SU1618897A1 - Steam-gas plant - Google Patents

Abstract

The invention improves efficiency. The fuel gas is heated in the gas heater 17 by the heat of the gases from the duct 3 of the boiler 1 and expands in the flow-gas turbine 15. Then the fuel gas is reheated in the gas heater 18 and is fed to the boiler furnace 2. The steam from the latter is sent to a steam turbine (not shown). The exhaust steam is condensed, and the condensate is heated in a water heater 4-6 and in regenerative heaters 8, 9. The exhaust gases of the gas turbine 12 are fed into the boiler furnace and in the tail gas duct 3. Gases for heating the fuel gas are taken from the gas duct 3 to low temperature water. reheaters 5.6. 1 il.

Description

The invention relates to energy and can be used in combined cycle plants.

The aim of the invention is to increase efficiency.

The drawing schematically shows a combined cycle plant.

The combined-cycle plant contains a steam boiler 1 having a furnace 2 and a tail gas duct 3 with a high-temperature water heater * 4 and low-temperature water heaters 5 and 6 located in it along the gases, a steam turbine connected to the boiler with a condenser (not shown) and a feed water path 7, in which regenerative heaters of low 8 and high 9 pressure are placed along the feed water, respectively connected in parallel with water heaters 5 and 6, and a high-temperature water heater 4. The installation contains g a nitrogen turbine installation with a compressor 10, a combustion chamber 11 and a gas turbine 12, the exhaust pipe 13 of which is connected to the furnace 2 and the tail gas duct 3 in front of the high-temperature water heater 4. The installation contains a high pressure gas pipeline 14 connected to the combustion chamber 11 and through a gas-gas turbine 15 and a low pressure gas pipeline 16 to the furnace 2 of boiler 1. The installation also contains 1 / azo heaters 17 and 18 with an inlet 19 and an outlet 20 of heating medium connected respectively through pipelines 21 and 22 to the tail gas duct 3 to after low-temperature water heaters 5 and 6. The gas heaters 17 and 18 are arranged respectively in pipelines high 14 and low 16 pressure.

Combined-cycle plant operates as follows.

High-pressure fuel gas flows through a gas pipeline to a gas heater 17, where it is heated by the heat of gases from the tail gas duct 3 of the boiler, and is partially directed to the combustion chamber 11 of the gas turbine unit and partially to the gas-flow turbine 15. In the latter, the gas expands to complete low-pressure operation. Cooled as a result of expansion, the fuel gas is heated in the gas heaters 18 by the heat of gases from the tail gas duct 3 of the boiler and through the low pressure gas line 16 is directed to combustion in the furnace 2 of the boiler. Due to the combustion of gas in 'boiler 1, steam is generated which expands in a steam turbine (not shown). The spent steam condenses, and the condensate is directed along the feed water path 7 and is sequentially heated in a parallel connected low-temperature water heater 6 and a regenerative low-pressure heater 8, in parallel connected a water heater 5 and a high-pressure heater 9 and in a high-temperature water heater 4.

The compressor 10 of the gas turbine unit compresses the air that enters the combustion of fuel gas in the combustion chamber 11. The combustion products expand in the gas turbine 12 and through the exhaust pipe 13 enter the furnace 2 of the boiler and the tail gas duct 3, passing through which, heat is transferred to the heating surfaces of the water heaters 4-6. Behind the water heater 4, gases from the gas duct 3 are discharged through the pipe 21 and the inlets 19 to the gas heaters 17 and 18. The cooled gases are fed back to the gas duct 3 through the outlets 20 and the pipe 22.

EFFECT: invention improves efficiency by heating fuel gas of high and low pressure and expanding it in a flow-gas turbine.

Claims (1)

Claim The combined-cycle gas turbine plant containing a steam boiler with a stack and a tail gas duct, in the latter of which high-temperature and low-temperature water heaters are located along the gases, connected to a steam turbine boiler with a condenser and feedwater path, into which low-and high-pressure regenerative heaters are placed along the feed water flow connected in parallel to low-temperature water heaters, gas turbine installation with a combustion chamber and a gas turbine, the exhaust of which is connected to the furnace and an eastern boiler flue duct in front of a high-temperature water heater, and a high pressure gas pipeline connected to the combustion chamber and through a pressure reducing device, and a low pressure gas pipeline to the boiler furnace, characterized in that the installation is equipped with gas heaters included in gas pipelines to increase efficiency high and low pressures, with the input and output of the heating medium connected to the tail gas duct, respectively, before and after the low-temperature water heaters, and the pressure reducing device is ying a flow-gas turbine.