Solar driven coaxial traveling wave starting and standing wave cooling device

Abstract

The invention relates to a solar-driven coaxial traveling wave starting and standing wave refrigerating device, which comprises a traveling wave thermoacoustic engine and a standing wave thermoacoustic refrigerating machine with coaxial structures, and also comprises a resonatron which is connected between the traveling wave thermoacoustic engine and the standing wave thermoacoustic refrigerating machine, a solar light-accumulating device and a solar light-transmitting device which are arranged in front of the traveling wave thermoacoustic engine, a resonant cavity which is arranged on the rear of the standing wave thermoacoustic refrigerating machine, and a fused salt annular box which is coated on the outside of a heat exchanger on the hot end of the traveling wave thermoacoustic engine. Due to organic axial arrangement of the traveling wave thermoacoustic engine and the standing wave thermoacoustic refrigerating machine, the solar-driven coaxial traveling wave starting and standing wave refrigerating device has the advantages of compact structure and high efficiency; fused salt which is coated on the outside of the heat exchanger on the hot end of the engine is an ideal thermal capacitance, thereby having the advantage of constant heating temperature; and a light-transmitting enclosed body on the front end of the engine uses quartz glass, thereby having the advantages of high-efficiency transmittance and prevention of low-temperature internal infrared radiation from passing through.

Description

technical field [0001] The invention belongs to the field of gas refrigeration and low temperature, and in particular relates to a solar-driven coaxial traveling wave engine-standing wave refrigeration device. Background technique [0002] Thermoacoustic heat engine is a new type of heat engine that uses thermoacoustic effect to convert heat energy into sound energy. There are no moving parts in the system, which has the characteristics of simple structure and low cost. High-grade thermal energy is used as the driving heat source; and the cooling scheme of the combination of thermoacoustic engine and thermoacoustic refrigerator has high reliability because there are no moving parts, and has broad application prospects. [0003] On the other hand, as the form of energy becomes increasingly severe, thermoacoustic systems that use renewable energy such as solar energy as a driving heat source have emerged as the times require. In 2000, Hofler of the U.S. Naval Research Institu...

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Problems solved by technology

However, he failed to achieve real-time tracking of the sun, and he could not work continuously throughout the day with high efficiency; and he used a standing wave thermoacoustic engine with unsatisfactory efficiency, which limited the overall efficiency of the entire thermoacoustic engine refrigeration system

[0004] The feedback loop setting of the current traveling wave thermoacoustic engine makes the rear resonant cavity and the thermoacousti

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