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These works are licensed under a Creative Commons Attribution 4.0 International License. A.S. Afanas’ev, M.A. Boldyrev, P.S. Vorontsov, V.M. Suslov, Yu.T. Kotov, V.K. Voronitsin, A.A. Kamusin Complete text of the article:Download article (pdf, 0.7MB )UDС621.316DOI:10.17238/issn0536-1036.2019.1.161AbstractToday the logging industry is very profitable and its products are highly-demanded. However, the operating conditions of vehicles in the Russian logging areas correspond to the 3rd – 5th operation categories. Topical issues connected with the vehicle operation in the cold period. It applies to power supply systems to the full extent. High-power lithium chemical current sources, which ensure reliable operation of logging vehicles and samples of special vehicles under difficult operating conditions, can be a base for the power supply systems. In comparison with traditional electrochemical systems (nickel-cadmium, nickel-metal hydride and lead-acid), lithium-ion batteries have such advantages as high voltage, and energy density, broad range of operating temperatures, long shelf life. However, these current sources have a number of drawbacks; one of which is risk of fire and explosion, i.e. the possibility of uncontrolled chemical reactions in certain conditions leading to flame development and detonation. The article shows the importance of usage electronic means of protection in high-power lithium-ion batteries; control and management systems with passive and active balancing of batteries; offered recommendations for their use. The results of testing an experimental sample of a lithium-ion starter battery are presented.AuthorsA.S. Afanas’ev1, Candidate of Engineering SciencesM.A. Boldyrev1, Senior Research Scientist P.S. Vorontsov1, Research Scientist V.M. Suslov1, Candidate of Engineering Sciences, Leading Research Scientist Yu.T. Kotov2, Doctor of Engineering Sciences, Professor V.K. Voronitsyn2, Candidate of Engineering Sciences, Head of Department A.A. Kamusin2, Doctor of Engineering Sciences, Professor Affiliation1Branch of the 46th Central Rеsearch Institute of the Russian Defense Ministry,ul. Komarova, 13, Mytishchi, Moscow Region, 141006, Russian Federation; е-mail: hit-el@mail.ru 2Bauman Moscow State Technical University, Mytishchi Branch, 1-ya Institutskaya ul., 1, Mytishchi, Moscow Region, 141005, Russian Federation; e-mail: kotov46@inbox.ru, vo-ronitsyn@mgul.ac.ru Keywordscontrol and management systems, high-power lithium-ion battery, fire and explosion safety, passive and active balancingFor citationAfanas’ev A.S., Boldyrev M.A, Vorontsov P.S., Suslov V.M., Kotov Yu.T., Voronitsyn V.K., Kamusin A.A. The Control and Management System of High-Power Lithium-Ion Batteries. Lesnoy Zhurnal [Forestry Journal], 2019, no. 1, pp. 161–170. DOI: 10.17238/issn0536-1036.2019.1.161References1. Ganzburg M.F., Gruzdev A.I., Kuzovkov A.V., Trofimenko V.I. Printsipy postroyeniya sistem kontrolya i zashchity litiy-ionnykh akkumulyatornykh batarey [Design Concepts of Monitoring and Protection Systems of Lithium-Ion Batteries]. Fizicheskiye problemy vodorodnoy energetiki: tez. dokl. V ros. konf., Sankt-Peterburg, 16–18 noyab. 2009 g. [Physical Issues of Hydrogen Energy: Proceedings of the 5th Russian Conf., Saint Petersburg, November 16–18, 2009]. Saint Petersburg, 2009, pp. 205–206.2. Gorbunov A.A., Burgonutdinov A.M., Burmistrova O.N., Timokhova O.M. K voprosu uvelicheniya sroka sluzhby raboty lesovoznogo avtomobil’nogo transporta v surovykh klimaticheskikh usloviyakh [To the Issue of Increasing the Service Life of Logging Transport in Harsh Climate]. Fundamental’nyye issledovaniya [Fundamental Re-search], 2015, no. 2-10, pp. 2092–2098. 3. Kotikov V.M., Egorov L.I., Erkhov A.V., Kulikov M.I. Teoriya i konstruktsiya mashin i oborudovaniya otrasli (Kolesnyye i gusenichnyye lesnyye mashiny). T. 1. Dvigateli vnutrennego sgoraniya: ucheb. [Theory and Design of Machines and Equipment of the Industry (Wheeled and Tracked Forest Vehicles). Vol. 1. Internal Combustion Engines: Textbook]. Moscow, MGUL Publ., 2007. 353 p. (In Russ.) 4. Protokoly ispytaniy № 2-2014, 3-2014, 4-2014 ispytatel’noy laboratorii Filiala FGBU «46 TSNII» Minoborony Rossii [Testing Records no. 2-2014, 3-2014, 4-2014 of the Testing Laboratory of Branch of the 46th Central Scientific Research Institute, Ministry of Defense, Russia]. Mytishchi, 2014. 5. Rumyantsev A.M., Rykovanov A.S., Belyayev S.S. Sovremennyye litiy-ionnyye akkumulyatory. Batarei na ikh osnove [Modern Lithium-Ion Batteries. Batteries Based on Them]. Komponenty i tekhnologii [Components and Technologies], 2015, no. 5, pp. 96–100. 6. Rykovanov A. Sistemy balansa Li-ion akkumulyatornykh batarey [Balance Systems of Li-ion Batteries]. Silovaya Elektronika [Power Electronics], 2009, no. 1, pp. 52–55. 7. Sadovnikov A.V., Makarchuk V.V. Litiy-ionnyye akkumulyatory [Lithium-Ion Batteries]. Molodoy uchenyy [Young Scientist], 2016, no. 23, pp. 84–89. 8. Silayev G.V. Traktory i avtomobili s osnovami tekhnicheskoy mekhaniki: ucheb. dlya vuzov [Tractors and Automobiles with the Basics of Engineering Mechanics: Textbook for Universities]. Moscow, MGUL Publ., 2009. 370 p. (In Russ.) 9. Taganova A.A. Sovremennyy rynok germetichnykh akkumulyatorov dlya portativnoy apparatury [Modern Market of Sealed Batteries for Portable Equipment]. Sovremen-naya elektronika, 2009, no. 1, pp. 10–12. 10. Taganova A.A., Bubnov Yu.I., Orlov S.B. Germetichnyye khimicheskiye istochniki toka: elementy i akkumulyatory. Oborudovaniye dlya ispytaniy i ekspluatatsii: spravochnik [Sealed Chemical Current Sources: Elements and Batteries. Equipment for Testing and Operation: Handbook]. Saint Petersburg, Khimizdat Publ., 2005. 264 p. (In Russ.) 11. Gao H.-Q., Zhang Z.-A., La Y.-Q., Li J., Liu Y.-X. J. Cent. S. University Technol. Sci. And Technol. Mining and Met., 2008, vol. 15, no. 6. 830 p. 12. Wen S. Cell Balancing Buys Extra Run Time and Battery Life. Analog Applications Journal, 2009, 1Q, pp. 14–18. Available at: http://www.ti.com/lit/an/slyt322/ slyt322.pdf (accessed 17.10.18). 13. 電子デバイス・産業用機器 [Electronic Devices/Industrial Equipment]. Panasonic Site. Available at: http://industrial.panasonic.com/jp/ (accessed 17.10.18). Received on October 17, 2018 The Control and Management System of High-Power Lithium-Ion Batteries |
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