Study of Standing-Wave Thermoacoustic Electricity Generators for Low-Power Applications

Piccolo, Antonio

doi:10.3390/app8020287

Cited by 4 publications

(1 citation statement)

References 12 publications

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“…When a temperature gradient is established across the regenerator/heat exchanger of a thermoacoustic engine, pressure waves are produced, which leads to the generation of acoustic waves [95]. The use of the resulting pressure waves allows these engines to become linear generators [98,99]. These engines can operate from different heat sources such as solar [98] (see Figure 12).…”

Section: Thermoacoustic and Thermofluidic Enginesmentioning

confidence: 99%

Power Generation via Small Length Scale Thermo-Mechanical Systems: Current Status and Challenges, a Review

Burugupally

Weiss

2018

Energies

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There has been significant interest and work toward the development of small length scale (micrometer to centimeter) energy conversion systems—heat engines and thermal energy harvesters—that operate on different thermal sources. Small combustion driven heat engines offer high power densities and longer operating durations, and present an opportunity to replace large and heavy chemical batteries. Thermal energy harvesters provide a great opportunity to harness the freely available thermal energy: solar, geothermal, and human body heat. These systems can contribute to significant energy savings when coupled to an existing, larger power generation system (e.g., vehicles and diesel generators) for the purpose of energy recovery. In this review, we discuss technological challenges, opportunities, and recent progress in small length scale energy conversion systems with special focus on free piston devices (engines and expanders) and phase-change driven devices. We discuss in detail four important design considerations that can have significant effect on small length scale device performance.

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Section: Thermoacoustic and Thermofluidic Enginesmentioning

confidence: 99%

Power Generation via Small Length Scale Thermo-Mechanical Systems: Current Status and Challenges, a Review

Burugupally

Weiss

2018

Energies

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Computational study on thermoacoustic heat engine for proposing a new method renewable technique

Irfan

Zarhamdy

Saad

et al. 2019

Applied Physics of Condensed Matter (Apcom 2019)

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Operation map of a traveling-wave thermoacoustic electric generator with variable resistive-capacitive electric loads

Ibrahim,

Elbeltagy,

Ramadan

et al. 2024

The Journal of the Acoustical Society of America

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A toroidal-topology traveling-wave thermoacoustic electric generator (TWTEG) is developed. It consists of a traveling-wave thermoacoustic engine, two linear alternators connected in parallel, and sets of variable resistive-capacitive (R-C) external electric loads, in conjunction with accessories and instrumentation required for experimental investigations. The working medium is helium with a static absolute pressure that varies from 25 bars to 30 bars. A detailed description of the thermal design of the heat exchangers is presented. Sustainable operation of the TWTEG is achieved over a range of external R-C loads at different imposed hot-side temperatures and mean gas pressures. The performance parameters are measured for different experimental conditions and compared with a developed lumped-element model. The comparison between the experimental results and predictions reveals a good agreement. The impedance matching between the thermoacoustic engine and the linear alternators is investigated experimentally over a wide range of external R-C loads. The external R-C loads play a crucial role in the operation of the TWTEG. The mean gas pressure changes the operating frequency; however, it has no significant influence on the operating range of the TWTEG on the R-C load map. Increasing the hot-side temperature improves the thermal-to-acoustic efficiency and extends the operating region into larger regions.

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Study of Standing-Wave Thermoacoustic Electricity Generators for Low-Power Applications

Cited by 4 publications

References 12 publications

Power Generation via Small Length Scale Thermo-Mechanical Systems: Current Status and Challenges, a Review

Power Generation via Small Length Scale Thermo-Mechanical Systems: Current Status and Challenges, a Review

Computational study on thermoacoustic heat engine for proposing a new method renewable technique

Operation map of a traveling-wave thermoacoustic electric generator with variable resistive-capacitive electric loads

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