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The Disk-Magnet Electromagnetic Induction Applied to Thermoelectric Energy Conversions 被引量:1

The Disk-Magnet Electromagnetic Induction Applied to Thermoelectric Energy Conversions
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摘要 The thermoelectric energy conversion technique by employing the Disk-Magnet Electromagnetic Induction (DM-EMI) and improved DM-EMIs is shown, and possible applications to heat engines as one of the energy harvesting technologies are also discussed. The idea is induced by integrating irreversible thermodynamical mechanism of a water drinking bird with that of a Stirling engine, resulting in thermoelectric energy generation different from conventional heat engines. The current thermoelectric energy conversion with DM-EMI can be applied to wide ranges of temperature differences. The mechanism of DM-EMI energy converter is examined in terms of axial flux magnetic lines and categorized as the axial flux generator. It is useful for practical applications to macroscopic heat engines such as wind, geothermal, thermal and nuclear power turbines and heat-dissipation lines, for supporting thermoelectric energy conversions. The technique of DM-EMI will contribute to environmental problems to maintain clean and susceptible energy as one of the energy harvesting technologies. The thermoelectric energy conversion technique by employing the Disk-Magnet Electromagnetic Induction (DM-EMI) and improved DM-EMIs is shown, and possible applications to heat engines as one of the energy harvesting technologies are also discussed. The idea is induced by integrating irreversible thermodynamical mechanism of a water drinking bird with that of a Stirling engine, resulting in thermoelectric energy generation different from conventional heat engines. The current thermoelectric energy conversion with DM-EMI can be applied to wide ranges of temperature differences. The mechanism of DM-EMI energy converter is examined in terms of axial flux magnetic lines and categorized as the axial flux generator. It is useful for practical applications to macroscopic heat engines such as wind, geothermal, thermal and nuclear power turbines and heat-dissipation lines, for supporting thermoelectric energy conversions. The technique of DM-EMI will contribute to environmental problems to maintain clean and susceptible energy as one of the energy harvesting technologies.
作者 Hiroshi Uechi Schun T. Uechi Hiroshi Uechi;Schun T. Uechi(Osaka Gakuin University, Osaka, Japan;KPMG Ignition Tokyo, Data Tech., Tokyo, Japan)
出处 《World Journal of Engineering and Technology》 2022年第2期179-193,共15页 世界工程和技术(英文)
关键词 Thermoelectric Energy Generation (TEG) Thermomechanical Dynamics (TMD) Disk-Magnet Electromagnetic Induction (DM-EMI) Axial Flux Electric Generator (AFEG) Applications to Heat Engines Thermoelectric Energy Generation (TEG) Thermomechanical Dynamics (TMD) Disk-Magnet Electromagnetic Induction (DM-EMI) Axial Flux Electric Generator (AFEG) Applications to Heat Engines
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