SU881481A1 - Adsorption refrigeration unit air desorber - Google Patents

Description

(54) AIR DESORBER ABSORPTION REFRIGERATING INSTALLATION

one

The invention relates to refrigeration, and more specifically to air desorbers of an absorption refrigeration unit in which the evaporation of the solution is carried out by blowing ambient air through a furnace.

Air desorbers of an absorption refrigeration unit are known, comprising a housing with inlet and outlet air nozzles, and a nozzle made of Raschig rings, a sprinkler for a weak solution, a flash tube and a fan 1 are placed inside the housing.

The disadvantages of the known desorbers are their low operational reliability due to the low ambient temperature and low economic efficiency due to the need for the same reason to pump large air masses through the desorbed padTBOp.

The purpose of the invention is to increase the operational reliability and efficiency.

This goal is achieved in that the desorber further comprises a hot box type air heater connected to the desorber air inlet.

The drawing is a schematic representation of an absorption refrigeration unit with an air-stripping device incorporated in its scheme,

Desorber 1 includes a housing 2 with inlet air nozzles 3 and an outlet air nozzle 4, and 5 nozzles of their rings Raschi 10 ha, sprinkler 6 for a weak solution, drip chamber 7 and fan 8, air heater 9 of the hot box type, connected to the nozzle 3 of desorber 1. The installation also contains a float controller 10, a heat exchanger-regenerator 11, an absorber 12, an evaporator 13, a pump 14, a vacuum pump 15 and a transparent screen 16 on the top of the heater 9.

Work desorber and the entire installation as a whole

20 occurs as follows.

The outside air is drawn in by the fan 8 through the air heater 9, the nozzle 5, the droplet separator 7 and is emitted in the atmosphere

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In the heater 9, the air enhances its teltrature due to the heat of solar energy passing into the hot box through the transparent screen 16. On the nozzle 15, the heated air meets with a weak solution, mainly an aqueous solution of lithium chloride. At the same time, as a result of the heat and mass transfer, the solution is desorbed and becomes strong, and the cooled air, saturated with water vapor, being freed from the droplets of solution being carried away in the droplet separator 7, is discharged as indicated above into the atmosphere. The strong solution is directed through the float regud torus 10 and the heat exchanger regenerator Yves absorber 12, in which it absorbs water vapor, which is formed by self-evaporation of the latter in the evaporator 13. The resulting weak solution is pumped out of the absorber 12 by pump 14 and is fed through the heat exchanger regenerator II into the sprinkler 6, desorber 1. In order to cool the water in the evaporator 13 by self-evaporation in it, as well as a deep vacuum must be maintained in the absorber 12. Therefore, the air seeping into these apparatuses must be pumped out with a vacuum pump 15.

The economic effectiveness of the invention is expressed in reducing power consumption.

consumed by the fan 8 for pumping air through the desorber, since preheating the air with solar energy can significantly reduce its consumption required for desorption of a weak solution.

Claims (1)

1. USSR author's certificate N 167504, cl. F 25 May 15/06, 1962.