SU1326843A1 - Heating station - Google Patents

Abstract

The invention relates to a power system and m. B. used for district heating of buildings. The invention reduces heat loss. The heat point contains direct and return pipelines (TP) 1, 2 of the heating network, direct and reverse TP 3, 4 of the heating system, mixer 5. The latter is installed on TP 2 and is connected by a jumper 6 to TP 4. Heat exchange stages (TS) 8 , 9, 10 with heating and heated sides are consistently included last in the direct line 11 of the hot water supply. The first TC 8 is turned on by heating side into the jumper 6, and the heated one is split between the additional TC 10 and the second TS 9. The substation provides heating of water up to the temperature required in the hot water system, at the same time improves the operation of the heating system the warm period of the heating season is due to the connection of the input 13 of the water supply system to the vehicle 10. It is installed on the forward TP 3 after the mixer 5, which contributes to a deeper decrease in the temperature of the water entering the heating system. 1 il. S WITH YO 05:00 WITH

Description

The invention relates to a power system, namely to the centralized heat supply of residential, public and industrial buildings.

The aim of the invention is to reduce heat loss.

The drawing shows a schematic diagram of the heat point.

The heat point contains direct and return pipes 1 and 2 of the heat network, direct and return pipes 3 and 4 of the heating system, a mixer 5 installed on the direct pipe 2 of the heat network and connected by a jumper 6 to the return pipe 4, pump 7 connected to bridge 6, the first, second and additional heat exchange stages 8-10 with heating and heated sides connected in series with the latter in the direct line 11 of the hot water supply. The first heat exchange stage 8 is connected by heating side to jumper 6, and the heated one is split between the additional and second heat exchange stages 9 and 10. The recirculation pipe with pump 12 is connected to the hot water supply line 11 between the first and second heat exchange stages 8 and 9 and the water line input 13 is connected to the direct line 11 of the hot water supply through the additional heat exchange stage 10.

In addition, the heat point contains a flow controller 14, valves and fittings 15-28, a jumper 29 and a temperature controller 30.

Thermal point works as follows.

During the warm period of the heating season, valves 15-20, 23-25, 27 are open and 21, 22, 26 and 28 are closed. Net water from the direct pipeline 1 is flowing through the valves 25 in one flow through the valves 25, temperature controller 30 enters the second heat exchange stage 9 and after the reinforcement 19 is mixed with the second flow passing through the flow regulator 14 and fed to the mixer 5, which can be performed, for example, in the form of an elevator, a three-way valve, etc. To the mixer 5 through the first heat exchange stage 8 through the bridge 6 pump 7 or due to the ejection of the elevator (mixer 5), part of the water is supplied from the return pipe 4 of the heating system. In mixer 5, there is a partial decrease in the temperature of the supply water, which then enters an additional heat exchange stage 10, where the temperature of the supply water further decreases to a value not exceeding the temperature curve for the heating system (), and the water is directed to the heating system through the direct pipeline 3. Cold water 5 conductive water (5 ° C) through the pipeline from the inlet 13 of the water pipe through the valves 24 enters an additional heat exchange stage 10, where it is partially heated by water from direct

0 of the pipeline 3 of the heating system, and then the tap water is heated, having passed the first and second heat exchange stages 8 and 9, is heated to 60-65 ° C and enters the hot water supply system of consumers. Circulating pipe with

5 by pump 12 serves to eliminate the cooling of the heated water during the period of minimum discharging, for example at night. Thus, by connecting the water inlet 13 to the additional heat exchanger stage 10 installed on the direct pipe 3 of the heating system after the mixer 5, a deeper decrease in the temperature of the network water supplied to the heating system due to a significant temperature difference between the cold water is achieved. 13 plumbing and water after the mixer 5.

five

0

During the cold period of the heating season, when the outdoor temperature

Q is equal to minus 25 ° С, the temperature of the mains water in the direct pipeline 1 is 150 ° С, in the return one - 70 ° С, the operation of the substation is carried out similarly to the operation of the substation in the warm period of the heating season. Due to high water temperature

5 in the direct and return pipelines 1 and 2 of the heating network while the temperature of the tap water remains the same (5 ° C), the water temperature decreases to a lesser extent, and the water enters the direct pipeline 3 of the heating system with a temperature corresponding to heating load schedule {95 ° C). Heating of cold tap water to 65 ° is achieved only in the additional and first heat exchange stages 10 and 8, the temperature regulator 30 at this time blocks supply water to the second heat exchange stage 9. In addition, to expand the range of temperature control of water supplied to a heating system, a jumper 29 is provided connecting the input 13 of the water supply system to the direct line 11 of the hot water supply between the first and additional heat exchange stages 8 and 10. In this case, cold water supply, mine punitive

5 heat exchange stage 10, first enters the first heat exchange stage 8 and then to the second heat exchange stage 9.

0

In the summer period, valves 17-20, 23 and 28 are closed. Valves 15, 16, 21, 22, 24-26 are open. The net water from the direct pipeline 1 of the heat network through the valve 25 enters the second heat exchange stage 9 and through the open valve 22, the jumper 6 enters the first heat exchange stage 8, from which it goes through the valve 21 to the return pipe 2 of the heat network.

The heat point provides heating of water to the temperature required in the hot water supply system, at the same time improves the operation of the heating system during the warmest period of the heating season by connecting the water inlet 13 to the additional heat exchange stage 10 installed on the straight pipe 3 of the heating system after the mixer 5, which contributes to a deeper decrease in the temperature of the water entering the heating system, and reduces heat loss for heating the premises.

System

Claims (1)

Claims of the invention Thermal point containing the direct pipeline of the heat network with a mixer installed on it, connected by a jumper with the return pipeline of this network, the first, second and additional heat exchange stages with heating and heated sides are connected in series with the latter to the straight line of the hot water supply connected to the water supply system, with the second and additional heat exchange stages connected my heat pipe network, respectively, before and after the mixer, This is due to the fact that, in order to reduce heat loss, the first heat exchange stage is switched on by the heating side into the mentioned jumper, and the heated one is split between the additional and second heat exchange stages, and the water supply is connected to the direct line of the hot water supply additional heat exchange stage.