SU874739A1 - Working agent of sorption cooling machines - Google Patents

Description

one . The invention relates to refrigeration engineering, namely to working substances of sorption refrigerating machines that produce cold by mixing two liquids without changing their state of aggregation. A mixture of acetone and butyl alcohol is known, which has a positive value of the integral heat of mixing 1. The closest to the proposed technical essence and the achieved result is the working substance of sorption refrigerating machines containing acetone and pentafluorochloroethane (F-115) at the following ratio of components, wt.%: Acetone 5-95 Pontafluorochloroethane The remaining Mixture decomposes at temperatures below -60 ° C and has a heat coefficient of 4 - 0.079 2. The purpose of the invention is to increase the efficiency of the machine by increasing the thermal coefficient and increasing the range of its operation. This goal is achieved by the fact that as freon it contains difluoromonochloromethane (F-22) and additionally butyl alcohol in the following ratio of components, wt.%: Butyl alcohol5-30 Difluormonochloromethane 70-95 Table 1 shows the characteristics of the components of the working substance. Table 1 Molecular weight 86.48 mass; Temperature -160 melting; sec. Temperature: -40.8; boiling heat; vaporization heat cal / g Specific heat capacity cal / ggrad

The thermal coefficient is estimated by the ratio

1. AN ai. dt,

g (at + 100)

VP "" to

LOO gprr

Where

rivers LT. The proposed blend butyl alcohol iformal chlorometes has a thermal coefficient of C 0.095. The working substance is obtained as follows. The fuels are cleaned of gases dissolved in them and thermostatically controlled in individual cylinders until they reach the same temperature. When the temperatures are compared, they open the valves on the connecting channel, and the fluorofluorochloromethane under pressure enters the balloon with butyl alcohol and mixes with it. Record the value of the decrease in temperature. By knowing the masses of both components of their heat capacity, the integral heat of mixing is calculated. Variants of the composition of the working substance and their integral heats of mixing are given in Table 2. table 2

Claims (2)

The continuation of the table.2. As can be seen from Table 2, the mixture for the following ratio of components, wt.%: Butyl alcohol 5-30, difluoromonochloromethane 70-95, is predominant for use. An increase or decrease in the concentration of components leads to a decrease in the efficiency of the chiller. In the range from +30 to butyl alcohol and difluoromonochloromethane, they completely dissolve in each other (no separation). Claims of the invention on the basis of freon sorption refrigerators, characterized in that, in order to increase the efficiency of the machine and expand the range of its operation, it contains difluorochlorochloromethane and additionally butyl alcohol in the following ratio of components, wt.%: Butyl alcohol 5 -30 Difluormonochloromethane 70-95 Sources of information taken into account during the examination 1.Belousov V.P. and Morachevsky A.G. Heat of mixing liquids. Chemistry 1970, 537. 2. USSR author's certificate, according to the application No. 2632346 / 23-26, cl. C 09 K 5/00, 1978 (prototype).