RU2636885C1 - System of building heat-supply - Google Patents

Abstract

FIELD: heating system.

SUBSTANCE: system that includes the building's power supply system, a building or other building or object cooling system, direct and return pipelines of the heat network, creating together with the local heating system circuits of the building using both high-temperature and low-temperature heat transfer media, the network coolant circulation system, and a water preheating unit for hot water supply system comprising at least one tank storing hot water, network coolant circulation system after the circuits of local heat consumption systems of the building and after the water preheating unit contains a heat pump that is used as the first stage of water heating and as the main unit for heating water to the required temperature in the hot water supply system due to the heat energy of phase transition of circulating through the heat pump working medium, wherein the working medium circulation circuit is configured to use through heat exchanger the residual heat energy of low-temperature heat of return network coolant directly or at the outlet of said circulation system and residual heat energy of heated coolant of return pipeline of building or other building or object cooling system.

EFFECT: increasing the efficiency of system.

3 cl, 2 dwg

Description

Technical field

The invention relates to a power system, and in particular to the field of heat supply to residential, public and industrial buildings and structures having heating units connected to direct and return main pipelines of a centralized circulation system of a heat carrier from a central boiler or heating plant, and having an internal or external centralized cooling system.

State of the art

An analogue of this heat and cold supply system can be considered the centralized heat supply system of a building, RF patent No. 2200906 IPC F24D 3/08, publ. 03/20/2003, including the direct and return pipelines of the heating network, creating a system for circulating the heating medium in conjunction with the circuits of local heating systems of a building connected in series by temperature analysis: circuits using a high-temperature coolant, circuits using a low-temperature coolant, and a circuit for a water pre-heating unit cold water supply systems with its further heating up to the temperature required in the hot water supply system.

The disadvantage of the analogue is the lack of efficiency of the system.

The closest analogue to the proposed heat and cold supply system is the centralized heat and power supply system of the building, Eurasian patent No. 012899, IPC F24D3 / 08, publ. 12/30/2009, including the building’s power supply system, direct and return pipelines of the heating network, creating together with the circuits of the building’s local heat supply systems using both high-temperature and low-temperature heat carriers, a network heat carrier circulation system, and also a water pre-heating unit for the hot system water supply, while the circulation system of the network coolant after the circuits of the local heat supply systems of the building and after the pre-heating water unit contains heat the second pump, which is used as the first stage of heating water and as the main unit for heating water to the required temperature in the hot water supply system due to the thermal energy of the phase transition of the working fluid circulating through the heat pump, while the circulation of the working fluid is configured to be used through a heat exchanger residual heat energy of the low-temperature return network coolant directly or at the exit from the said circulation system.

The disadvantage of the closest analogue is the lack of efficiency of the system.

Disclosure of invention

An increase in the efficiency of the heat and cold supply system can be achieved by a joint decrease in the temperature of the return coolant of the network and the use of heat from the centralized cooling system of the building or structure.

The objective of the invention is to increase the efficiency of using the system of heat and cold supply of the building.

The technical result of the invention is to increase the efficiency of the system.

The technical result is achieved by the fact that the heat and cold supply system of the building with the cold supply system of the building or other building or facility, including the power supply system of the building, the cooling system of the building or other building or facility, the direct and return pipelines of the heat network, creating together with the circuits of the local heat consumption systems of the building using both high-temperature and low-temperature coolants, the system of circulation of the network coolant, as well as the unit for pre-heating water for a hot water supply system containing at least one tank that stores hot water, the circulation system of the network coolant after the local heating systems of the building and after the pre-heating unit contains a heat pump for returning the network coolant, which is used as the first stage of water heating and as the main unit for heating water to the required temperature in the hot water supply system due to the thermal energy of the phase transition of the circulating black h the heat pump of the working fluid, while the circulation circuit of the working fluid of the heat pump of the return network heat carrier is configured to use the residual heat energy of the low-temperature return network heat carrier directly or at the outlet of the said circulation system through the heat exchanger, and the heat pump of the cold return pipe used in as the main unit for heating water to the required temperature in the hot water supply system due to heat Argies of the phase transition of the working fluid refrigeration return pipe circulating through the heat pump, while the circulation circuit of the working fluid of the heat pump of the refrigeration return pipe is made with the possibility to use the residual heat energy of the heated coolant of the refrigeration return pipe of a building or other building or object through a heat exchanger.

The technical result is also achieved by the fact that the capacity that accumulates hot water is thermally insulated.

The technical result is also achieved by the fact that the capacity that accumulates hot water is made in the form of a Dewar vessel.

Brief Description of the Drawings

In FIG. 1 is a diagram of a heat and cold supply system of a building with a cold supply system of a building or another building or facility using the residual thermal energy of a low-temperature return network coolant at the outlet of the circulation system and the residual thermal energy of the heated coolant of the return cold supply pipeline.

In FIG. Figure 2 shows a diagram of the heat and cold supply system of a building with the cold supply system of a building or another building or facility using the residual thermal energy of a low-temperature return network coolant directly from the return main pipeline and the residual heat energy of the heated coolant of the return cold supply pipeline.

The implementation of the invention

The heat and cold supply system of a building with the cooling system of a building or other building or facility includes the power supply system of building 1, the cooling system of a building or other building or facility, direct 2 and return 3 pipelines of the heating network, creating a circulation system of the heating medium together with local circuits connected in series to the temperature analysis heating systems of the building, namely, the circuits of local systems 4, 5 using direct high-temperature coolant, for example, si Thread heating ventilation chambers and high temperature heat radiator; circuits using a low-temperature coolant, namely, the heating system circuit 6, for example, a heating system with heating elements built into the floors 7; the circuit of the water preheating unit 8 of the cold water supply system 9, which is the first stage of water heating for the hot water supply system 10 with a capacity of 11 accumulating hot water, and also the circulation circuit 12 of the working fluid of the heat pump 13 of the return network heat carrier, absorbing residual heat energy through the heat exchanger 14 low-temperature return network coolant, circulation loop 15 of the working fluid of the heat pump 16 of the return pipe of the cold supply, absorbing through heat exchanger 17, the residual heat energy heating coolant return line 18, cooling a building or other building or object.

The heat pump 13 of the return network coolant, together with the power supply system, carries out 1 cyclic phase transitions of the working fluid:

- direct with the release of thermal energy necessary to increase the temperature of the water after the circuit of the pre-heating unit 8, to the temperature required in the hot water supply system 10, on the one hand;

- and the reverse with the release of cold energy discharged through a heat exchanger 14, which absorbs the residual thermal energy of the low-temperature return network coolant.

The heat pump 16 of the refrigeration return pipe carries out, together with the power supply system, 1 cyclic phase transitions of the working fluid:

- direct with the release of thermal energy necessary to increase the temperature of the water after the circuit of the pre-heating unit 8, to the temperature required in the hot water supply system 10, on the one hand;

- and the opposite with the release of cold energy discharged through a heat exchanger 17, absorbing the residual thermal energy of the heated coolant on the other hand.

Hot water storage tank 11 can be thermally insulated.

The capacity 11, accumulating hot water, can be made in the form of a Dewar vessel.

When the heat and cold supply system of the building is working with the cooling system of the building or another building or facility, the network heat carrier transported through the direct pipeline 2 has a temperature of up to 150 ° C and enters through the building's heating point to parallel-connected circuits of local systems 4 and 5, and then in accordance with the principle (technology) of serial connection for temperature analysis of the circuits of the local heating systems of the building, it enters the circuit of heating systems 6 using low temperature a coolant with a temperature of up to 75 ° C, for example, a heating system with heating elements embedded in floors 7. Then, a coolant with a temperature of up to 50-40 ° C enters the unit 8 for pre-heating water to a temperature of 15-25 ° C of a cold water supply system 9 , which is the first stage of water heating for hot water system 10 with a capacity of 11, accumulating hot water. In this case, water preheated to a temperature of 15-25 ° C enters the heat pump 13, where it is heated to the required hot water supply temperature of not less than 50 ° C and not higher than 75 ° C. In this case, the power supply system 1 drives the heat pump 13, which, together with the heat exchanger 14 from the preheating unit 8, delivers the water heated to the required temperature to the hot water supply system 10. The network heat carrier is discharged to the return main pipeline of the heat network 3 from the heat exchanger 14 through the building’s heat point using the residual heat energy of the low-temperature return network heat carrier at the outlet of the circulation system. The network coolant is discharged into the return main pipeline of the heat network 3 from the pre-heating unit of water 8 through the building’s heating point using the residual heat energy of the low-temperature return network coolant directly from the return main pipeline. Water also enters the heat pump 16, where it is heated to the required SNiP temperature of hot water supply not lower than 50 ° C and not higher than 75 ° C. In this case, the power supply system 1 drives the heat pump 16, which, together with the heat exchanger 17 from the pre-heating unit 8, delivers the water heated to the required temperature to the hot water supply system 10.

The manufacture of elements of the heat and cold supply system can be carried out from known components and materials.

The connection of the hydraulic elements of the system can be carried out by known methods as one-piece, for example, welded joints, and detachable, for example, flange. The connection of the electrical elements of the system can be carried out by known methods.

Claims (3)

1. The heat and cold supply system of a building with the cold supply system of a building or other building or facility, including the building’s power supply system, the cooling system of a building or other building or facility, direct and return pipelines of a heating network, which create, together with the circuits of the building’s local heat consumption systems, using both high-temperature and and low-temperature coolants, a network coolant circulation system, as well as a water pre-heating unit for a hot water supply system, soda neighing at least one tank that stores hot water, the circulation system of the network coolant after the local heating systems of the building and after the pre-heating unit contains a heat pump return network coolant, which is used as the first stage of water heating and as the main heating unit water to the required temperature in the hot water supply system due to the thermal energy of the phase transition circulating through the heat pump of the working fluid wherein the circulation circuit of the working fluid of the heat pump of the return network heat carrier is configured to use the residual heat energy of the low-temperature return network heat carrier directly or at the outlet of the said circulation system through the heat exchanger, and the heat pump of the cold return pipe, which is used as the main unit for heating water to the required temperature in the hot water supply system due to the thermal energy of the phase transition of the circulating es heat pump return pipe cooling the working fluid, the working fluid circulation loop heat pump refrigeration return line is configured to use a heat exchanger heating the residual thermal energy of a coolant return piping refrigeration building or other building or object. 2. The heat and cold supply system of a building with the cold supply system of a building or another building or facility according to claim 1, characterized in that the hot water storage tank is insulated. 3. The heat and cold supply system of a building with the cold supply system of a building or other building or facility according to claim 1, characterized in that the hot water storage tank is made in the form of a Dewar vessel.

Images