SU454360A1 - Steam and gas installation - Google Patents

Description

one

The invention relates to energy and can be used to create narogaz power plants.

Known steam-gas installation containing the compressor, connected with him high-pressure steam generator and a combustion chamber connected to a gas turbine.

However, in these plants high heat loads are created in the heating surfaces of the steam generator.

In the proposed installation, the lines connecting the compressor with the steam generator and the combustion chamber with the turbine are connected by a pipeline.

Such an implementation of the installation allows reducing heat loads in the furnace and thereby increasing its reliability while ensuring high efficiency of the installation.

In the drawing, the image of the thermal scheme of the combined-cycle plant.

It consists of a gas turbine unit, including an air compressor 1, control valves 2 and 3, a combustion chamber 4, gas and air lines 5, 6 and 7, a gas turbine 8 and an electric generator 9. The installation also contains a high-pressure steam generator 10 including a screening current heating surfaces, primary and intermediate steam heaters with remote heating surfaces 11 and 12, steam turbine 13, 14 with electric generator 15, condenser 16, feed water heaters 17, 18 and deaerator 19, as well as

economizer 20 and gas heaters 21 and 22.

Works steam and gas installation as follows. The air after compressor 1 is separated

control valve 2 for two flows. One stream is directed to the combustion chamber 4, where the gaseous or liquid fuel is supplied. The gases downstream of the combustion chamber 4 by the control valve 3 are divided into two

flow: one is directed to the gas turbine 8 via gas pipeline 5, and the other via gas pipeline 6 to the furnace of the high-pressure steam generator 10. Gas pipeline 6 through the control valve 2 through air pipeline 7 to reduce the temperature of the gases is supplied with part of the air from compressor 1. After mixing even more cuts in the removed surface of the heating 11 of the steam generator 10. Then the gases enter the high-pressure furnace

the steam generator 10, and in their environment the combustion of gaseous or liquid fuel supplied to the steam generator 10 takes place. The combustion products in the steam generator 10 release their heat to the heating surfaces. Then gases

sent to the gas turbine 8, preliminarily raising its temperature by mixing with gases from the combustion chamber 4, which flow through the regulating valve 3 but the gas pipeline b. After expansion in the gas turbine 8, the gases release their heat in the removed heating surface 12 of the intermediate heating heater, in the economizer 20 and gas heaters 21 and 22, and enter the chimney. Steam from the high-pressure steam generator 10 enters the steam turbine, working on the condensation or heat-generating modes. The exhaust steam is directed to the condenser 16. Feed water is supplied through low pressure regenerative heaters 17 and gas iodine heater 22 to deaerator 19.

From the deaerator, water flows in parallel streams to the regenerative heaters 18 and gas heaters 21, and then to the economizer 20 and the high-pressure steam generator 10.

Subject invention

A steam and gas plant, containing a compressor, a high-pressure steam generator connected to it and a combustion chamber connected to a gas turbine, characterized in that, in order to increase efficiency and reliability, the pipeline connecting the compressor to the steam generator and the combustion chamber to the turbine is connected to a pipeline.