Performance analysis of a looped travelling-wave thermoacoustic engine with phase-change

Abstract: Traditional thermoacoustic engines using conduction-driven, sensible heat transfer are unable to utilize low-grade thermal energy efficiently. Recently, it has been demonstrated that a phase-change thermoacoustic engine can initiate oscillations at a very low temperature difference; however, the steady-stage performance has yet to be extensively studied. In this work, a phase-change thermoacoustic engine with a looped resonator was simulated, based on a linear phase-change thermoacoustic theory. A binary gas m… Show more

“…Tsuda [130] and Noda [131] conducted similar experiments and reached similar conclusions. The performance of phase-change travelling-wave TAEs was examined experimentally by Ueda [132] and Yang [133], who demonstrated much lower onset temperature differences and higher thermal efficiencies than the dry equivalents. Recently, Ramon et al [134][135][136] generalised the theory of thermoacoustics with mass exchange between the solid and a binary mixture comprising an inert (e.g., air) and a reactive component (e.g., water) in a thermod namic c cle.…”

Multi-physics coupling in thermoacoustic devices: A review

“…Tsuda [130] and Noda [131] conducted similar experiments and reached similar conclusions. The performance of phase-change travelling-wave TAEs was examined experimentally by Ueda [132] and Yang [133], who demonstrated much lower onset temperature differences and higher thermal efficiencies than the dry equivalents. Recently, Ramon et al [134][135][136] generalised the theory of thermoacoustics with mass exchange between the solid and a binary mixture comprising an inert (e.g., air) and a reactive component (e.g., water) in a thermod namic c cle.…”

Multi-physics coupling in thermoacoustic devices: A review

Harnessing sound waves for sustainable energy: Advancements and challenges in thermoacoustic technology

Optimal cross-sectional area ratio between porous material and resonance tube for the onset of self-excited oscillations in standing-wave thermoacoustic engines