This study presents the results obtained from the implementation of a thermoelectric generator for the recovery of energy residues from the exhaust gases of internal combustion engines. In this study, the generation of energy and the reduction of the emissions obtained are analyzed.
Abstract: Thermoelectric generation is an alternative to recover some of the wasted energy trough an exhaust of the internal combustion engines. This paper assesses the performance of a thermoelectric generator with 20 modules by implementing a waffle heat exchanger. Experimental results showed a variable range of power recovery from 57.87W to 71.13W for B10, B5, and Diesel. The highest energy conversion efficiency of the afore mentioned thermoelectric device was of 3% with the highest load and the fastest rotational speed. Also, the recovery process reduced gaseous emissions such as CO, CO2, NO, NOX, and HC. Additionally, the smoke opacity per kWh is reduced at significant levels of operations such as 2.42% when using diesel, 2.65% when using B5 and 3% when using B10. However, when using biodiesel blends, NOx emissions were increased. Overall the biodiesel resulted in a higher power recovery performance versus the diesel.
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