The use of thermoelectric energy converters to reduce the influence of natural and climatic factors on the technical readiness of a vehicle

Authors

  • M.F. Dmytrychenko National Transport University 1, M.Omelianovycha-Pavlenka Str., Kyiv, 01010, Ukraine
  • Yu.F. Gutarevych National Transport University 1, M.Omelianovycha-Pavlenka Str., Kyiv, 01010, Ukraine
  • D.M. Trifonov National Transport University 1, M.Omelianovycha-Pavlenka Str., Kyiv, 01010, Ukraine
  • O.Yu. Syrota National Transport University 1, M.Omelianovycha-Pavlenka Str., Kyiv, 01010, Ukraine

Keywords:

технічна готовність, акумуляторна батарея, термоелектричний генератор, тепловий акумулятор фазового переходу, електронагрівальні елементи

Abstract

The article discusses the problem associated with the operation of a vehicle at low ambient temperatures, substantiates the need for special measures to maintain the optimal thermal regime of the battery. The analysis of the factors influencing the start of a cold engine is carried out. The effect of low temperature of the storage battery on the energy performance of the electrical starting system is shown. Computational studies of the proposed system for compensating the heat losses of the storage battery during the maintenance of a vehicle at low temperatures by the method of thermostating with the use of thermoelectric energy converters are carried out. Bibl. 14, Fig. 4, Tabl. 3.

References

Krokhta G.M., Usatykh N.A., Guskov Yu.A., Voronin D.M. (2016). Osobennosti raboty starternykh akkumuliatornykh batarei pri samoprogreve dvigatelia v zimnii period [Operating peculiarities of starter storage batteries during self-heating of the engine in winter]. Dostizheniia nauki i tekhniki APK – Achievements of Science and Technology of Agro-Industrial Complex, 30 (12), 94-97 [in Russian].

Timinskii V.I. (1985). Spravochnik po elektrooborudovaniiu avtomobilei, traktorov, kombainov [Handbook of the electrical equipment of cars, tractors, combines]. Minsk: Uradzhai [in Russian].

Pankratov N.I. (1985). Ekspluatatsiia akkumuliatornykh batarei pri nizkikh temperaturakh [Operation of storage batteries at low temperatures]. Avtomobilnyi Transport, 2, 16–19 [in Russian].

Kajikawa T., Funahashi R. (2016). Recent activity on thermoelectric power generation technology in Japan. J. Thermoelectricity, 1, 5-15.

Anatychuk L.I., Prybyla A.V. (2016). Comparative analysis of thermoelectric and compression heat pumps for individual air-conditioners. J.Thermoelectricity, 2, 31-39.

Anatychuk L.I., Lysko V.V. (2019). On the possibility of using thermoelectric generators for high-power transport starting pre-heaters. J.Thermoelectricity, 3, 80-92.

Dmytrychenko M.F., Gutarevych Y.F., Trifonov D.M., Syrota O.V., Shuba E.V. (2018). On the prospects of using thermoelectric generators with the cold start system of an internal combustion engine with a thermal battery. J.Thermoelectricity, 4, 49-54.

Patent of Ukraine №136638 (2019). Dmytrychenko M.F., Gutarevych Yu.F., Trifonov D.M., Syrota O.V., Shuba S.V. Thermoelectric system of thermal energy utilization with thermal accumulator of phase transition [in Ukrainian].

Zu-Guo Shen, Lin-Li Tian, Xun Liu. (2019). Automotive exhaust thermoelectric generators: Current status, challenges and future prospects. Energy Conversion and Management, 195, 1138-1173.

Bykov K.P., Shlenchik T.A. (2006). Avtomobili “Tavria”, “Slavuta” ZAZ-1102, ZAZ-1103, ZAZ-1105 i ikh modifikatsii. Ustroistvo, ekspluatatsiia, remont, posobiie po remontu. [Automobiles “Tavriia”, “Slavuta” ZAZ-1102, ZAZ 1103, ZAZ 11-05 and their modifications. Design, operation, repair, repair manual]. T.A.Shlenchik (Ed.). Chernigiv: PKF “Ranok” [in Russian].

Kashtanov V.P., Titov V.V., Uskov A.F. (1983). Svintsovyie starternyie akkumuliatornyie batarei. Rukovodstvo [Lead starter batteries. Manual]. Moscow [in Russian].

Kurzukov N.I., Yagniatinskii V.M. (2008). Akkumuliatornyie batarei. Kratkii spravochnik. [Storage batteries. Quick reference book]. Moscow: LLC “Book publishing house “Za rulem” [in Russian].

Bernshtein A.S. (1956). Termoelektricheskiie generatory. Massovaia radio biblioteka. Vypusk 252 [Thermoelectric generators. Mass radio library. Issue 252]. Moscow; Leningrad; Gosenergoizdat [in Russian].

State Standards Committee of the USSR. Wire made of chromel, alumel, kopel and constantan alloys for thermoelectrodes of thermoelectric converters. Technical Specifications.

GOST 1790-77.

How to Cite

Dmytrychenko, M., Gutarevych, Y., Trifonov, D., & Syrota, O. (2024). The use of thermoelectric energy converters to reduce the influence of natural and climatic factors on the technical readiness of a vehicle. Journal of Thermoelectricity, (3), 58–70. Retrieved from http://jte.ite.cv.ua/index.php/jt/article/view/55

Issue

Section

Thermoelectric products

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