SU802742A1 - Bromine-litium absorption refrigerating plant - Google Patents

Description

(54) BROMISTOLYTIC ABSORPTION, REFRIGERATING INSTALLATION

Claims (1)

The invention relates to an obpasta khopipnoy technology, and more specifically to the bromopitic absorption refrigeration equipment. . Bromnolithium absorptive chiodal plants are known, containing a high pressure generator connected to a source of acute steam, equipped with condensate drainage equipment and connected with a evaporated solution line to low pressure generators, an evaporator for cold and hot air, a vaporized solution, air flow, a vaporizer, an air cooler, a popu- lation unit, a programmed arrays, a programmed arrays, a plug-in solution and a low-pressure generator; a strong solution line, and to the .KiicoKoro pressure generator, a weak solution line equipped with three successively installed recuperative heat & ka-MB, the Greek cavity of the first weakly recuperative heat recovery solution is included in the strong solution line of the low pressure generator, the second is in the line of the high pressure generator solution evaporated, and the third is in the condensate trap {l The disadvantage of the known installation is its small economical, due to insufficient heating weak paciv. thief entering evaporation at high pressure. The oel of this invention is improved in efficiency of installation. The goal is achieved by the fact that the set-up is supplied with an additional recuperative heat transfer, included in a weak solution between the high-flow generator and the third heat exchange, and the heating cavity is included in the evaporated solution between the second heat exchanger and the same generator. In the drawing a schematic representation of the installation is presented. Oca contains a high pressure generator 1, equipped with a condensate line 2 and connected by line 3 of the evaporated solution to the generator 4 low 380 pressure, evaporator 5, absorber in, key to generator 4 with a 7-pin solution, and to the generator 1 with a weak solution 8, recouped Q-i2 heat exchangers, successively on line 8, In addition to the drawing, are azanes, air conditioning system 13 for recirculating Jtjadagent in the evaporator, pumps 14 and 15 for reirirkul inn pumping weak, thief, hydraulic valve 16, condenser 17 and line 1 8 juice steam. The installation is performed as follows. The vapor in the generator 1 under high pressure from the aqueous solution of lithium bromide produces coolant (water) juice vapor, which through line 18 leads to heat exchange of the surface of the generator 4. In the generator 4, the solution is evaporating. The low-pressure refrigerant vapors that form here are condensed in condenser 17 and from here, together with condensate juice, flow through hydraulic valve 16 into evaporation 5. Liquid refrigerant in the evaporator 5 is re-circulated by pump 13 and boils at a deep vacuum and cooled process water. to the consumer of cold (not shown in the drawing). The forming pairs of Hpadatenta from the ejector 5 enter the absorber 6, which is absorbed by the strong solution coming here from the DO line 7. The resulting weak solution is collected in a shallow part the absorber 6 and from here pumps 14 and 15 pump 9 through 10, 11, 12 and 12 into the generator 1 through the river. At the same time, the solution in the heat exchange 9 heats the generator with curtains 4 from. 7 into the absorber 6 with strong solution, in heat exchangers 10 and D2 (the liquid is heated by the evaporated solution flowing through line 3 from generator 1 to 4, partially heated in heat exchange & 11%), followed by a cable from line 2. from the generator I. The economic efficiency of the proposal is expressed in reducing the consumption of cold production, due to the higher heating temperature of weak growth entering the high pressure generator 1. The invention has a bromide lithium absorption refrigeration unit containing a high-pressure generator connected to a high-pressure steam source, equipped with a condensate line and connected with a evaporated solution line to a low-pressure generator, an evaporator for producing cold with a vapor space communicated with a & orber, connected to a low-pressure generator with a strong solution line to the generator (view of the pressure - a line of a weak solution, equipped with three successively installed recuperative heat exchangers, and the heating cavity of the first along the course of the weak The oracle of the recuperative heat exchanger is included in the line of the strong solution of the low pressure generator, (the second is in the pinia of the evaporated solution of the high pressure generator, and the third is in the condensate seal, which is equipped with an additional recuperative heat exchanger included in the line the solution between the high pressure generator and the third heat exchangers, and its heating cavity is included in the pin of the evaporated solution between the second terol exchanger and the same generator ll. Sources of information, taken into account in the examination 1. US patent No. 349542О, кп. 62-476, published. 1976. eight