RU2002073C1 - Extraction-turbine plant - Google Patents

Description

additional supply water to the feed water deaerator 22, make-up pipelines 23, gas turbine heat pump installation 24 with an evaporator 25 connected to the main turbine condenser cooling beam, and a condenser 26 installed in the condensate conduit to the feed water deaerator, additional heat pump installation 27 and a heat exchanger 28 installed in the condensate line between the turbine condenser and the regenerative low-pressure heater and connected through the heated medium to the household-drinking water supply to to it, the chemical water treatment system, while the evaporator 29 of the additional heat pump installation 27 is located in the domestic water supply system after the chemical water treatment system is connected to it, and its condenser 30 is located in the reverse heat conduit behind the integrated turbine condenser cooling beam, the shut-off rebar 31-32.

The heat-generating steam-powered plant operates with the heat pump units 24 and 27 switched on in heating and condensation modes.

During the heating operation mode, the shutoff valves 31-32 are closed. In this case, the network water from the return heat pipe 6 is heated sequentially in the built-in bundle 4 of the condenser 3 of the turbine 2, the condenser 30 of the heat pump installation 27, in the main 11 and peak 12 heaters, and is supplied through the supply heat pipe 7 to heat consumers to heat supply areas. In order to obtain peak electric power in the heating operation mode of the installation, heating of the network water is carried out in the water heater 13. In this case, the network water from the built-in bundle 4 is sent to the condenser 30 of the heat pump installation 27, and then to the heater 13, bypassing the network heaters 11 and 12. Heating is carried out in the condenser 30 of the heat pump installation 27, and then the heat of the condenser 26 of the gas turbine heat pump installation 24 in the heater 13. At this time, through the evaporator 26 of the heat pump installation 24, cooling water circulates from the battery 17 to the battery 18.

The water accumulated in the battery 18 is used to cool the main beam 5 of the condenser 3 of the turbine 2 during its operation in condensation mode. In this case, cooling water from the accumulator 18, passing through the beam 5, is discharged into the accumulator 17. In the condensation mode

turbine operation integrated beam 4 is disabled. Cold water from the domestic drinking water supply 16 is heated in the heat exchanger 28 to a temperature of 30-35 ° by the heat of the condensate line 15 at the outlet of the turbine condenser, and then part of it is supplied to the chemical water treatment system 21, from where to the deaerator 22 and through the make-up pipe 23 to the heat pipe 6 The rest of the water is supplied to the evaporator 29 of the heat pump installation 27, it is cooled to the temperature required by consumers (above the dew point temperature on the surface of the cold water distribution pipelines, which eliminates condensation cutting), and through pipelines 33 it is supplied to the regions where consumers are supplied with energy. In this case, the heat of cooling cold water from the evaporator 29 is transferred through the condenser 30 of the heat pump unit 27 to the return heat pipe 6 both during the heating and condensation modes of operation of the unit, due to which the waste heat of cooling of the turbine condenser is utilized and the fraction of heat unloading from the heating turbine is increased. The utilized waste heat of cooling water is useful for heating network water at the outlet of the turbine’s condenser tube and for heating household water, accumulating in the water the waste heat of cooling and use this heat by consumers connected to energy supply systems - heat supply, power supply gas supply and water supply.

Using the invention allows to increase the share of heat load from a cogeneration turbine, reduce the design surface of a heat treatment plant and cooling condensers, reduce the consumption of metal and other resources in heat supply, gas supply, electricity and water supply systems (including utility), eliminate seasonal fluctuations in the temperature of cold water consumed and associated over-expenditures (by 25-35%) of heat, fuel, heat carrier, hot water, electricity and gas by consumers, as well as reduce capital and operating costs for energy supply, eliminate condensate on the surface of cold water pipelines, reduce peak power of boiler plants, increase the throughput of heat supply, gas supply, electricity and water supply systems based on an increase in the degree of centralization

energy supply of consumers from CHPPs, to improve the ecological situation and to reduce heating generation, to reduce the costs of protecting the environment, electricity at CHPPs, to reduce environmental pollution by heat waste (56) Federal Republic of Germany patent No. 2612058, dams and other combustion products 5 cl. F 01 K 17 / 02.1978. fuel (including in areas of heat supply, USSR author's certificate from local and group boiler houses, No. 1451290, class F 01 K 17/02, 1989.

Claims (1)

Claims Q heat pump installation with evaporator, t-. connected to the main beam, cooling, heating of a steam power plant, condenser day, and a condenser, a wire containing a steam generator, thermal and kvs-tanovannym in the condensate line to a steam turbine with feed water, characterized by a condenser made with a built-in heat exchanger and main cooling beams, which are coated from heat and water supply, heat supply; Unions of the turbine, through a re-system of preparation of feed water Ј condensation of steam with regenerative heaters of low and high pressure and a deaerator, op. SIL080go circuit Install ™ contains the main and peak heaters of the network- 20 Additional heat pump installation, - and a heat exchanger installed in tap water, a water conduit and a heat exchanger, a condensate conduit between the turbine installed on the bypass of peak J by a regenerative heater, including heated in the condenser pipe connected between the condenser ° u u turbo condenser and the deaerator of the feed medium in household drinking water. household-drinking supplementary water supply before connecting to it another water supply accumulating tanks for chemical water treatment. wherein the evaporator is “j-“ MI; h ft. additional heat pump installation of the outlet and inlet pipelines and in the water and water-cooled water cooling beam of the condenser on ddMC1MC ° lily. hoses and turbines, chemical purification system, sub-3 ° wire behind the Uchennaya system connected to it with its entrance to the pipeline ™ water purification, and its condenser is a supply and drinking water supply, and the water in the return “line behind the built-in outlet - to the make-up water deaerator, we are the BEAM for cooling the condenser and make-up pipelines, gas turbine 35