2020
DOI: 10.1051/e3sconf/202017303005
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The Use of Thermoelectric Generators With Home Stoves

Abstract: One of waste heat recovery technologies are thermoelectric generators, which allow direct conversion heat to energy. In the face of shrinking fossil fuels resources, simultaneous increase of global energy demand and level of pollution it is becoming more and more important to introduce technologies enabling fullest utilization of fuels. In the paper, tests of water and air cooled thermoelectric generators mounted on the stove were described. Problems that occurred while operation of the system and its solution… Show more

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Cited by 2 publications
(4 citation statements)
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“…The results obtained agreed well with the basic thermoelectric theory described in Equation (7), 2 where the effective Seebeck coefficient is obtained as a function of the temperature difference. The obtained results agreed well with those of Bano et al 42 and Kolhe et al, 43 who investigated water and air cooling for TEGs. α=U0ΔTTEGHC, $\alpha =\frac{{U}_{0}}{\Delta {T}_{TEG-HC}},$where α and U 0 are the effective Seebeck coefficient and TEG open voltage, respectively.…”
Section: Resultssupporting
confidence: 91%
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“…The results obtained agreed well with the basic thermoelectric theory described in Equation (7), 2 where the effective Seebeck coefficient is obtained as a function of the temperature difference. The obtained results agreed well with those of Bano et al 42 and Kolhe et al, 43 who investigated water and air cooling for TEGs. α=U0ΔTTEGHC, $\alpha =\frac{{U}_{0}}{\Delta {T}_{TEG-HC}},$where α and U 0 are the effective Seebeck coefficient and TEG open voltage, respectively.…”
Section: Resultssupporting
confidence: 91%
“…The output power of the water-cooling system was higher than that of the air-cooling system. The obtained results agreed well with those of Bano et al 42 and Kolhe et al 43 The output power in the combustion zone using water cooling was the highest. In addition, a primary air valve angle of 18°exhibited the highest output power.…”
Section: Resultssupporting
confidence: 91%
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