Prospects and Problems of Increasing the Automotive Thermoelectric Generators Efficiency
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InTech
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http://www.intechopen.com/download/pdf/61447
Reference69 articles.
1. Srivastava DK, Agarwal AK, Datta A, Maurya RK. Advances in Internal Combustion Engine Research. Singapore: Springer; 2017
2. Kavtaradze RZ. Theory of piston engines. Special chapters: Textbook for high schools. Moscow: Mashinostroenie Publ; 2008
3. Yang J, Stabler FR. Automotive applications of thermoelectric materials. Journal of Electronic Materials. 2009;38(7):1245-1251
4. Copeland C, Pesiridis A, Martinez-Botas R, Rajoo S, Romagnoli A, Mamat A. Automotive Exhaust Waste Heat Recovery Technologies; 2014
5. Legros A et al. Comparison and impact of waste heat recovery technologies on passenger car fuel consumption in a normalized driving cycle. Energies. 2014;7(8):5273-5290
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