Numerical Analysis for the Performance of a Thermoelectric Generator According to Engine Exhaust Gas Thermal Conditions
Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33122
Numerical Analysis for the Performance of a Thermoelectric Generator According to Engine Exhaust Gas Thermal Conditions

Authors: Jinkyu Park, Yungjin Kim, Byungdeok In, Sangki Park, Kihyung Lee

Abstract:

Internal combustion engines rejects 30-40% of the energy supplied by fuel to the environment through exhaust gas. thus, there is a possibility for further significant improvement of efficiency with the utilization of exhaust gas energy and its conversion to mechanical energy or electrical energy. The Thermo-Electric Generator (TEG) will be located in the exhaust system and will make use of an energy flow between the warmer exhaust gas and the external environment. Predict to th optimum position of temperature distribution and the performance of TEG through numerical analysis. The experimental results obtained show that the power output significantly increases with the temperature difference between cold and hot sides of a thermoelectric generator.

Keywords: Thermoelectric generator, Numerical analysis, Seebeck coefficient, Figure of merit

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1335072

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2273

References:


[1] Endo, T., Kwajiri, S., Kojima, Y., Takahashi, K. et al.,"Study on Maximizing Exergy in Automotive Engines," SAE Technical Paper, 2007-01-0257, 2007.
[2] Aleksandr, S.K., John, C.B., Saeid, G., Norbert, B.E., Richard, A.B., David, F., Mike, M., "Thermoelectric Development ay Hi-Z Technology," Technical Paper, 2001
[3] Crane, D., Jackson, G., and Holloway, D., "Towards Optimization of Automotive Waste Heat Recovery Using Thermoelectrics," SAE Technical Paper, 2001-01-1021, 2001
[4] Stobert, R. and Milner, D., "The Potential for Thermo-Electric Regeneration of Energy in Vehicles," SAE Technical Paper, 2009-01-1333, 2009.
[5] Rowe, D. M., "Thermoelectric Handbook Macro to Nano," Taylor and Francis Group Press, Wales, 2007.
[6] Bass, J. C., Elsner, N. B. and Leavitt, F. A., "Performance of the 1kW thermoelectric generator for diesel engines," Proceedings of the 13th International Conference on Thermoelectrics, pp. 295-298, 1994.
[7] Wu, C., "Analysis of waste-heat thermoelectric power generators," Applied Thermal Eng., Vol. 16, No. 1, pp. 63-69, 1996.
[8] Huang, B. J. Chin, C. J., and Duang, C. L., "A design method of thermoelectric cooler," Int. J. Refrigeration, Vol. 23, pp. 208-218, 2000.