SU1000697A2 - Unit for heat and cold supply - Google Patents

Description

The invention relates to refrigeration engineering, and more specifically, to installations for heat and cold supply, in which predominantly geothermal water is used as the thermal potential.

According to the main author. St. W 885746 is a known unit for heat and cold supply, comprising two compressor chillers with its own condensers and evaporators, a relative system with an autonomous peak boiler, a cold water main, a hot water supply system and a refrigerating chamber, and a heat and mass transfer apparatus in which The air path is fitted with a fan, nozzle, sprinkler, drip drop, evaporator of one refrigerating machine and a condenser of another, with the sprinkler being connected to a low-potential water source Ku, and to the condenser of the chiller evaporator is placed in heat and mass transfer apparatus connected heating systems, a plumbing of cold water and hot water supply system, while the other chiller evaporator disposed in the refrigerating chamber 1,

However, it is known that the plant has insufficient heat and cooling capacity when using a source with temperature (- “- 30) - () С.

The purpose of the invention is to increase the heat and cooling capacity.

This goal is achieved by the fact that the installation additionally contains a counter-flow heat exchanger, one branch

10 of which is connected between the evaporator and the compressor of one refrigeration machine, and the other between the condenser and the control valve of the other refrigeration machine.

15

The drawing shows an installation diagram for heat and cold supply.

The installation contains a low-potential water source 1 of heat, a heat and mass transfer apparatus 2, a valve 20 tor 3, a nozzle 4, a sprinkler 5, a drip drop 6, an evaporator 7 of one compression refrigeration machine 8, a condenser 9 of another compression refrigeration machine 10, a condenser 11

25 one compression chiller 8, heating system 12 s

an autonomous peak boiler 13, PLANT 14-18, a system 19 of hot water supply, a refrigeration chamber 20,

30 countercurrent heat exchanger 21, a compressor 22 of a single compression refrigerating machine 8 and a throttle valve 23.

The installation works as follows, ..

Water from heat source 1 through orosital 5 is supplied to nozzle 4 of heat and mass transfer apparatus 2, where it gives off its heat to the air blown by fan 3. Air passing through the drop separator 6 is dried and fed to evaporator 7, where it is cooled and sent to condenser 9, it is heated there and returning to the nozzle 4. The products stored in the refrigerating chamber 20 are cooled by the working fluid i of another compression machine 10. In the condenser 11, the water coming from the return flow heater of the heating system 12, to which to reheat the heating water, with the help of the valves 14, an autonomous peak boiler 13 is connected. In the absence of the heating requirement in the condenser 11, the water of the hot water supply system 19 is connected, connected by means of the valves 15-18. The working fluid of one compression chiller 8 after the evaporator 7 is directed to a counter-current heat exchanger 21, where it is heated by heat transfer from the hotter side of the other compression chiller 10, and fed to a compressor 22.

turn, the working fluid of the other compression chiller 10 after the condenser 9 enters the countercurrent heat exchanger 21, where it is cooled, giving off some heat to the cooler body of one compression machine 8, and is directed to the throttle valve 23,

The economic efficiency of the invention is to increase by 8-10% the heat and cooling capacity of the installation when using a source with temperature (-ZO) - () c by connecting a counter-current heat exchanger.

Claims (1)

1. USSR author's certificate 885746, cl. F 25 B 29/00, 1980.