|
Software systems and computational methods
Reference:
Korobeynikov A.G., Ptitsina N.G., Ismagilov V.S., Kopytenko Yu.A.
Calculation of the magnetic field topology in the electric vehicle using the phase-gradient
method
// Software systems and computational methods.
2013. ¹ 1.
P. 45-55.
URL: https://en.nbpublish.com/library_read_article.php?id=62448
Korobeynikov A.G., Ptitsina N.G., Ismagilov V.S., Kopytenko Yu.A. Calculation of the magnetic field topology in the electric vehicle using the phase-gradient
method
Abstract:
electrification of the read transport now days a priority in the development of science,
technology and engineering due to the many factors and risks such as climate change, health
of the people, energy dependence, cost of the raw materials. When operating the electric and
hybrid vehicles it is important to control the magnetic field in real time, for example, for fire and
electromagnetic safety. This article presents a developed method of magnetic field measurement
on board of the electric vehicle with consideration of the specific of these fields. The method is
based on the differential methods of measurement and minimizes the quantity of magnetometric
sensors.
Keywords:
Software, electric vehicle, magnetic field, electromagnetic safety, measurement of the magnetic field, phase-gradient method, differential measurement methods, road transport, ecology, health
This article can be downloaded freely in PDF format for reading. Download article
References
1. Grigor'ev Yu.G., Grigor'ev O.A., Stepanov V.S., Pal'tsev Yu.P. Elektromagnitnoe zagryaznenie okruzhayushchey sredy i zdorov'e naseleniya Rossiyu. M., 1997, 91 S.
2. NIEHS Working Group Report, Assessment of Health Effects from Exposure to Power-Line Frequency Electric and Magnetic Fields (Eds C.J. Portier, M.S. Wolfe) NIH Publ. No. 98-3981, 1998.
3. Ptitsyna N.G., Dzh. Villorezi, Dorman L.I., N. Yuchchi, Tyasto M.I. Estestvennye i tekhnogennye nizkochastotnye magnitnye polya kak faktory, potentsial'no opasnye dlya zdorov'ya//UFN (Uspekhi fizicheskikh nauk) – 1998, T. 168, ¹7, S. 767-791.
4. Grigor'ev Yu.G., Stepanov V.S., Grigor'ev O.A., Merkulov A.V. Elektromagnitnaya bezopasnost' cheloveka. Spravochno-informatsionnoe posobie. Rossiyskiy natsiona-l'nyy komitet po zashchite ot neioniziruyushchikh izlucheniy, 1999. 146 S.
5. Muc A.M., Electromagnetic Fields Associated with Transportation Systems, Radiation Health and Safety Consulting, Contract Report 4500016448, Air Health Effects Division, Healthy Environments and Consumer Safety Branch Health, Canada, 2002.
6. Schick M. and Jakobus U. Advanced EMC modeling features in FEKO for Automotive Problems. Proceedings of the 22th International Conference on Electromagnetic Compatiability “EMC Europe 2012”, Rome, Italy, 17– 21 September, 2012.
7. Ptitsyna N., Ponzetto A. Magnetic Fields Encountered in Electric Transport: Rail Systems, Trolleybus and Cars. Proceedings of the 22th International Conference on Electromagnetic Compatiability “EMC Europe 2012”, Rome, Italy, 17– 21 September, 2012.
8. Swiss Federal OfÞ ce of Public Health, Cars, hybrid cars, Technical Report, 2009 http://www. bag.admin.ch/themen/strahlung/00053/00673/02377/index.html?lang =en. Poslednyaya data obrashcheniya – 05.11.2012 g.
9. Vedholm, K., and Hamnerius, Y.K., 1997. “Personal Exposure Resulting from Low Level Low Frequency Electromagnetic Fields in Automobiles,” Abstract F-9, Second World Congress for Electricity and Magnetism in Medicine and Biology, June 8-13, Bologna, Italy, 1997.
10. Farag A.S., H. Hussain, I. Said, M. Abdel Kader, N. Abdul Rahman. Electromagnetic Fields Associated with Transportation Systems in Malaysia. Proceedings of the International Conference on Non-Ionizing Radiation at UNITEN (ICNIR 2003) Electromagnetic Fields and Our Health, October 2003.
11. Ptitsyna N.G., Villoresi G. and Kopytenko Yu.A. Magnetic Þ elds from railway: environmental aspects. In “Railway Transportation: Policies, Technology and Perspectives”, ed. by F. Columbus, N.Y., Novapublishers. 2009.
12. Ptitsyna N.G., Villorezi Dzh., Kopytenko Yu.A. Tyasto M.I. Magnitnye polya na elektrotransporte i ekologiya cheloveka. Sankt-Peterburg, Izd.Nestor-Istoriya. 2010. S. 120.
13. Halgamuge, M. N., C. D. Abeyrathne and P. Mendis. Measurements performed in electric trains – Comparison with ICNIRP Limit & Laboratory Experiments. “Measurement and Analysis of Electromagnetic Fields from Trams, Trains and Hybrid Cars”, Radiation Protection Dosimetry, Vol. 141, Issue 3, pp 255-268, 2010.
14. Ptitsyna N.G., Y.A. Kopytenko, G. Villoresi, D.H. Pfluger, V. Ismaguilov, N. Iucci, E.A. Kopytenko, D.B. Zaitzev, P.M. Voronov, M.I Tyasto. Waveform Magnetic Field Survey in Russian DC– and Swiss AC-powered Trains: a Basis for Biologically Relevant Exposure Assessment. Bioelectromagnetics. 24, 546-556. 2003.
15. Kopytenko Yu.A., Ismagilov V.S., Kopytenko E.A., Voronov P.M., Zaytsev D.B. Magnitnaya lokatsiya istochnikov geomagnitnykh vozmushcheniy//DAN /seriya “Geofizika”. 2000. T. 371. ¹ 5. S. 685-687.
16. Ismaguilov V.S., Kopytenko Yu.A., Hattori K., P. M. Voronov, O. A. Molchanov, and M. Hayakawa. ULF Magnetic Emissions Connected with Under Sea Bottom Earthquakes // Natural Hazards and Earth Sys. Sci. V. 1. P. 1-9. 2001.
17. Ismaguilov V.S., Kopytenko Yu.A., Hattori K., Hayakawa M. Variations of phase velocity and gradient values of ULF geomagnetic disturbances connected with the Izu strong earthquakes // Natural Hazards and Earth Sys. Sci. V.20. P.1-5. 2002.
18. Kopytenko Yu.A., Ismagilov V. S., K. Hattori, M. Hayakawa. Investigation of the ULF electromagnetic phenomena related to earthquakes: contemporary achievements and the perspectives // Annali di GeoÞ sika. V. 44. ¹ 2. P. 325-334. 2001.
19. Ismagilov V. S., Yu. A. Kopytenko, K. Khattori, M. Khayakava. Ispol'zovanie gra-dien tov i fazovykh skorostey UNCh geomagnitnykh vozmushcheniy dlya opredeleniya mestopolozheniya ochaga budushchego sil'nogo zemletryaseniya. Geomagnetizm i Aeronomiya, t.46, ¹3, str.423-430, 2006.
20. Korobeynikov A.G., Kopytenko Yu.A., Ismagilov V.S. Intellektual'nye informa-tsionnye sistemy magnitnykh izmereniy//Nauchno-tekhnicheskiy vestnik SPb GU ITMO– SPb: SPbGU ITMO, 2011, 1(71)– s.39-44.
21. Snyder M. Magnetic Shielding for Electric Vechicles. Program Review. Contract DAAE07-93-C-R107. Army TACOM, Chrysler Corp. 1995
|