SU1193391A1 - Absorption lithiumbromic step-down thermotransformer - Google Patents

Abstract

ABSORBATION BROMISTOLITHIUM REDUCING THERMAL TRANSFORMERS, containing a flue pipe with an internal plastic coating serving as a generator, included in the circulation circuit of the solution, which also contains the first cavity of a two-cavity heat exchanger, pumps a strong and weak solution, and the idle air should be treated with the heat. the water circuit, in which, includes the water cavity of the absorber and the second cavity of the heat exchanger, which is characterized by the fact that, in order to increase and reducing metal consumption, the generator is provided with two grid-mounted lattices, the lower lattice space of which is connected to the input of a weak solution into the generator, and the top is connected to the evaporator, and an additional heat exchange surface is installed in the generator above (L on the contour water circulation in front of the water cavity of the absorber.

Description

The invention relates to the field of refrigeration,

The purpose of the invention is to increase efficiency and reduce metal consumption.

The drawing schematically shows the proposed thermal transformer.

It contains a fume pipe 1 with an internal plastic coating 2 serving as a generator, a first cavity 3 of a two-cavity heat exchanger 4, a pump 5 of a strong solution, a pump 6 of a weak solution, an absorber 7 with a water cavity 8, an evaporator 9, a second cavity 10 of a heat exchanger 4, grilles 11 and 12, heat exchange surface 13, condensate foam layer 14 and weak solution layer 15 above grids 11 and 12, heat consumer 16, cold consumer 17, strong solution packs 18, condensate conduit 19, coolant circuit 20, weak thief pipeline 21 compilations 22 weak solution C inlet 23 hot lady gases into the pipe 1.

Thermotransformer works as follows.

The flue hot gases enter through the inlet 23 into the chimney 1 with an internal plastic coating 2 and first pass through the grid 12, on

layer 15 of a weak solution is formed, forming a strong solution, and then is transferred to the grid 11 to form a foam layer 14 of water condensate formed during condensation of water vapor containing in gases after extracting water from bromine-lithium solution on the grid 12. Forming strong solution from collector 18 it is taken up by pump 5 and is pumped through cavity 3 of heat exchanger 4 to absorber 7, in which water vapor generated during boiling is absorbed

5 refrigerant water condensate in the evaporator 9. The cold produced during this process is utilized by the consumer 17, and the absorbed heat of absorption is used to obtain

Q of the blubber water flowing in the cavity 8, which is preheated in the heat exchange surface 13 with moist flue gases and finally heated in the cavity 10 5 of the heat exchanger 4 with hot, strong

the solution flowing, as it has been, through the cavity 3 of this heat exchanger. Perceived heat is recovered by hot water by the consumer 16 of heat. Excess water condensate is continuously removed from the grid 11 through conduit 19 to the evaporator 9,

Claims (1)

ABSORBENT BROMISTOLYTIC LOWERING THERMAL TRANSFORMER, containing a chimney with an internal plastic coating, which serves as a generator included in the circulation circuit of the solution, in which the first cavity of the two-cavity heat exchanger is installed, the pumps are strong and weak solutions, and it is cooled in a single-unit, which is cooled by a water absorber, which also a water circulation circuit, which includes a water cavity of the absorber and a second cavity of the heat exchanger, characterized in that, in order to increase efficiency and 'reducing metal, the generator is provided with two tiered placed gratings nadreshetochnoe lower space of which is connected to the input of the weak liquor to the generator, and the top is connected to the evaporator, wherein the generator over the top PE tices additionally installed _with thermal ® loobmennaya surface included in water circuit in front of the water cavity of the absorber. to 1 1193391 ί