Efficiency of lithium bromide absorption chiller with multi-stage absorption and generation processes with associated mass flow

Abstract

A study of the cycles of a lithium bromide–water absorption chiller with two-stage absorption and three-stage generation
of a working substance vapor with an associated mass flow with different supply of the cooling medium to the apparatus
has been carried out. The temperature of the heating source necessary for the implementation of the actual thermodynamic
cycle of the Lithium Bromide–Water Absorption Chiller (LBWAC) and the most effective thermodynamic cycle has been
determined. A comparative analysis of the cycle understudy with the sample cycle (one-stage cycle) LBWAC is carried out.
Despite the lower values of the coefficient of performance (COP), the cycle under study provides a doubling of the cooling
capacity of the machine, at the same flow rate of the heating source, which is an advantage when the flow rate
of the heating source is limited. This circumstance is explained by the fact that in LBWAC with multi-stage absorption
and generation, the heating source sequentially passes through three generator stages. Therefore, the degree of cooling
in the chiller with the considered cycle is three times higher than this value of a single-stage LBWAC.