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There is a critical need for environmentally benign, cost-effective technologies to utilize the vast amount of untapped low-grade heat sources. In this work, we report a novel travelling-wave thermoacoustic engine,… Click to show full abstract
There is a critical need for environmentally benign, cost-effective technologies to utilize the vast amount of untapped low-grade heat sources. In this work, we report a novel travelling-wave thermoacoustic engine, which incorporates phase change of a condensable component into the classical thermoacoustic conversion, and thus can work efficiently at a low-temperature difference ( 40% of the Carnot efficiency when working at a temperature difference <50 K. Moreover, the addition of phase change reduces the required mean pressure in the thermoacoustic engine by at least one order of magnitude, which is significant in terms of increasing safety and reducing cost of practical devices.
Journal Title: Applied Energy
Year Published: 2020
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