RU2013138163A - DEVICE AND METHOD FOR ECONOMIC PRODUCTION OF ELECTRIC POWER AND HEAT - Google Patents

Abstract

1. The device for economical production of electricity and heat consists of a boiler room, an air-turbine engine, radiators, characterized in that the outlet from the intake of atmospheric air (3) is connected to the entrance to the air-gas radiator (4), the output of which is connected to the entrance to an air compressor of an air-turbine engine (5), the output of which is connected to the entrance to the air-gas radiator (6), the output of which is connected to the entrance to the air turbine of the air-turbine engine (7), the output of which is connected to the entrance to the blower boiler room (1), exit from the blower is connected to the entrance to the boiler room furnace (9), the gas outlet from which is connected externally to the air-gas radiator (6), the gas outlet from which is connected externally to the gas-water radiator (11), the gas outlet from which is externally connected to the air-gas a radiator (4), the gas outlet from which is connected with the air atmosphere, then the outlet from the water pump (10) is connected to the inlet to the gas-water radiator (11), the outlet of which is connected to consumers of hot water (12), the output of which is connected to the inlet to the water pump (10); an air compressor of an air-turbine engine (7), an air turbine of an air-turbine engine (5), a water pump (10), an electric current generator (13) - all are mounted on one shaft. 2. A method of economical production of electricity and heat, consisting in the fact that the air-turbine engine is in constant operation, provided that the heat entering the air-gas radiator (6) is equal to the heat of the flue gases entering the boiler room blower (1) (QQ = Q); air heat is regenerated after the air turbine (7); heat recovery of flue gases after

Claims (2)

1. The device for economical production of electricity and heat consists of a boiler room, an air-turbine engine, radiators, characterized in that the outlet from the intake of atmospheric air (3) is connected to the entrance to the air-gas radiator (4), the output of which is connected to the entrance to an air compressor of an air-turbine engine (5), the output of which is connected to the entrance to the air-gas radiator (6), the output of which is connected to the entrance to the air turbine of the air-turbine engine (7), the output of which is connected to the entrance to the blower boiler room (1), exit from the blower is connected to the entrance to the boiler room furnace (9), the gas outlet from which is connected externally to the air-gas radiator (6), the gas outlet from which is connected externally to the gas-water radiator (11), the gas outlet from which is externally connected to the air-gas a radiator (4), the gas outlet from which is connected with the air atmosphere, then the outlet from the water pump (10) is connected to the inlet to the gas-water radiator (11), the outlet of which is connected to consumers of hot water (12), the output of which is connected to the inlet to the water pump (10); an air compressor of an air-turbine engine (7), an air turbine of an air-turbine engine (5), a water pump (10), an electric current generator (13) are all mounted on one shaft. 2. A method of economical production of electricity and heat, consisting in the fact that the air-turbine engine is in constant operation, provided that the heat entering the air-gas radiator (6) is equal to the heat of the flue gases entering the boiler room blower (1) (Q ₃ -Q ₂ = Q ₄ ); air heat is regenerated after the air turbine (7); flue gas heat is regenerated after a gas-water radiator (11); this method of economical production of electricity and heat provides minimal heat loss with a coefficient of efficiency η _e = 0.9839.