RU94021980A - Thermoelectric refrigerator - Google Patents

Abstract

FIELD: refrigerating engineering. SUBSTANCE: thermoelectric battery unit consists of several sections whose cold and hot junctions are provided with heat exchange devices connected in series and used for circulation of mixture of liquids. Heat exchange intensifying devices are made in the form of two interconnected circulating loops partially filled with liquid. Components circulating in these loops absorb heat during mixing; liquid propane and acetone being used for this purpose. Liquid mixer of both circulating loops is connected with heat-insulated chamber. Above-mentioned features enhance power efficiency of refrigerator due to use of heat released from hot junctions for additional generation of cold and due to effective modes of operation ensured structurally at simultaneous rise of temperature of heat released to surrounding medium and drop of temperature of cold being generated. EFFECT: enhanced efficiency.

Claims (1)

The invention relates to refrigeration, in particular to refrigerators working with a consumer of electricity (thermoelectric refrigerators). The refrigerator contains a thermoelectric battery, consisting of sections and connected to the power supply unit, its cold junctions are connected to a thermally insulated chamber and a heat exchange intensification device, and combustible junctions are connected to a heat exchange intensification device with liquid circulation. The refrigerator differs from the known ones in that the thermoelectric battery pack of the refrigerator is made up of several sections of thermal batteries, the cold and hot junctions of which have heat exchangers connected in series and through which the mixture of liquids circulates, and the heat exchange intensification devices are made in the form of two interconnected circulation circuits partially filled with liquid whose components, when mixed, absorb heat, for example, liquid propane and acetone, and a liquid mixer, which is included in both circuits ulation, connected to a thermally insulated chamber. These differences increase the energy efficiency of the thermoelectric cooler by using the heat removed from the hot junctions to additionally generate cold, as well as by constructively providing energy-efficient operating modes of each section of the thermopile while increasing the temperature of the heat removed to the environment and lowering the temperature of the generated cold. A thermoelectric refrigerator can be used as a household refrigerator, in trade, in agro-industrial sectors, in farms, in transport and in medicine.