DIRECT HEAT ENERGY CONVERSION INTO ELECTRICAL ENERGY: AN EXPERIMENTAL STUDY

  • Vladimir Yezhov Dr.Sc., prof. Vladimir Yezhov Southwest State University, Kursk, Russia

Abstract


The paper presents some results of experimental studies of the co-generation of heat and electric energy in the process of an injection gas burner operation due to thermoelectric effect utilization. It also contains a description of the used laboratory installation and presents experiment methods. The authors prove the possibility to use consumer gas burners for electricity generation.

References

Milajić, A., Beljaković, D., Davidović, N., Vatin, N., Murgul, V. (2015): Using the Big Bang – Big crunch algorithm for rational design of an energy-plus building, Procedia Engineering, Vol. 117, pp. 911-918.

Pukhkal, V., Tanić, M., Vatin, N., Murgul, V. (2015): Studying humidity conditions in the design of building envelopes of “Passive House” (in the case of Serbia), Procedia Engineering, Vol. 117, pp. 859-864.

Pukhkal, V., Murgul, V., Garifullin, M. (2015): Reconstruction of buildings with a superstructure mansard: options to reduce energy intensity of buildings, Procedia Engineering, Vol. 117, pp. 624-627.

Zadvinskaya T.O., Gorshkov A.S. (2014): Comprehensive method of energy efficiency of residential house. Advanced Materials Research. Vol. 953-954. pp. 1570-1577.

Jocovic, M., Melovic, B., Vatin, N. , Murgul, V. (2014): Modern business strategy Customer Relationship Management in the area of civil engineering, Applied Mechanics and Materials, Vol. 678, pp 644-647.

Murgul, V., Vuksanovic, D., Vatin, N., Pukhkal, V. (2014): Decentralized ventilation systems with exhaust air heat recovery in the case of residential buildings, Applied Mechanics and Materials, Vol. 680, pp. 524-528.

Murgul, V., Vuksanovic, D., Vatin, N., Pukhkal V. (2014): The use of decentralized ventilation systems with heat recovery in the historical buildings of St. Petersburg, Applied Mechanics and Materials, Vols. 635-637, pp. 370-376.

Pukhkal, V., Vatin, N. , Murgul, V. (2014): Central ventilation system with heat recovery as one of the measures to upgrade energy efficiency of historic buildings, Applied Mechanics and Materials, Vols. 633-634, pp. 1077-1081.

Pukhkal, V., Vatin, N. , Murgul, V. (2014): Centralized natural exhaust ventilation systems use in multi-story residential buildings, Applied Mechanics and Materials, Vol. 680, pp. 529-533.

Aronova, E., Radovic, G., Murgul, V., Vatin, N. (2014): Solar Power Opportunities in Northern Cities (Case Study of Saint-Petersburg), Applied Mechanics and Materials, Vols. 587-589, pp. 348-354.

Murgul, V. (2014): Solar energy systems in the reconstruction of heritage historical buildings of the northern towns (for example Sankt-Petersburg), Journal of Applied Engineering Science, Vol. 12 (2), pp. 121-128.

Alihodzic, R., Murgul, V., Vatin, N., Aronova, E., Nikolic, V., Tanić, M., Stanković, D. (2014): Renewable Energy Sources used to Supply Pre-school Facilities with Energy in Different Weather Conditions, Applied Mechanics and Materials, Vol. 624, pp. 604-612.

Radovic, G., Murgul, V., Vatin, N., Aronova, E. (2014): Hybrid Photovoltaic-diesel Energy System Optimization (Case Study of Electric Power Supply for Buildings under the Weather Conditions of Montenegro), Applied Mechanics and Materials, Vol. 627, pp. 357-364.

Radovic, G., Murgul, V., Cvetkovska, M., Aronova, E., Vatin, N. (2014): Solar power supply for remote objects of historical heritage in Montenegro, Journal of Applied Engineering Science, Vol. 12 (4), pp. 277 – 284.

Ezhov, V.S., Semicheva, N.E. (2012): Ispol'zovanie nizkopotencial'noj teplovoj jenergii dlja jelektrosnabzhenija zdanij, Izvestija Jugo-Zapadnogo gosudarstvennogo universiteta. Serija Tehnika i tehnologii, CHast' 2, № 12, pp. 65-62.

Ohotin A. S., Efremov A. A., Ohotin V. S., Pushkarskij A. S. (1971) Termojelektricheskie generatory, Moscow: Atomizdat, 292 p.

Ezhov V.S., Berezin, S.V., Berezin D.S. (2015): Zajavka na izobretenie RF № 2015119415, Gorelka–jelektrogenerator.

Kalashnikov S.G. (1970) Jelektrichestvo, Komsomolsk-na-Amure: Bukinist, 668 p.

Ezhov V.S., Semicheva N.E., Kosinov A.V., Lysenko I.V., Pivovarov A.S. (2015): Patent RF №2541799 Teplojelektricheskij generator dlja individual'nogo jenergosnabzhenija, Bjul. 5, 13 p.

Published
2015/12/15
Section
Original Scientific Paper