SU1067309A1 - Absorbtion refrigerating plant - Google Patents

Abstract

Absorption refrigerating machine, comprising a circuit circulating coolant, which establishes the evaporator and the air cooler and the circulation circuit of the heat medium, which includes an absorber connected through a pump and a regulating valve to the generator, heater and condenser, connected via a throttle to the evaporator, wherein that, in order to increase efficiency by year-round use of the installation, it additionally contains an outdoor heat exchanger installed A surface with solenoid valves at the inlet and outlet, equipped with a thermal sensor connected to these valves, the heat exchange surface connected to the coolant circuit in parallel to the air cooler. (L O5 oo o so

Description

10 The invention relates to refrigeration engineering, namely absorption chillers. Absorption refrigeration units are known that contain the circulation circuit of a chaffer, in which the charger and air cooler are installed, and the circulation circuit of the coolant, which includes an absorber connected by a pump and a control valve to the generator, an air heater and a condenser connected through a throttle to the evaporator 1. A disadvantage of the known installations is their low efficiency due to the impossibility of their year-round use due to the lack of necessary equipment. . The purpose of the invention is to increase efficiency by using year-round installation. This goal is achieved by the fact that an absorption refrigeration unit containing a coolant circuit in which an evaporator and an air cooler are installed, and a coolant circuit connected to an absorber connected to a generator, an air heater and a condenser connected by means of a throttle through a regulator and a control valve. to the evaporator, additionally contains an outdoor heat exchanger surface with solenoid valves at the inlet and outlet, equipped with a thermal sensors connected to these valves, the heat exchange surface is connected to the coolant circuit in parallel to the air cooler. The drawing shows schematically the proposed installation. The installation contains an evaporator 1, air cooler 2, absorber 3, pump 4, control valve 5, generator 6, air heater 7, condenser 8, throttle 9, heat exchange surface 10 installed outdoors, solenoid valves 1.1-14 and thermal sensor 15. 9 Installation Works as follows. In summer mode, the heat exchange surface 10 is turned off, the salt-like valves 11 and 12 are closed, and the solenoid valves 13 and 14 are open. The coolant circulates between the evaporator 1 and air cooler 2, while in the evaporator 1 the coolant is cooled, in the air cooler 2 it is heated by the heat supplied from the cooled room. The evaporator 1 boils the refrigerant at low pressure, producing a refrigerating effect. The resulting refrigerant vapor is absorbed in the absorber 3 with a mild solution. The resulting strong solution is fed by a pump 4 to a generator 6, in which, under the action of the heat supplied, it releases high-pressure refrigerant vapors directed to a condenser. 8. Here, refrigerant vapor is liquefied, and the resulting liquid is choked in throttle 9 and directed to evaporator 1. Heat generated in absorber 3 and condenser 8 is removed by water (coolant), which is cooled in a cooling tower (not shown). In winter mode, the solenoid valves 11 and 12 are open, and the solenoid valves 13 and 14 are closed. The coolant now circulates between the evaporator 1 and the heat exchange surface 10. The boiling refrigerants in the evaporator use heat removed by the coolant from the outside air, and the heat produced by water (heat carriers) in the absorber and condenser is used in the air heater 7 to heat the room. The closing and opening of the valves is carried out by the pulse of the temperature sensor 15. The economic efficiency of the invention is expressed in reducing capital and operating costs due to year-round use of the installation, as well as due to the use of outside air heat to heat the room during the winter season.

Claims (1)

AN ABSORPTION REFRIGERATING UNIT containing a coolant circulation circuit in which an evaporator and an air cooler are installed, and a coolant circulation circuit in which an absorber is connected, connected by means of a pump and a control valve to a generator, an air heater and a condenser connected by means of a choke to the evaporator, characterized in that in order to increase efficiency by using the unit year-round, it additionally contains an outdoor heat exchange A surface with solenoid valves at the inlet and outlet, equipped with a temperature sensor connected to these valves, the heat exchange surface being connected to the coolant circulation circuit parallel to the air cooler.