RU2078289C1 - Heat station - Google Patents

Abstract

FIELD: heat power engineering. SUBSTANCE: utilizing heat exchanger is mounted in the pipe line of reverse system water of a heating system. The pipe line of reverse hot system water is connected with the pipe line of reverse system water of the heating system upstream of the regulator of the forward system water of the heating system. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to a district heating system for residential, public and industrial buildings.

 Heat points connected to external heat networks are known.

The closest technical solution to the claimed invention is a heat point containing a hot water heat exchanger, direct and return network water pipes of a hot water heat exchanger and heating system, a heat recovery heat exchanger installed on the return network water pipe of the heating system, a direct network water heating system controller and a water-jet pump mixing [1]
The disadvantages of this heating point are the presence of a water-jet mixing pump, which necessitates an increase in the pressure in front of the heating system and the associated increase in energy consumption, and a small depth of utilization of excess heat from the return network water, which leads to a small temperature drop in the direct network water to the heating system and, therefore, reduced heat savings.

 The invention allows to solve the problem of increasing energy savings for heating buildings with minimal energy consumption. This is achieved by the fact that the return network water pipe of the hot water heat exchanger is connected to the return network water pipe of the heating system to the recycling heat exchanger, the inlet pipe of the direct network water of the recovery heat exchanger is connected to the direct network water pipe of the heating system to the flow controller of the direct network water of the heating system, and the outlet pipe after the same regulator through the direct network water regulator of the recovery heat exchanger.

 The drawing shows a diagram of a heat point, which includes a hot water heat exchanger 1, direct and return network water pipes of a hot water heat exchanger 2 and 3, direct and return network water pipes of a heating system 4 and 5, a recovery heat exchanger 6 installed on a return network water pipe of the system 5, direct water regulator of the heating system 7. The return network pipe of the hot water heat exchanger 3 is connected to the return network pipe of the system 5 to the utilization heat exchanger 6. Moreover, the inlet pipe of the direct network water of the utilization heat exchanger 8 is connected to the direct network water pipe of the heating system 4 to the flow controller of the direct network water of the heating system 7, and the outlet pipe 8 'after the same controller 7 through the direct network flow controller water heat recovery heat exchanger 9.

 The heat point works as follows. In the winter season of the heating season, the valve of the flow regulator of the direct network water of the recovery heat exchanger 9 is closed, and the valve of the flow regulator of the direct network water of the heating system 7 is open. Water to the heating system 10 enters with a temperature equal to the temperature in the outdoor heating network. The heating system 10 receives the required amount of heat and the air temperature in the premises of the building corresponds to the norm.

 In the spring-autumn period of the heating season, due to an increase in the level of solar radiation and an increase in the share of internal heat gain, the air temperature in the room deviates from the norm (increases), which is detected by the sensor 11. The valve of the flow controller 7, taking into account the data of the sensor 11, as well as the data of the temperature sensor outdoor air 12 and the temperature sensor direct network water 13 is covered and reduces the flow of water through it. At the same time, the valve of the regulator 9 opens and thus the amount of direct network water through the heat exchanger 6 with a reduced temperature increases, which leads to a decrease in the temperature of the direct network water entering the heating system 10 to the required value. In this case, the water flow in the heating system 10 due to the operation of the flow controller 9 remains constant.

 Due to the supply of return network water from the hot water heat exchanger 1 to the return network water pipe of the heating system 5 before the utilization heat exchanger 6, the temperature drop of the direct network water entering the heating system 10 increases, which increases the range of decrease in heat supply to the heating system 10.

 The use of the invention provides with minimal energy consumption an increase in the depth of heat utilization of the return network water of the heating system, especially in the autumn-spring period of the heating season, and an increase in the efficiency of the heating unit.

Claims (1)

 A heat point comprising a hot water heat exchanger, direct and return network water pipes of a hot water heat exchanger, direct and return network water pipes of a heating system, a recovery heat exchanger installed on a return network water pipe of a heating system, characterized in that it further comprises a regulator of direct network water heat exchanger, while the return network water pipe of the hot water heat exchanger is connected to the return pipe heating system main water to the regulator of the direct network water of the heating system, and its outlet pipe after the same controller through the direct network water controller of the recovery heat exchanger.