RU2147356C1 - Method of operation of heat supply system - Google Patents

Abstract

FIELD: heat power engineering. SUBSTANCE: heating-system water heated in succession in lower and upper heaters of extraction turbine is fed to consumer; losses of heating-system water are replenished by make-up water which is preliminarily heated and deaerated under vacuum. Heating the make-up water before vacuum deaeration is effected by means of heating-system water taken for this purpose after lower heater of turbine. EFFECT: enhanced reliability and economical efficiency of heat-supply system. 1 dwg

Description

 The invention relates to the field of power engineering and can be used in installations for the preparation of make-up water of heating systems.

There are known methods of operation of a heat supply system, in which heated network water is supplied to heat consumers, network water losses in the heating system are replenished with make-up water, which is heated in the built-in turbine condenser beam before being supplied to the heating system, decarbonized and deaerated (A.S. 1366656 - this analogue is accepted in as a prototype). The use of the prototype allows you to maintain throughout the year the temperature of the water used as a heating agent for a vacuum deaerator, at a level of 90-100 ^o C.

The disadvantage of the prototype and analogues is the reduced reliability of heat supply due to the inability to organize sufficient heating of the make-up water after the built-in condenser beam, which is necessary for chemical water treatment and effective deaeration. The heating of the source water after the built-in condenser beam depends on the seasonal passes of the steam into the condenser and varies between 10-30 ^o C, and for normal operation of the chemical water treatment unit and vacuum deaerator, the heating should be 40-50 ^o C.

 The technical result of the invention is to increase the reliability and efficiency of heat supply by providing technologically necessary heating of make-up water in front of a vacuum deaerator when using a low-grade heat carrier.

 To this end, a method of operation of a heat supply system is proposed, according to which the consumer is supplied with network water, which is heated sequentially in the lower and upper network heaters of a cogeneration turbine, the losses of network water are replenished with make-up water, which is heated and deaerated under vacuum before being supplied to the heating network, characterized in that that the heating of the make-up water before the vacuum deaeration is produced by the network water, which is taken for this purpose after the lower network heater of the turbine.

 Consider a specific example of the implementation of the method.

 The drawing shows a diagram of a heat supply installation explaining the method. The installation consists of the bottom 2 and top 3 network heaters included in the network pipe 1 and the built-in condenser beam 5 of the turbine 6, the water-water heater 7, the chemical water treatment unit 8, the decarbonizer 9 and the vacuum deaerator 10 included in the make-up water pipe 4, for which a heating agent serves network water after the upper network heater 3. The make-up water pipe 4 is connected to the network water pipe 1 to the lower network heater 2.

In accordance with the proposed method, the return network water is heated from 40-70 ^o C to 90-100 ^o C in the lower 2 and upper 3 network heaters. Losses of network water in the heating system are replenished with make-up water, which, after the built-in bundle of the turbine condenser, is heated to 40-50 ^o C with network water, selected after the lower network heater 2 in the water-water heater 7. Then, the make-up water is softened in the chemical water treatment unit, decarbonized in the decarbonizer 9 and deaerated in a vacuum deaerator 10, and then supplied to a network line 1. Since the network water after the temperature of the upper heater power is maintained throughout the year 90-100 ^o C, the temperature of water for LO their network heaters (65-85 ^o C) is sufficient to heat up to 40-50 ^o C source water.

 Thus, the proposed solution improves the reliability and efficiency of heat supply due to the efficient processing of make-up water when using for heating water obtained from steam low-potential lower turbine extraction.

 The novelty and inventive step of the claimed solution is due to the new technology of carrying out the operation of heating the make-up water before vacuum deaeration: the make-up water is heated with network water, which is selected for this purpose after the lower network heater of the turbine.

Claims (1)

 The method of operation of the heat supply system, in which the consumer is supplied with network water, which is heated sequentially in the lower and upper network heaters of the cogeneration turbine, the losses of network water are replenished with make-up water, which is heated and deaerated under vacuum before being supplied to the heating network, characterized in that the heating of make-up water Before vacuum deaeration, they produce network water, which is taken for this purpose after the lower network heater of the turbine.