SU941642A1 - Steam-gas installation - Google Patents

Description

(54) STEAM-GAS INSTALLATION

one

The invention relates to the generation of electricity in thermal power plants and can be used in steam-gas installations of power plants.

A steam and gas installation is known, containing a steam generator, a multi-kilowatt heating steam turbine, a condenser, low and high pressure mains heaters installed in the feedwater path of a deaerator and low and high pressure regenerative heaters, a gas turbine, an air cooler and a gas heater that is connected at the inlet with condensate lines network heaters, and at the outlet - with the feed water path 1.

A disadvantage of the known combined-cycle plant is the low degree of beneficial use of heat from the gas turbine flue gases to preheat the main condensate and feedwater and, as a result, the reduction of the additional electrical power of the steam turbine and the efficiency of the entire plant.

The purpose of the invention is to increase the efficiency of the combined-cycle plant.

The goal is achieved by the fact that the gas-water heater is made multi-section, the air cooler is connected to the feedwater path between the condenser and

5 with a low pressure regenerative heater, and at the outlet to the last, a gas, section of the gas / water heater, the inlet of which is connected to the air cooler. The drawing shows the scheme combined-cycle plant.

The steam and gas plant contains a steam generator 1, a multi-cylinder steam steam turbine 2, a condenser 3, low and high pressure mains heaters 4 and 5, respectively, 5 deaerator 7 in the feed water line 6 and regeneration heaters 8 and 9, low and high pressure, respectively, a gas turbine 10 , air cooler 11, gas preheater 12, connected at the inlet to condensate lines 13 and 14 with network heaters 4 and 5, and at the outlet - with the feedwater line 6.

The gas-fired heater 12 is made of multiple sections and contains sections 15 and 16. The air cooler 11 is connected downstream to the feedwater line 6 between the condenser 3 and the low-pressure regenerative heater 8, and at the outlet 17 to the last section, via gas, section 16 gas preheater 12, the inlet of which is connected to air cooler 11.

First, in gas, section 15 of gas preheater 12 is included in feedwater path 6 parallel to the high pressure regenerative preheater 9.

The air cooler 11 is located between the low pressure compressor 18 and the high pressure compressor 19.

Steam and gas installation works as follows.

When the multi-cylinder heat steam turbine 2 and the gas turbine 10 work together, the condensate of the steam turbine 2 enters the air cooler 11.

A portion of the condensate of the heating steam of the low-pressure preheater 4 is supplied via the condensate conduit 13 to the last, through the gas, section 16 of the gas-water heater 12, and another part of the condensate of the heating steam of the low-pressure heater 4 is fed to the air cooler 11, where it is displaced with the main condensate of the steam turbine 2 is heated by the air discharged from the low-pressure compressor 18 and is supplied via line 17 to the last, by gas, section 16 of the gas / water preheater 12, into which also through the condensate line 14 under a high pressure heating steam condensate preheater 5 network.

The total flow of condensate coming out of the latter, through the gas, section 16 of the gas-water preheater 12 is fed to the deaerator 7, located in the feedwater path 6, enters the first, through the gas, section 15 ha 30B (i, i: i: pgo preheater 12 and further in parohei 11 ago 1.

The proposed steam and gas unit can also work according to a separate scheme, i.e. the possibility of separate operation of the steam turbine 2 and the gas turbine 10.

The combined-cycle gas turbine plant operating according to the proposed scheme will make it possible to obtain additional peak electric power in the joint operation mode of the steam and gas turbines, as well as to increase the efficiency of the plant as a whole.

Claims (1)

1. Hokhshtein D. P. and Verkhivker G. P. The problem of increasing the efficiency of steam-turbine power plants. M. -L., Gosenergoizdat, 1960, p. 175