RU2015149555A - METHOD FOR WORKING MANEUVERED REGENERATIVE STEAM-GAS HEAT ELECTROCENTRAL AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. The method of operation of the maneuverable regenerative cogeneration combined-cycle heat and power plant, according to which atmospheric air is compressed, fuel is burned in it, the products of combustion are expanded in a gas turbine and useful work is used to generate electricity, the thermal energy of expanded gases is used for regenerative heating of compressed air and network water of the heating system, at the same time, during the non-heating period, all is regeneratively heated, and during the heating period only part of the compressed air, with its reduction at enshenii outside temperature; regenerative heating is stopped when the temperature of the air drops to a predetermined value, characterized in that both in the heating and non-heating periods, the heat of the combustion products is used to generate superheated medium-pressure steam, it is expanded in a counter-pressure heating steam turbine, the useful work of which used to generate electricity, expanded steam is condensed, the heat of condensation of steam is used to heat the heating network water, the condensate is deaerated, with squeezed and used in a waste heat boiler to generate superheated steam; during the heating period, when the temperature of the atmospheric air drops to a predetermined value, between the steps of the evaporator of the recovery boiler, additional fuel is burned, the production of superheated steam is increased, the electric power of the electric generator and the thermal power of the installation, the consumption of additional fuel is increased with increasing heat load of consumers. 2. Installation of a maneuverable regenerative cogeneration combined-cycle combined heat and power plant, including a gas turbine unit with a compressor, a combustion chamber, a gas turbine, a regenerative air heater, an electric generator, a gas-water heater for network water; the compressor output is connected through a combustion chamber to a gas turbine connected by a common shaft through a compressor to an electric generator, the gas turbine output is connected to the inlet of the regenerative air heater, its output is connected to the atmosphere through a gas-water network water heater, characterized in that the compressor output is also connected to the combustion chamber through the regulator and the bypass duct, the outlet of the regenerative air heater is connected to the superheater of the recovery boiler, in which it will evaporate along the gases eh second stage afterburning chamber, the evaporator of the first stage, second stage economiser, the economiser first stage; the superheater is connected by a superheated steam steam conduit to the input of the cogeneration counterpressure steam turbine, the cogeneration of which is paired with the second stage network heater, and the steam turbine output is connected to the first stage network heater connected by the condensate line through the first stage economizer, deaerator and feed water pipe, to the feed water pump, with an economizer of the second stage, the return pipe of the heating network is connected to the pipeline of the direct heating line through the network howling heater of the first stage, network heater of the second stage, as well as through a gas-water heater of network water.