SU1160190A1 - Heat supply system - Google Patents

Abstract

HEAT SUPPLY SYSTEM, containing the direct and return water lines, on the last of which the accumulator is installed, and the tap water line. H connected through the heat exchanger of the first stage, placed in the storage tank, and the heat exchanger of the second stage, installed between the direct and return water lines, to the hot water supply line, as well as the heat pump with a compressor, an evaporator placed in the bakeaccumulator, and a condenser connected to the hot water supply line, characterized in that, in order to increase efficiency, the system additionally contains a closed water circulation loop and a solar heater installed in it exchange surface, which is disposed in the tank-accumulator as an evaporator and the heat exchanger of the first stage. (L g4 g p O5 about with

Description

The invention relates to heat engineering, and more specifically to heat supply systems.

A heat supply system is known that contains direct and return water lines, the last of which has a back-up tank, and a water line connected through a first-stage heat exchanger located in the battery tank, and a second stage heat exchanger installed between the direct and return water lines to the main hot water supply, as well as a heat pump with a compressor, an evaporator located in the storage tank, and a condenser connected to the hot water supply [1].

A disadvantage of the known systems is that they are not economical due to the high consumption of expensive heat.

The purpose of the invention is improving efficiency.

This goal is achieved by the fact that the system of heat supply contains direct and return water lines, the last of which has a storage tank, and a tap water line connected through a heat exchanger of the first stage, located in the storage tank, and a heat exchanger of the second stage, installed between the direct and return water lines to the hot water supply line, as well as a heat pump with a compressor, an evaporator located in the storage tank, and a condenser connected to the hot water supply line, d It additionally contains a closed water circulation circuit and a solar heater installed in it and a heat exchange surface, which is located in the storage tank, like an evaporator and a heat exchanger of the first stage.

The drawing schematically shows the proposed system.

The system contains lines of direct 1 and return 2 water, a storage tank 3, a water supply line 4, heat exchangers of the first 5 and second 6 stages, a hot water supply line 7, a heat pump with a compressor 8, an evaporator 9 and a condenser 10, a closed water circulation circuit 11 and installed therein a solar heater 12, a heat exchange surface 13 and a pump 14. ·

In addition, the system includes valves 15-23, an elevator 24, an additional pump 25, a bypass line 26, a pipe 27 that supplies water to the heating system in the cold season, and a pipe 28 through which water is returned from the heating system.

The system operates as follows. When using only solar heaters 12, that is, without consuming expensive heat from the boiler room, valves 15, 19, 17, 18 „20 and 22 are closed. The pump 14 circulates water through the solar heater 12 and the heat exchange surface 13. The heat pump evaporator 9, located with the heat exchange surface 13 in the storage tank 3, removes the heat received in the solar heater 12 and πει 5 transfers it through the agent compressed into the heat condenser 10 by the compressor 8 pump, where there is heating of tap water directed through valve 16 to the hot water supply line 7. In this case, tap water ²⁰ is supplied from line 17 through the valve 21 to the condenser 10, and the water is recycled by the pump 25. In the absence of solar energy and the need for hot water during operation of the heat pump 25, the valves 17 and 20 are closed. In this case, direct water from the boiler room (not shown) enters through pipeline 1 and valve 15 to the heat exchanger 6 of the second stage, and then through valve 18 to the elevator 24 and then through pipeline 27 to the heating system ³⁰ . From the latter, through the pipe 28, water enters the storage tank 3 and through the valve 19 to the return water line 2. While the valve 23 on the bypass line 26 is closed. Tap water from line 4 ₃₅ through the valve 21 enters the condenser 10 and the heat exchanger 6 in the hot water supply line 7. In this case, the evaporator 9 of the heat pump operates due to the heat of the return water.

When working with a heat pump and two ⁴⁰ heat exchangers 5 and 6, the valve 18 closes and the valves 20 and 17 open. This ensures the operation of the heating system and hot water supply with colder tap water 45.

The economic efficiency of the invention is expressed in the saving of expensive heat due to the use of cheap solar 50 energy for hot water supply.

Claims (1)

HEAT SUPPLY SYSTEM, containing direct and return water lines on the last of which a tank is installed, and a tap water line connected through a heat exchanger of the first stage, located in the storage tank, and a heat exchanger of the second stage, installed between the lines of direct and return water, to the hot water main , as well as a heat pump with a compressor, an evaporator located in the tank, and a condenser, sub-connection. connected to the hot water main, characterized in that, in order to increase efficiency, the system additionally contains a closed water circulation circuit and a solar heater and a heat exchange surface installed in it, which is placed in the storage tank as an evaporator and heat exchanger of the first stage. SU, .1160190>