SU1071781A1 - Complex power plant - Google Patents

Description

The invention relates to heat gain and can be used in power plants with deep cooling of flue gases leaving. A complex combined cycle gas turbine unit is installed, containing a compressor, a combustion chamber, a steam generator, a gas turbine, a pressure economizer, a moisture separator, a regenerator, a gas expander and a solid carbon dioxide separator, and a solid carbon dioxide separator I. . In such an installation, there is no possibility of additional heating of the air entering the combustion chamber by the heat of the exhaust gases, as well as the ability to provide a wide range of thermal load maneuverability and carbon dioxide output. A complex power plant is known, comprising a compressor in series with a gas path, a regenerative air preheater, a main combustion chamber, a gas turbine, a pressure economizer, a moisture separator, a regenerative heat exchanger, a turbo-expander and a crystalline carbon dioxide separator. In the plant there are no heat losses with flue gases. A disadvantage of this installation is / is that it is impossible to ensure a large range of maneuverability in terms of heat load and the yield of crystalline carbon dioxide. The aim of the invention is to increase the efficiency of its variable modes when changing the heat load of consumers and increasing the quantitative yield of carbon dioxide. This aim is achieved in that the multifilament eiergoustanovka comprising consecutively installed on the gas path kc lpressor regenerative air preheater snovnuyu combustor, gas turbine, the pressure my economizer separatrr moisture regenerative teploobmemnyk, turboexpander and crystalline carbon dioxide separator, sleep used hay supplement l hydrochloric combustion chamber installed between the gas turbine and the pressure economizer. The drawing shows a diagram of the integrated power plant. The complex power plant comprises a compressor valve, a regressor 1, a regenerative air preheater 2, a main combustion chamber 3, a burner device 4 for supplying fuel to the main one. combustion chamber 3, gas turbine 5, electric generator 6, additional combustion chamber 7, burner 8 for supplying fuel to additional combustion chamber 7, stages 9 and 10 of the pressure exchanger, moisture separator 11, regenerative heat exchanger 12, turbo-expander 13, electric generator 14, crystalline carbon dioxide separator 15, exhaust 16 of the combustion products into the environment, water tank 17, circulation pump 18, heat consumers 19. The complex power plant works as follows. Compressor 1 compresses the air, which, through the regenerative air preheater 2, or its mine (depending on the mode), enters the combustion chamber 3, where the fuel coming through the combustion device 4 is burned. The resulting combustion products are directed to the gas turbine 5 used for compressor drive 1 and electro generator 6. Gas turbine 5 operates with a back pressure of 2.5-3 atm. After the gas turbine 5, the combustion products enter the regenerative air heater 2 and then into the additional combustion chamber 7, into which fuel is fed through the burner 8 to heat the gas-air mixture of the combustion products supplied from the gas turbine 5. Since the gas-air mixture contains a significant amount of oxygen and has pressure, it provides efficient fuel combustion. The combustion products then enter stage 9 and 10 of a pressure economizer, a moisture separator 11, in which orange moisture is separated from the combustion products and into a regenerative heat exchanger 12, where the combustion products are cooled by the reverse flow of the refrigerant. Next, the combustion products enter the turbine expander 13, which expands. to atmospheric pressure, work and turn into coolant. The power of the expander 13 is used to drive the electric generator 14. When expanded in the expander 13, the temperature of the combustion products decreases and they can reach the crystallization text; carbon dioxide, which, as a result of freezing (crystallization), is separated from the Combustion Products in the separator 15 of crystalline carbon dioxide. The used refrigerant (the product of oxygen) flows back through the regs, the waste heat exchanger 12 at the exhaust 16 into the environment. In order to cool the combustion products in a pressure head, the compressor is used in energy 10717814

Yes Y31. water tank 17, which is the minimum values of thermal power

heating in steps x 9 and 10 of the pressure installation and crystalline output.

an economizer, supplied with circulating carbon dioxide with the appropriate pump 18 to the heat consumption range 19. maneuvering the range. Thus, the invention of capacity according to the indicated indicators significantly increase the max.

Claims (1)

COMPLEX ENERGY INSTALLATION, containing in series connected along the gas path a compressor, regenerative air preheater, main combustion chamber, gas (a turbine, a pressure economizer, a moisture separator, a regenerative heat exchanger, a turbo expander and a crystalline carbon dioxide separator, so that in order to increase the efficiency of its variable modes when the heat load of consumers and increasing the quantitative yield of carbon dioxide, it is equipped with an additional combustion chamber installed between the gas turbine and the pressure economizer. one 1071781