SU1263976A1 - Cascade-operating thermocompressor unit - Google Patents

Abstract

1. TESHUNSOS CASCADE INSTALLATION, containing the lower cascade and heating circuit, respectively connected via a condenser and heater with an upper cascade, including also a compressor and a choke, characterized in that, in order to reduce power consumption and to expand the functionality of the upper stage, the salary water, the upper stage additionally contains a three-way two-position valve between the heater and the condenser, and between the throttle and compressor a barometric boiling chamber with a line brine drain, equipped with a pump connected at the outlet to the upper cascade between said tap and condenser, wherein the salt water supply line is additionally connected to the upper cascade before the throttle, and through the three-way two-way valve the distillate is additionally connected an upper stage with the possibility of parallel connection of a heat consumer with a heater or a condenser. i 2. Installation according to claim 1, ex (L C is that it additionally contains two regenerative heat exchangers installed in the salt water supply line, one of which is connected to the brine discharge line and the other to the distillate discharge line).

Description

The invention relates to refrigeration engineering, in particular to heat pump installations for heating and conditioning buildings. The purpose of the invention is to reduce energy consumption and expand functionality when operating the upper cascade in salt water. The drawing shows a schematic diagram of the proposed heat pump cascade installation. The heat pump cascade installation contains a lower cascade with an evaporator 1, a compressor 2, a condenser 3 and a choke 4. Through the evaporator 1 there passes the line 5 supplying water from a low-potential heat source. The capacitor 3 of the lower stage is a condenser heater located between the stages. The upper stage includes a water vapor compressor 6, a heater 7, which functions as a water vapor condenser for this cascade, and a barometric boiling chamber 8, the input of which is connected to the heater outlet 10 via the throttle 9. The steam output chamber 8 is connected to the inlet the compressor 6, the output of which is connected to the inlet of the heater 7. To the outlet of the heater 7 is connected a three-way two-way crane 11 to which the distillate discharge line 12 connected through the regenerative heat exchanger 13 is connected. The liquid outlet of the chambers 8 through Pump 14 is connected to the upper cascade circuit after the crane 11 and to the brine discharge line 15 having the valve 16. At the same time, line 15 passes through regenerative heat 0 exchanger 17. The top 18 of the upper stage of the salt water (source water) is connected to the top circuit of the upper cascade having a valve 19 and passing through regenerative heat exchangers 17 and 13. The heating circuit is connected to the upper stage through the heater 7 and connected to said cascade directly through three-way valves 20-23 with the possibility of parallel switching of heat consumers a heating system .24 and a hot water supply system 25 with a heater 7 or a condenser 3. For this purpose, the taps 20-23 are equipped with a synchronous switching device. 76 As a source of low-grade heat, seawater, well water, or coolant from a building conditioning system can be used. Freon is used as the working substance of the lower cascade, and water is used in the upper cascade. The heating circuit between its heat consumers further comprises a valve 26. The heat pump cascade installation works as follows. In winter, when heating loads are maximal, both stages of the installation operate for heating needs. For this, water from the low-grade heat source through line 5 goes to the evaporator 1 of the lower cascade. The working substance in the evaporator 1 of the heater, evaporates and enters the compressor 2, where it is compressed, increasing its potential, and then condenses in the condenser 3, after which through the inductor 4 it enters the evaporator again. In winter, valves 16, 19 are closed. The taps 11, 20-23 are installed. In position 3. The water circulating in the upper cascade draws heat from the condenser 3 at high pressure, heats up and enters the throttle 9, where the pressure J decreases, after which the water enters the chamber 8. The compressor 6 creates In the chamber 8, a vacuum, as a result of which the water boils and its vapor, compressed in the compressor 6, enters the heater 7, where they, after giving off heat to the heating circuit, are condensed. Non-steaming in the chamber 8 water is pumped into the circuit of the upper cascade, in which it mixes with the condenser from the heater 7. The resulting mixture enters the heater 10 of the condenser 3. The water circulating in the heating circuit takes the high-grade heat from the heater 7 and is supplied to the consumer heat, while the valve 26 is open and hot water enters both the heating system 24 and the hot water supply system 25. During transient heating periods, the load decreases due to an increase in the outside air temperature. In this connection, it is necessary to regulate the heat output generated for heating. It's possible

Claims (2)

1. HEAT PUMP CASCADE INSTALLATION, comprising a lower cascade and a heating circuit, respectively connected through a condenser and heater to the upper cascade, which also includes a compressor and a choke, characterized in that, in order to reduce energy consumption and expand the functionality during the operation of the upper cascade in salt water, the upper cascade additionally contains a three-way on / off valve between the heater and the condenser, and a barometric boiling chamber with a drain line between the throttle and compressor an assembly equipped with a pump connected at the outlet to the upper cascade between the faucet and the condenser, while the salt water supply line is additionally connected to the upper cascade in front of the throttle, and the distillate drain line is connected through the three-way on-off valve, the heating circuit is additionally connected to the upper cascade with the possibility of parallel switching of the heat consumer with a heater or condenser. 2. Installation pop. 1, characterized in that it further comprises two regenerative heat exchangers sequentially installed in the salt water supply line, one of which is included in the brine drain line, and the other in the distillate drain line. SU ,,, 1263976> ί 1263976 ϊ