RU2029103C1 - Thermal power plant - Google Patents

Abstract

FIELD: heat and power engineering. SUBSTANCE: plant has turbine 1 with system-water heaters 4,5, source water pining 6 incorporating condenser 7, water-cooled water heater 8, and vacuum deaerator 10. Turbine upper system-water heater 5, water-cooled water heater 8, storage tank 14, and make-up water pump 15 are inserted in pining 11 which is connected to system-water pining 16 between lower system-water heater 4 of turbine and water boiler 17. EFFECT: improved design. 1 dwg

Description

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

 Thermal electric machines are known that include cogeneration turbines with lower and upper network heaters connected to the heating taps, sequentially connected to the network pipeline, a hot water boiler included in the network pipeline along the water flow behind the upper network heater, and a source water pipeline for feeding the heating network, which includes turbine condenser and chemical water treatment, vacuum deaerator connected by a make-up water pipe to a make-up water storage tank, make-up The pump and pipeline network to network bottom heater and the heating agent conduit a conduit network for a network upper heater.

The disadvantage of these stations is the inability to provide disinfection of make-up water for a heating system with open water for hot water supply. Sanitary rules prescribed mandatory atmospheric thermal deaeration of makeup water for systems with open water pumping at a temperature of at least 100 ^C. In the known plants with a vacuum deaerator feed water temperature does not exceed ^{70 °} C, e.g. water temperature used for hot water supply. Currently, this drawback has become a serious obstacle to the use of vacuum deaerators in projects of new and expandable stations. Another disadvantage of these stations is the reduced quality of deaeration of the make-up water due to seasonal fluctuations in the temperature of the source water heated in the turbine condenser and the heating agent — network water from the supply network pipeline.

 The aim of the invention is the provision of thermal disinfection of make-up water for a heating system with an open water intake and improving the quality of deaeration during the economical operation of the station.

 The thermal power plant proposed to achieve this result includes at least one heating turbine with lower and upper network heaters connected to the heating taps, a hot water boiler included in the network pipeline, an initial water pipeline to feed the heating network, which includes a turbine condenser and a vacuum deaerator connected make-up water pipe with storage tank and make-up pump. The station is characterized in that in the pipeline of deaerated make-up water between the vacuum deaerator and the storage tank, the upper turbine network heater and a water-water source water heater are connected in series, connected through the source water into the pipeline between the condenser and the vacuum deaerator, the pipeline of the heating agent of the vacuum deaerator is connected to make-up water pipeline behind the upper network heater; the outlet from the lower network heater is connected by the network pipeline to the hot water servicing, and the make-up pump is connected by a make-up water pipeline to the network pipe between the lower network heater and the boiler.

A new set of features allows for thermal disinfection of make-up water by heating it to 100 ^° C or more, without resorting to atmospheric thermal deaeration prescribed by sanitary rules, which requires bulky and expensive equipment, as well as to ensure high quality of de-aeration of make-up water due to stable temperature maintenance source water and heating agent in front of the vacuum deaerator. It is significant that this result is achieved with the economical operation of the station, using only heating taps of a sufficiently low potential.

 The drawing shows a fragment of a schematic diagram of a thermal power plant.

 The station contains a turbine 1 with bottom 4 and top 5 network heaters connected to heating taps 2 and 3, a source 6 pipe for feeding the heating network, in which a condenser 7 of the turbine 1, a water-water heater 8, a chemical water treatment 9, and a vacuum deaerator 10 are connected in series. In the pipe 11 of the deaerated make-up water, an intermediate tank 12 with a pump 13, an upper network heater 5, a water-water heater 8, a storage tank 14, a make-up pump 15 are sequentially included in the pipeline 16. zhny network preheater 4 and the boiler 17. Make-up pump 15, conduit 11 is connected to the power line network 16 between the lower heater 4 and the boiler 17. A conduit 16 heating agent deaerator 10 is connected to the feed water conduit 11 between the heaters 5 and 8.

The station operates as follows. Heating water circulating over the network line 16, is heated before entering the consumers consistently lower network preheater 4 and the boiler 17. Feed water to fuel heating system is heated to 15-30 ^{° C} in the condenser 7, and then to 35-50 ^{° C} in the preheater 8 , softened in the demineralizer 9 and deaerated in the deaerator 10. The deaerated feed water is heated to 100-105 ^{° C} in the upper heater network 5, being subjected to thermal disinfection, then cooled to ⁷⁰ ° C in the preheater 8 and is stored in the tank 14, tkuda as appropriate pump 15 is supplied to a network line 16. Part of feed water with a temperature of 100-105 ^{° C} is fed through line 18 as a heating agent to the deaerator 10.

 Thus, the proposed solution fully ensures the achievement of the desired technical result in an industrial environment.

Claims (1)

 A HEAT ELECTRIC STATION, comprising at least one cogeneration turbine with lower and upper network heaters connected to its heating taps, a heat network with a lower network heater and a boiler connected in series to its network pipe, and also a heating network recharge system including a heating pipe agent is a vacuum deaerator connected to it through a turbine condenser, a source water pipe and a make-up water pipe with a storage tank and a full-time pump connecting the vacuum deaerator to the heating network, characterized in that it is equipped with a water-water heater installed in the source water pipe between the condenser and the vacuum deaerator and placed through a heating medium in the make-up water pipe between the vacuum deaerator and the storage tank, while the upper network the heater for the heated medium is placed in the make-up water pipeline between the vacuum deaerator and the water-water heater and its outlet for the heated medium connected to the pipeline of the heating agent of the vacuum deaerator, and the make-up water pipeline is connected to the pipeline of the heating network between the bottom network heater and the boiler.