Design Guidelines For a Thermoacoustic Refrigerator

TL;DR

This paper presents a theoretical framework and design algorithm for a standing wave thermoacoustic refrigerator, emphasizing stack design to achieve specific cooling needs without moving parts or refrigerants.

Contribution

It introduces a novel design algorithm for thermoacoustic refrigerators based on linear thermoacoustic theory, focusing on stack configuration under simplified assumptions.

Findings

Developed an algorithm for stack design in thermoacoustic refrigerators.

Demonstrated the potential for environmentally friendly cooling solutions.

Provided guidelines for achieving desired cooling performance.

Abstract

Development of refrigerators based on Thermoacoustic technology is a novel solution to the present day need of cooling without causing environmental hazards. With added advantages of absence of moving parts and circulating refrigerants, these devices can attain very low temperatures maintaining a compact size. The present theoretical work is based on theory of linear thermoacoustics[1]. Under the short stack and invicid assumptions, an algorithm for design of a standing wave thermoacoustic refrigerator, with main focus on the stack, is described. A stack is designed for a given cooling requirement of the refrigerator and certain chosen operation parameters.