SU1281832A1 - Method for providing hot water supply load in open heat supply system - Google Patents

Description

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The invention relates to a power system, in particular, to open water heat supply systems, and is intended for use in heat supply systems of cities.

The aim of the invention is to reduce the consumption of mains water.

The drawing shows a schematic diagram of the proposed open heating system.

It contains a make-up water piping pipe 1, connected through an integrated condenser beam of the turbine 2

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System.ma works as follows.

Charge water from the water supply network 1 first enters the condenser 2 of the turbine, where it is heated to 30 ° C, and then goes to the installation 3 of chemical water purification and into the vacuum deaerator 4, in which it is heated to 40 ° C with water from the return main pipeline 7 heating network, the temperature of which is maintained during the whole heating season not lower than 55-60 ° С due to the implementation of heating the return water from heating up to this temperature at the substations of consumers or supplied with the same temperature water from aka-aks devices for the preparation of water, including a cumulator of a torus 8 pump 10 at those hours of the day,

The chemical cleaning station 3, connected by a pipeline to a vacuum deaerator 4, which is connected to a temperature regulator 6 connected to a return pipe 7 by a pipeline 5, when consumers have more than average water consumption. In the storage tank 8, the water from the return pipeline enters during those hours of the day when the analysis of hot water at consumers is less than average. With this water from

The network, which, in turn, is supplied with a vacuum deaerator 4 with a temperature connected to the storage tank 8, equipped with 40 ° C, displaced with water from the return pipe 7, is fed to the network heaters 15 by means of a booster pump 18

a pressure regulator up to 9 and a make-up pump 10 installed on the bypass in relation to each other on

and then by the network pump 19 is supplied in the connection pipe 11. The output -us. hot water boiler 16, after which

The nozzle 12 of the deaerator 4 is connected after the non-return valve 13 to the pipeline 14, supplying water to the series-connected network heaters 15 and to the peak boiler 16, which is directly connected to the required temperature of the heat supply of the water to the heating points of the consumers.

At the heat points of consumers, cut to the supply pipeline main water 30 through the supply pipeline 21

water 17 thermal network. A booster pump 18 is used to supply water to the heaters 15, and a network pump 19 is used to supply water to consumers through the main pipeline 17. The main feed pipe 35 of the mixing line 40 and then enters the pipe 17 through the valve 20 is connected one hundred ku 24 to the heating

devices. From the back of a hundred and twenty-five network heating systems in the same quantity in which she forgiven to elevator 23 to

with the valve 20 and the heating system supply line 22 connected to it, enters the elevator 23 and mixes in it with a part of the water from the return stand 25 of the heating system supplied to it via

supply pipe of 21 heat points, to which supply line 22 of the heating network with connected

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to it through the elevator 23 (or through the LP to the supply pipeline 22 of the heating

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throttle washer, mixing pump or heat exchanger) supply 24 and reverse 25 stoves of the heating system with heating devices 26 and through connecting pipe 27 with installed

network, is fed to the outlet pipe 29 of the heating network.

At the same time, the flow rate of the network water in the supply pipe of the heating station 21 and in the supply pipe 22 of the heating valve of the temperature network regulator 28 and, accordingly, in any section - a drain of the heating network pipe 29. The latter, in turn, is connected via sensor 3 of temperature controller 30 and flow controller 31 with a throttle washer 32 to a supply pipe 33 of a hot water supply system 34 with water-supply taps 35. Hot water supply pipe 33 of a circulating water supply system pipe 36, having a knee-towel 37,

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The scientific research institutes of the outlet pipe 29, regardless of the degree of opening of the temperature regulator valve 28 on the connecting pipeline 27, bypassing the heating system, cannot exceed the estimated heating consumption determined by the calculated temperature differential triggered in the heating system and supported by the flow regulator 31

The specified pressure drop across the throttle is connected through the valve 38 and the outlet 55 washer 32.

pipeline of heat point 39 to the return-From the outlet pipe 29 of the heating network, network water, wash water sensor of temperature controller 30, through the regular trunk pipeline 7 of the heat network.

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System.ma works as follows.

Charge water from the water supply network 1 first enters the condenser 2 of the turbine, where it is heated to 30 ° C, and then goes to the installation 3 of chemical water purification and into the vacuum deaerator 4, in which it is heated to 40 ° C with water from the return main pipeline 7 heating network, the temperature of which is maintained during the whole heating season not lower than 55-60 ° С due to the implementation of heating the return water from heating up to this temperature at the substations of consumers or supplied with the same temperature water from ak-accumulator 8 pump 10 at those hours of the day,

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when water consumption at consumers is more than average. In the storage tank 8, the water from the return pipeline enters during those hours of the day when the analysis of hot water at consumers is less than average. With this water from

and then the line pump 19 is supplied to the peak boiler 16, after which

heated to the required according to the heat supply schedule, the water temperature enters through the supply pipeline 17 of the heating network to the consumers' heat points.

At substations of consumers, network water through a supply pipeline 21

mixing lines 40, and then enters the delivery stand 24 to the heating

with the valve 20 and the heating system supply line 22 connected to it, enters the elevator 23 and mixes in it with a part of the water from the return stand 25 of the heating system supplied to it via

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network, is fed to the outlet pipe 29 of the heating network.

At the same time, the flow of network water in the supply pipe of the heat point 21 and in the supply line 22 is the heater

The scientific research institutes of the outlet pipe 29, regardless of the degree of opening of the temperature regulator valve 28 on the connecting pipeline 27, bypassing the heating system, cannot exceed the estimated heating consumption determined by the calculated temperature differential triggered in the heating system and supported by the flow regulator 31

The flow torus 31 and its throttle washer 32 enters the supply pipe 33 of the system 34 for hot water supply with water taps 35. The excess of supply water, which has not been received in the supply pipe 33 for hot water supply through the circulation pipe 36 with knee-heated processors 37, is discharged through the valve 38 and the outlet pipe of the thermal point 39 to the return main pipeline 7 of the heat network. If the water temperature in the outlet pipe 29 of the heating network is lower than the set temperature, the temperature controller 28 is activated and the network water from the supply pipe 21 of the heat point enters the outlet pipe 29 of the heating network, raising the temperature in it to a predetermined value. The total flow rate 1) entering the supply pipe 33 of the hot water supply system from the heating system through the heating system outlet pipe 29 and the temperature controller 28 is limited by the flow controller 31 and remains constant regardless of the ambient temperature and the heating season period. .

During the cold period of the heating season, when the temperature of the water in the outlet pipe 29 of the heating network is not lower than the temperature required for hot water supply, the temperature regulator 28 is configured for, the flow rate in the supply pipe of the heating network is equal to the calculated heating flow rate, since the valve Reg street Torah 28 temperature closed.

The shortage of water in the hot water supply system during periods of maximum water intake (in all cases) is compensated by its supply from the return pipe 7 of the main heating network, in which water is maintained at 55-60 ° C. The pressure and flow rate required for this in the return pipe 7 is maintained by the network 19 and make-up pumps 10 supplying water to the return pipe 7 from the storage tank 8, the temperature of which is the same as in the return pipe 7 of the heating network.

In order to provide the necessary heat supply in the heating unit 1, 26, without overspending it at any outside air temperature, the operation of the supply main pipeline 7 is carried out according to a schedule with a temperature surcharge that takes into account the reduction of the flow of network water entering the supply pipeline 22 of the heating network.

To ensure that the required amount of heat is supplied to the heating at any outdoor temperature and the centralized shutdown of the heating systems in

The warmest days of the heating season are maintained in accordance with the heating schedule, until the temperature of the water in the outlet pipe 29 of the heating network falls below that adjusted by the controller 28 of the water temperature in the outlet pipe 29 heating network, and when the temperature in this pipeline drops below the temperature set in the supply pipe 17, the water temperature rises with respect to the heating schedule by the temperature difference between course consisting of heating systems when operating on their heating schedule and in a qualitative regulation, and during a temperature above

+ 8 ° C in order to centrally shut off heating systems reduce the temperature in the supply line 17 to the temperature of the temperature controller 28, the valve of which is completely

almost all the flow of the network water flowing through the supply pipe of 21 heat points through the connecting pipe 27, whose hydraulic resistance is much lower than the resistance of the elevator 23, passes.

Installing a flow regulator 31 with a throttle stop 32 at the outlet of the heating network pipe 29 improves the reliability of the heating systems, which in this case will always be filled

water regardless of the pressure

the return pipe 7 of the heat network, since with a decrease in pressure in the return pipe of the heat network the flow through the diaphragm 32 increases and the valve of the flow controller 31 closes, creating a support for the heating system.

In addition, the installation of the flow controller 31 in the heating network outlet pipe 29 allows to reduce the power consumption consumed for the transmission of network water, since during periods of operation of the substation with partial or full opening of the valve 28 of the temperature regulator, , decreases and, accordingly, decreases the pressure on the network pumps 19.

In case of installation of the flow rate controller 31 on the supply line 21, the pressure created by the network pumps would remain unchanged during the whole heating season and its excess at the heat points

unproductively throttled by the flow control valve.

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Claims (1)

METHOD FOR PROVIDING LOAD OF HOT WATER SUPPLY IN OPEN HEAT SUPPLY SYSTEM - NII by heating network water, transporting it to the consumer, supplying water to a subscriber input, mixing hot network water with return water after the heating system, supplying mixed water to the consumer and draining water not used in the hot water supply system to the return line, characterized in that, in order to reduce the consumption of network water, all water after the heating system, heated to the required temperature by mixing hot network water, bypassing the heating system, is supplied through the water system supply and circulation pipe to the return line. Bf qo oo co Bf