RU2044223C1 - Method of heat supply - Google Patents

Abstract

FIELD: heat power engineering. SUBSTANCE: steam is supplied from the source to the feed steam line without return of condensate to the steam source. Steam is distributed from the feed steam line to the users inlet steam lines, to individual hot water supply systems and/or water or steam heating plants, with hot water supply plants connected to them. Prepared hot water is picked up by users. Cold water is supplied from urban water-line through the pipe-lines of the users' inlets and drinkable water. Cold water from the urban water-line is preliminarily heated at the users's inlets by heat-transfer agent used in heating plants and/or heated waste water from the hot water supply systems. Cold water is heated to a temperature of above the dew point and fed to the users through the users' distributing pipelines of process-drinkable water. EFFECT: facilitated procedure. 1 dwg

Description

 The invention relates to the field of heat and power utilities and can be used with steam heating systems, including steam heating systems without returning condensate to steam sources.

 A known method of heat supply, including the supply of steam to the supply steam line (including without returning condensate to the steam source), the distribution of steam from the supply steam line to the steam lines of subscriber inlets to individual hot water supply units and / or to water, and / or to steam heating units with attached to the last installations of hot water supply, preparation and analysis of hot water by consumers, supply of cold water from the city water supply through pipelines of subscriber inputs and subscriber distribution drinking water pipelines to consumers.

The disadvantage of the method is low efficiency teplovodoenergosnabzheniya consumers caused by seasonal fluctuations in temperature of cold water supplied from the water consumers (winter: 0.1-1.0 ^C, summer: 17-22 ° ^C). The consequence of seasonal fluctuations in the temperature of cold water is a decrease in the technical and economic indicators of the whole complex of interconnected engineering life support systems: hot and cold water supply, heat supply, gas supply and electricity supply (including sources of energy supply, transport communications and subscriber installations of consumers), environmental degradation and rising costs environmental protection.

 The purpose of the invention is to increase the efficiency of heat and energy supply to consumers by eliminating seasonal fluctuations in the consumed cold water.

 This goal is achieved in that in a heat supply method comprising supplying steam from a source to a supply steam line (including without returning condensate to a steam source), distributing steam from a supply steam line to subscriber inlets to individual hot water supply units and / or to water, and / or to steam heating units with hot water supply units connected to the last, preparation and analysis of hot water by consumers, supply of cold water from the city water supply via pipelines bonentskih inputs and distribution pipelines for the subscriber service water parsing service water consumers, on the subscriber terminal carried out preliminary heating of cold water from the city water supply heat of the heat medium spent in heating plants, and / or the waste heat from the hot water supply facilities. Cold water is heated to a temperature above the dew point temperature and then it is supplied to consumers through subscriber distribution pipelines of household drinking water.

 The drawing shows an example of the use of the heat supply method in a heat supply system with a single pipe supply steam line without returning condensate to the steam source.

 The heat supply system contains a supply steam line 1, steam lines 2, 3 and 4 of subscriber inputs, connected respectively: to installation a, comprising a water heating system with a return 5 main pipeline and a hot water supply system with water extraction fittings 6; to installation b, containing a steam heating system with a subscriber condensate line 7 and a hot water supply system with water fittings 8; to installation in, containing a separate system of hot water supply with valves 9, a jet heater 10 and a drain pipe 11; the supply pipe 12 of the city water supply, the pipelines 13, 14 and 15 of the cold water inlets with heat exchangers 16, 17 and 18 connected to them via a heating medium, respectively, to the return 5 pipeline of the water heating system, to the subscription condensate pipe 7 of the steam heating system and to drain pipe 11 of a separate hot water supply system, subscriber distribution pipelines 19, 20, 21 and 22 of domestic drinking water with control valves 23 and cold water temperature sensors 24, water fittings 25 domestic hot water.

The system operates as follows. Steam from the supply steam line 1 flows through the steam lines 2, 3 and 4 of the subscriber inlets, respectively: to the subscriber unit a containing a water heating system with a return 5 main pipeline and a hot water supply system with water-folding fittings 6; in the subscriber unit b, containing a steam heating system with a subscriber condensate line 7 and a hot water supply system with valves 8; to a subscriber unit in, containing a separate hot water supply system with water fittings 9, a jet heater 10 and a drain pipe 11. From the water fittings 6, 8 and 9, hot water is disassembled by consumers. From the supply pipe 12 of the city water supply, cold water with a temperature t _x is supplied through the pipelines 13, 14 and 15 of the subscriber inlets, respectively, to the heat exchangers 16, 17 and 18, in which it is preheated with the heat of the return 5 of the water heating system pipe, the subscriber condensate pipe 7 and the drain pipe 11 to a temperature t _x '. Cold water flows from heat exchangers to subscriber distribution pipelines 19, 20, 21, and 22 of household drinking water to consumers for water collection (including to water fittings 25 and to a jet heater 10). The cold water temperature in the pipelines 19, 20 and 21 is automatically maintained within t _x ''> t _p (dew point) by control valves 23 at the pulse of the water temperature sensors 24, which eliminates the formation of condensate on the surface of the pipelines.

 The use of the invention allows to exclude seasonal fluctuations in the temperature of cold water, disassembled by consumers, which leads to lower estimated costs and to equalize the seasonal costs of energy in engineering systems. At the same time, the costs of hot water in hot water supply systems, as well as the costs of steam from steam pipelines are reduced by 25-35%, the costs of energy carriers from gas pipelines and electric networks are reduced, which leads to an increase in the throughput of engineering systems. The heat load of cogeneration turbine extraction increases and electricity generation at the CHPPs is reduced, fuel consumption is reduced (on average by 350-500 t / g per 1 GJ / h of the connected heat load of hot water supply) due to the utilization of waste cooling heat and an increase in the degree of centralization of energy supply to consumers. The required heat output of peak, district and local boiler houses is reduced. The costs of metal and other resources in engineering systems are reduced, including energy sources, transport communications, subscriber installations and station cooling systems. Condensation on the surface of cold water pipelines and the need for their thermal insulation are eliminated. Reduced one-time and operating costs for energy supply to consumers. Environmental pollution is reduced, which improves the environmental situation and reduces the cost of protecting the natural environment.

Claims (1)

 METHOD OF HEAT SUPPLY, including steam supply from a source to a supply steam line without returning condensate to a steam source, steam distribution from a supply steam line to subscriber inlet steam pipelines to individual hot water supply units and / or to water or steam heating units with the latest hot water supply units connected, preparation and analysis of hot water by consumers, supply of cold water from the city water supply through subscriber inlet pipelines and subscriber distribution pipes drinking water pipelines, characterized in that at the subscriber inputs, cold water is preheated from the city water supply by the heat of the heat carrier spent in heating systems and / or by the heat of the collection water from the hot water supply plants, while cold water is heated to a temperature above the point temperature dew and then feed it to consumers through subscriber distribution pipelines of household-drinking water.

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