RU2009118720A - MULTI-MODE HEATING INSTALLATION - Google Patents

Abstract

 A multi-mode heating installation comprising a gas turbine installation consisting of a compressor, a combustion chamber and a gas turbine, a waste heat boiler equipped with a fuel afterburner, at least one steam turbine installation including a steam generator, a steam turbine with low and high pressure feed water heaters, condenser, condensate pump, deaerator, feed pump; the gas turbine is connected through the exhaust gases through the fuel afterburner and the recovery boiler to the atmosphere, through the pump the water input of the recovery boiler is connected via pipelines equipped with shut-off and control valves, to the condensate pump of the steam turbine unit and to the outlet of the water-to-water heaters of network water heating system, and its output is connected by pipelines with shutoff valves with the input of the steam generator of the steam turbine installation and with the input of the water-to-water heaters of the heating network water, characterized in that an additional medium-pressure coolant pump has been used, the first and second heating surfaces are sequentially installed in the hot water recovery boiler along the gases, the de-aerator of the steam turbine installation is connected through the feed pump and the first heating surface to a steam generator equipped with shut-off and control valves; the pressure pipe of the medium-pressure coolant pump is connected by pipelines equipped with shut-off valves through the second and first heating surfaces of the recovery boiler, and the heating surface of the network water heater of the heating network with a suction pipe�

Claims (1)

A multi-mode heating installation comprising a gas turbine installation consisting of a compressor, a combustion chamber and a gas turbine, a waste heat boiler equipped with a fuel afterburner, at least one steam turbine installation including a steam generator, a steam turbine with low and high pressure feed water heaters, condenser, condensate pump, deaerator, feed pump; the gas turbine is connected through the exhaust gases through the fuel afterburner and the recovery boiler to the atmosphere, through the pump the water input of the recovery boiler is connected via pipelines equipped with shut-off and control valves, to the condensate pump of the steam turbine unit and to the outlet of the water-to-water heaters of network water heating system, and its output is connected by pipelines with shutoff valves with the input of the steam generator of the steam turbine installation and with the input of the water-to-water heaters of the heating network water, characterized in that an additional medium-pressure coolant pump has been used, the first and second heating surfaces are sequentially installed in the hot water recovery boiler along the gases, the de-aerator of the steam turbine installation is connected through the feed pump and the first heating surface to a steam generator equipped with shut-off and control valves; the pressure pipe of the medium-pressure coolant pump is connected by pipelines equipped with shut-off valves through the second and first heating surfaces of the recovery boiler, and the heating surface of the mains water heater of the heating network with the suction pipe of the medium-pressure coolant pump, which is also connected to the shut-off and control valves with steam turbine deaerator; the second heating surface of the waste heat boiler is also connected by condensate pipelines to the inlet and outlet of the low pressure feed water heaters of the steam turbine unit.