from the hydrocarbon fuel. 19. A steam turbine plant according to claim 17, further comprising: a steam reformer, which makes the hydrocarbon fuel for the superheating combustor, the steam reformer provided in the boiler; and a carbon dioxide separator provided between the steam reformer and the superheating combustor. 20. A steam turbine plant according to claim 19, further comprising: a reforming steam supply line connecting between the feedwater system and the steam reformer. 21. A steam turbine plant according to claim 17, further comprising: a cooling steam supplying line connecting between the boiler and at least one of the high pressure turbine or the intermediate pressure turbine of the steam turbine, which bleeds steam from the boiler as cooling steam and supplies the cooling steam to said at least one of the high pressure turbine or the intermediate pressure turbine of the steam turbine. 22. In a steam turbine plant having a boiler that generates steam, a steam turbine driven by the steam generated in the boiler which utilizes coal, a feedwater system that recovers the steam exhausted from the steam turbine and supplies the steam to the boiler as a feedwater; a method for operating said steam turbine plant comprising: feeding said steam from said boiler to a superheating combustor; feeding a hydrocarbon fuel and an oxidizer to said superheating combustor; controlling a quantity of heat of the hydrocarbon fuel up to about 40 percent of a total heat quantity of the fuel and the coal utilized in the plant; combusting said hydrocarbon fuel and said oxidizer in said superheating combustor with said steam from said boiler to produce super high temperature steam; and, feeding said super high temperature steam to said steam turbine. 23. In a steam turbine plant having a boiler that generates steam, a steam turbine driven by the steam generated in the boiler, a feedwater system that recovers the steam exhausted from the steam turbine and supplies the steam to the boiler as a feedwater; a method for operating said steam turbine plant comprising: feeding said steam from said boiler to a superheating combustor; feeding a hydrocarbon fuel and an oxidizer to said superheating combustor; combusting said hydrocarbon fuel and said oxidizer in said superheating combustor with said steam from said boiler to produce super high temperature steam; feeding said super high temperature steam to said steam turbine; recovering the steam exhausted from the steam turbine in a steam condenser; and compressing noncondensing gas which is separated from the steam condenser.