SU1204890A2 - Heat pump - Google Patents

Description

The invention relates to refrigeration engineering, in particular to combined devices for the production of heat and cold, intended primarily for use in agriculture in the primary milk processing lines and is an improvement of the pump according to the authors. St. No. 1118836.

The purpose of the invention is to reduce energy consumption.

The drawing is a schematic diagram of a heat pump.

The heat pump contains compressor 1, water precondenser 2 and condenser 3, utilizing heat of condensation and condensation of the refrigerant to heat water, air condenser 4 with fan 5 and two evaporators 6 and 7 connected in parallel through refrigerant refrigerant 6 and 7. The heat exchanger is a liquid product cooler, contains two sections 8 and 9, and

the pre-cooling section 8 is included in the water circuit in series with the condenser 3 and the precondenser 2, and the final cooling section 9 is included in the closed circuit of the liquid coolant containing the first evaporator 6. The coolant circulates by means of a pump 10. The evaporator 7 is installed in the air path of the air condenser 4. Air is circulated in the path by means of a fan 5.

In the liquid refrigerant line in front of the evaporators 6 and 7, throttles 11 and 12 are installed. In the liquid cooled line, in front of the pre-cooling section 8, a temperature sensor 13 is installed electrically connected to the pump drive 10 and the throttles 11 and 12.

The heat pump works as follows.

From compressor 1, the compressed refrigerant vapor enters the precondenser 2, where it is cooled with heated water coming from

0 5

0

0

five

condenser 3. A further cooling of the refrigerant takes place in the condenser 3, cooled by water, coming from the pre-cooling section 8 of a liquid product, for example milk. The heat of water after condenser 3 is divided into two streams. The main stream is diverted to the consumer, and part is directed to forcapacitor 2 for additional heating, which is also supplied to the consumer. The refrigerant condenses in the air condenser 4 cooled by the air supplied by the fan 5. The condensed refrigerant, chopped in the throttle 11, enters the first evaporator 6, where it boils, extracts heat from the refrigerant, after which the refrigerant vapor is sucked in by the compressor 1 and the cycle repeats (the second evaporator 7 is disconnected, since the throttle 12 is closed).

A coolant, such as brine or water, circulates in a closed loop with a pump 10, extracting heat from the liquid product in section 9 of the final cooling of the product. To operate a heat pump that provides heating water (supplied in heat and hot to the consumer) by utilizing the heat of forcondensation and condensation of the refrigerant, the load on the first evaporator is necessary. During the initial preparatory period of the installation, when the heat load on the first evaporator is not useful (for example, milk is not supplied to the cooling), the throttle 11 is closed by the signal from the temperature sensor 13, and the throttle 12 is open, while all the refrigerant from the condenser goes to the second evaporator 7, where it evaporates due to heat exchange with warm air- XO.V1 coming from the condenser 4. If necessary, both evaporators can be used to cool the liquid product (in this case, the second evaporator 7 is connected to the same circuit circulating coolant).

Claims (1)

HEAT PUMP by ed. St. No. 1118836, characterized in that, in order to reduce energy consumption, an autonomous source of heating medium of the second evaporator is made in the form of an air-cooled condenser included in the first circulation circuit after the condenser.