RU2008442C1 - Steam power plant - Google Patents

Abstract

FIELD: steam power plants. SUBSTANCE: power plant installation for reducing acid content and hardness of water is designed for total water discharge to make up heating system and circulating system; it communicates via source water piping with potable water line and via chemically treated water piping, with cooling tower water distributor. Drain circulating conduit between condenser and cooling tower is connected via deaerated water piping to vacuum deaerator. Heat exchanger connected for steam path to lower heat extraction point of turbine communicates with vacuum deaerator pipeline carrying deaerated water. Control element communicating through deaerated water flow regulator with storage tank level sensor in vacuum deaerator is connected to drain circulation conduit. Control element of cooling tower pond level regulator is connected to chemically treated water piping. EFFECT: improved design. 1 dwg

Description

 The invention relates to the field of power engineering and can be used in thermal power plants with open heat supply systems.

 The analogues of the invention are known - thermal power plants containing a cogeneration turbine with a condenser, network heaters, pipelines (Elizarov D.P. Thermal power plants of power plants. M.: Energoizdat, 1982, p. 103), an installation to reduce alkalinity or water hardness (ibid. , p. 66), a cooling tower, a catchment basin of a cooling tower, a circulation pump, gravity and drain pressure pipelines (ibid., p. 238). The analogue described above is adopted as a prototype of the invention.

 The disadvantage of the prototype and analogues is reduced efficiency due to the incomplete use of the heat of the exhaust steam of the turbine in the network water cycle, the possibility of scale formation in the pipe system of the condenser and the additional cost of preparing makeup water for the heating system.

 The aim of the invention is to increase the efficiency of thermal power plants.

 This goal is achieved by the fact that the installation for reducing stiffness or alkalinity is connected to the water distribution device of the cooling tower, and the drain circh conduit is additionally connected to the heat supply system through a vacuum deaerator.

 The drawing shows a diagram of a thermal power plant.

 The station contains at least one cogeneration turbine 1 with a condenser 2, production tapping 3, upper and lower heating taps 4 and 5. The heating agent 6 and the upper heating heater 7 are connected to the production tapping 3 and the upper heating tapping 4, and the lower network heater 7, and heating selection 5 connected lower network heater 8 and heater 9 deaerated water. The condenser 2 of the turbine 1 is connected by a drain circulating duct 10 to a cooling tower 11, and a pipe 12 to a catchment basin 13. Above the connection point of a drain circulating water 10, a cooling tower 11 is connected by a chemically purified water pipe 14 with a water alkalinity or water hardness reduction unit 15 to which a water pipe 16 is connected. drinking quality. After the condenser 2, a drainage water conduit 19 is connected to the drain circulating conduit 10. A heater 9 of the deaerated water and a vacuum deaerator 17 with a storage tank 18 are connected to the pipe 19. The storage tank 18 is connected to the return network water pipe 21 by the makeup water pipe 20. After the heaters 7 and 8 of the network water, a heating medium pipeline 23 with a heater 6 is connected to the direct network water pipe 22.

Thermal power station operates as follows. The return network water entering through the pipeline 21 is heated in the network heaters 7 and 8 of the turbine 1 and then through the direct network water pipe 22 is directed to a heating network (not shown). Part of the network water after the upper network heater 7 is fed via line 23 into heater 6 where it is heated to 90-100 ^{° C} steam production selection 3, and as a heating agent into the vacuum deaerator 17. The exhaust steam of the turbine 1 is cooled in the condenser 2 circulating water that enters the condenser from the catchment basin 13 through the pipe 12. After the condenser 2, part of the water through the drain circulating duct 10 is sent to the cooling tower 11, where it is cooled. Another part of the circulation water through the pipeline 19 is supplied to the heater 9, where it is heated by the bottom heating steam 5, is processed in a vacuum deaerator 17 and discharged into the storage tank 18, from where it enters the return network water pipe 22 as the make-up water for the heating network . The feed of the circulation system is carried out through the pipeline 14 with drinking water from the pipeline 16, which is pre-treated in the installation 15 to reduce the alkalinity or hardness of the water. Chemically purified water is decarbonized in a cooling tower 11 and discharged into a drainage basin 13.

 The significance of the distinguishing features and the inventive step of the proposed thermal power plant are due to a new interconnection of elements, expressed in that the installation for reducing stiffness or alkalinity is connected to the water distribution device of the cooling tower, and the drain circh conduit is additionally connected to the heat supply system via a vacuum deaerator. The new interconnection of elements makes it possible to increase the efficiency of a thermal power plant by making better use of the heat of the exhaust steam of a turbine in a cycle of network water, preventing scale formation in the pipe system of the condenser due to the operation of the condenser on chemically purified circulating water, and reducing capital and operating costs for preparing makeup water from the heating system due to exceptions from the scheme for the preparation of makeup water for decarbonizers with fans (a new interconnection of elements with Antium can be used as a calciner tower). (56) Elizarov D.P. Thermal power plants of power plants. M.: Energoizdat, 1982, p. 66, 103, 238.

Claims (1)

 THERMAL ELECTRIC STATION, containing at least one condenser of a steam turbine and connected to it via a pressure and drain circuits cooling tower with a water distribution device, as well as an open heating system, to the return network pipeline of which a vacuum accumulator tank of a vacuum deaerator is connected, and an installation to reduce rigidity or the alkalinity of the make-up water of the heat supply system, characterized in that, in order to increase efficiency, an installation for reducing stiffness or alkalinity under lyuchena water distribution to the cooling tower apparatus and the drain is connected to a closed circulation systems further heating system through a vacuum deaerator.

Images