SU1174688A1 - Power refrigerating plant - Google Patents

Abstract

POWER INSTALLATION of predominantly thermal power plant, containing a power circuit in which a steam boiler, a turbine with an electric generator, a condenser, a condensate pump and a regenerative heater, as well as an absorption refrigeration oil cooler having a generator and a liquid cooler cooled in series, absorber, condenser and a reflux condenser, the generator being connected to the turbine along a heating cavity having a condensate outlet, characterized in that, for the purpose To increase efficiency, water to the liquid cooler, absorber, condenser and dephlegmator cooler line is connected to the power circuit after the condensate pump and before the regenerative heater, and the contour section between the points of the water line connection to it is equipped with an overflow valve, and the condensate outlet The cavity of the generator is connected to the power circuit after the regenerative heater. After the consumer

Description

The invention relates to the power industry, and more specifically to energy refrigeration units, mainly thermal power plants.

The purpose of this invention is to improve the economy.

The drawing shows schematically the proposed installation.

It contains a power circuit 1 in which a steam boiler 2, a turbine 3 with an electric generator 4, a condenser 5, a condensate pump 6 and a regenerative heater 7, as well as an absorption chiller having a generator 8 and connected in series through a water line 9 are installed; refrigerant, absorber 11, condenser 12 and dephlegmator 13, heating cavity 14 of generator 8 with condensate outlet pipe 15, relief valve 16, heat exchanger-regenerator 17, selection 18 of turbine 3, deaerator 19 and pumps 20-22.

The installation works as follows.

In the steam boiler 2, high-pressure superheated steam is produced, which, expanded in turbine 3, drives the rotor of the turbine 3 and the electric generator 4, which generates electrical energy, to rotate.

The exhaust steam from turbine 3 is compressed by cooling water in condenser 5, and semi-condensed condensate is sucked in by condensate pump 6 and partly injected through water line 9, on which liquid refrigerant 10, condenser 11, condenser 12 and reflux condenser 13 are successively installed, and the remaining part - through the bypass valve 16 to the regenerative heater 7 and further to the deaerator 19.

From the deaerator 19, the condensate is taken up by the pump 22 and sent back to the steam boiler 2. The generator 8 is heated with steam discharged from the selection 18 of the turbine 3. At the same time, refrigerant vapors circulating through the generator 8 are cleaned from the absorbent vapor in the reflux condenser 13,

0 is condensed in condenser 12, and the resulting liquid is cooled in liquid refrigerant cooler 10 and sent to the cold consumer, where, evaporating at low pressure, produces a refrigerating effect.

The resulting low-pressure vapors after the cold consumer are directed to the absorber 11, in which they are absorbed by the evaporated weak solution coming here through the heat exchanger-regenerator 17 from the generator 8, thus forming a strong solution, which is again sent by the pump 20 through the heat exchanger-regenerator 17 to generator 8.

Condensate water vapor from the heating

5, cavity 14 of generator 8 through pipe 15 is guided by pump 21 to deaerator 19. This completes the operation of power circuit 1 and absorption chiller.

The economic efficiency of the proposed device is reflected in the reduction of fuel consumption in the steam boiler due to the fact that the condensate sent to the steam boiler is preheated in the liquid refrigerant subcooler, absorber, condenser and reflux condenser of the absorption refrigerating machine.

Claims (1)

ENERGY REFRIGERATING INSTALLATION of a predominantly thermal power plant containing a power circuit in which a steam boiler, a turbine with an electric generator, a condenser, a condensate pump and a regenerative heater are installed, as well as an absorption refrigeration machine having a generator and a liquid refrigerant cooler, absorber sequentially connected through a water line, a condenser and a reflux condenser, the generator being connected to the turbine through a heating cavity having a condensate outlet pipe, characterized in that, in order to increase In terms of efficiency, the water line of the liquid refrigerant cooler, absorber, condenser and reflux condenser is connected to the power circuit after the condensate pump and before the regenerative heater, while the section of the circuit between the points of connection to the water line is equipped with a bypass valve, and the condensate outlet pipe from the heating cavity of the generator is connected to the power circuit after the regenerative heater. ® 21 L SU „, .1174688 After the consumer mlad x To the consumer of cold