ОСНОВНИ РЕЖИМИ НА ЗАРЯД НА ТЯГОВИ АКУМУЛАТОРИ
Ключови думи :
акумулаторни батерии, концентрационна поляризация, електрохимична поляризация, омична поляризация, режими на зарядАбстракт
В студията е направено проучане и са анализирани различните фактори, указващи влияние върху производителността на съвременните тягови батерии. Разгледани са детайлно поляризационните процеси настъпващи по време на заряд и разряд в оловните тягови батерии, влиянието на температурата и концентрацията на електролита. Анализирани са съвременните техники за безопасен и бърз заряд на АБ. За всеки режим са посочени съответните предимства и недостатъци.
Сваляния
Данните за свалянията все още не са налични.
Литература (библиография)
[1] A. Kiehne, H, Battery technology handbook - second edition, Marcel Dekker Inc, 2003.
[2] A. Kirchev and D. Pavlov, "Influence of temperature and electrolyte saturation on rate and efficiency of oxygen cycle in VRLAB," Journal of Power Sources, vol. 162, 2006, pp. 864-869.
[3] A. Kirchev, A. Delaille, F. Karoui, M. Perrin, E. Lemaire, and F. Mattera, "Studies of the pulse charge of lead-acid batteries for PV applicationsPart III. Electrolyte concentration effects on the electrochemical performance of the positive plate," Journal of Power Sources, vol. 179, 2008, pp. 808-818.
[4] A. Kirchev, A. Delaille, M. Perrin, E. Lemaire, and F. Mattera, "Studies of the pulse charge of lead-acid batteries for PV applicationsPart II. Impedance of the positive plate revisited," Journal of Power Sources, vol. 170, 2007, pp. 495-512.
[5] A. Kirchev, F. Mattera, E. Lemaire, and K. Dong, "Studies of the pulse charge of lead-acid batteries for photovoltaic applicationsPart IV. Pulse charge of the negative plate," Journal of Power Sources, vol. 191, 2009, pp. 82-90.
[6] A. Kirchev, M. Perrin, E. Lemaire, F. Karoui, and F. Mattera, "Studies of the pulse charge of lead-acid batteries for PV applicationsPart I. Factors influencing the mechanism of the pulse charge of the positive plate," Journal of Power Sources, vol. 177, 2008, pp. 217-225.
[7] A.P. Soares, M.F. Rosolem, L.A. Soares, G.R. dos Santos, P.T. Frare, R.F. Beck, and V.T. Arioli, "Storage impact in VRLA batteries life," INTELEC 2008 - 2008 IEEE 30th International Telecommunications Energy Conference, IEEE, 2008, pp. 1-8.
[8] B. Dickinson and J. Gill, "Issues and benefits with fast charging industrial batteries," Fifteenth Annual Battery Conference on Applications and Advances (Cat. No.00TH8490), IEEE, 2000, pp. 223-229.
[9] C. Alaoui and Z. Salameh, "Experiments in fast charging lead acid electric vehicle batteries," 2003 IEEE 58th Vehicular Technology Conference. VTC 2003-Fall (IEEE Cat. No.03CH37484), IEEE, 2003, pp. 3326-3331.
[10] C. Hua and M. Lin, "A study of charging control of lead-acid battery for electric vehicles," ISIE'2000. Proceedings of the 2000 IEEE International Symposium on Industrial Electronics (Cat. No.00TH8543), IEEE, 2000, pp. 135-140.
[11] D. Linden and T.B. Reddy, Handbook of batteries - third edition, McGraw – Hill, 2001.
[12] D. Pavlov, "Thermal phenomena during operation of the oxygen cycle in VRLAB and processes that cause them," Journal of Power Sources, vol. 158, 2006, pp. 964-976.
[13] D. Pavlov, B. Monahov, A. Kirchev, and D. Valkovska, "Thermal runaway in VRLAB—Phenomena, reaction mechanisms and monitoring," Journal of Power Sources, vol. 158, 2006, pp. 689-704.
[14] J. Marcos, J. Dios, A. Cao, J. Doval, C. Penalver, A. Nogueiras, A. Lago, and F. Poza, "Fast Lead-Acid Battery Charge Strategy," Twenty-First Annual IEEE Applied Power Electronics Conference and Exposition, 2006. APEC '06., IEEE, 2006, pp. 610-613.
[15] M. Gitau and G. Ebersohn, "Effects of charging algorithm and converter topology on energy efficiency," AFRICON 2009, IEEE, 2009, pp. 1-6.
[16] M. Jongerden and B. Haverkort, "Which battery model to use?," IET Software, vol. 3, 2009, pp. 445-457.
[17] N. Pinsky, J. Argueta, T. Knipe, V. Grosvenor, L. Gaillac, M. Merchant, and A. Cabrera, "Fast charge of lead acid batteries at the SCE EV Tech Center," Fifteenth Annual Battery Conference on Applications and Advances (Cat. No.00TH8490), IEEE, 2000, pp. 231-236.
[18] S. Lu, K. Corzine, and M. Ferdowsi, "High Efficiency Energy Storage System Design for Hybrid Electric Vehicle with Motor Drive Integration," Conference Record of the 2006 IEEE Industry Applications Conference Forty-First IAS Annual Meeting, IEEE, 2006, pp. 2560-2567.
[19] T.K. Cheung, K.W. Cheng, H.L. Chan, Y.L. Ho, H.S. Chung, and K.P. Tai, "Maintenance techniques for rechargeable battery using pulse charging," 2006 2nd International Conference on Power Electronics Systems and Applications, IEEE, 2006, pp. 205-208.
[20] U. Schwalbe, M. Scherf, T. Reimann, and G. Deboy, "Advantages of 3-stage-DC/DC-converters for Server Switch Mode Power Supply (SMPS) applications," 2007 European Conference on Power Electronics and Applications, IEEE, 2007, pp. 1-10.
[21] Y.S. Chu, Y. Chen, T.J. Liang, S. Changchien, and J. Chen, "Positive/negative pulse battery charger with energy feedback and power factor correction," Twentieth Annual IEEE Applied Power Electronics Conference and Exposition, 2005, APEC 2005, IEEE, 2005, pp. 986-990 vol.2.
[22] Z. Du, B. Ozpineci, L.M. Tolbert, and J.N. Chiasson, "DC–AC Cascaded H-Bridge Multilevel Boost Inverter With No Inductors for Electric/Hybrid Electric Vehicle Applications," IEEE Transactions on Industry Applications, vol. 45, 2009, pp. 963-970.
[23] Z.M. Salameh and B.G. Kim, "Advanced lithium polymer batteries," 2009 IEEE Power & Energy Society General Meeting, IEEE, 2009, pp. 1-5.
[2] A. Kirchev and D. Pavlov, "Influence of temperature and electrolyte saturation on rate and efficiency of oxygen cycle in VRLAB," Journal of Power Sources, vol. 162, 2006, pp. 864-869.
[3] A. Kirchev, A. Delaille, F. Karoui, M. Perrin, E. Lemaire, and F. Mattera, "Studies of the pulse charge of lead-acid batteries for PV applicationsPart III. Electrolyte concentration effects on the electrochemical performance of the positive plate," Journal of Power Sources, vol. 179, 2008, pp. 808-818.
[4] A. Kirchev, A. Delaille, M. Perrin, E. Lemaire, and F. Mattera, "Studies of the pulse charge of lead-acid batteries for PV applicationsPart II. Impedance of the positive plate revisited," Journal of Power Sources, vol. 170, 2007, pp. 495-512.
[5] A. Kirchev, F. Mattera, E. Lemaire, and K. Dong, "Studies of the pulse charge of lead-acid batteries for photovoltaic applicationsPart IV. Pulse charge of the negative plate," Journal of Power Sources, vol. 191, 2009, pp. 82-90.
[6] A. Kirchev, M. Perrin, E. Lemaire, F. Karoui, and F. Mattera, "Studies of the pulse charge of lead-acid batteries for PV applicationsPart I. Factors influencing the mechanism of the pulse charge of the positive plate," Journal of Power Sources, vol. 177, 2008, pp. 217-225.
[7] A.P. Soares, M.F. Rosolem, L.A. Soares, G.R. dos Santos, P.T. Frare, R.F. Beck, and V.T. Arioli, "Storage impact in VRLA batteries life," INTELEC 2008 - 2008 IEEE 30th International Telecommunications Energy Conference, IEEE, 2008, pp. 1-8.
[8] B. Dickinson and J. Gill, "Issues and benefits with fast charging industrial batteries," Fifteenth Annual Battery Conference on Applications and Advances (Cat. No.00TH8490), IEEE, 2000, pp. 223-229.
[9] C. Alaoui and Z. Salameh, "Experiments in fast charging lead acid electric vehicle batteries," 2003 IEEE 58th Vehicular Technology Conference. VTC 2003-Fall (IEEE Cat. No.03CH37484), IEEE, 2003, pp. 3326-3331.
[10] C. Hua and M. Lin, "A study of charging control of lead-acid battery for electric vehicles," ISIE'2000. Proceedings of the 2000 IEEE International Symposium on Industrial Electronics (Cat. No.00TH8543), IEEE, 2000, pp. 135-140.
[11] D. Linden and T.B. Reddy, Handbook of batteries - third edition, McGraw – Hill, 2001.
[12] D. Pavlov, "Thermal phenomena during operation of the oxygen cycle in VRLAB and processes that cause them," Journal of Power Sources, vol. 158, 2006, pp. 964-976.
[13] D. Pavlov, B. Monahov, A. Kirchev, and D. Valkovska, "Thermal runaway in VRLAB—Phenomena, reaction mechanisms and monitoring," Journal of Power Sources, vol. 158, 2006, pp. 689-704.
[14] J. Marcos, J. Dios, A. Cao, J. Doval, C. Penalver, A. Nogueiras, A. Lago, and F. Poza, "Fast Lead-Acid Battery Charge Strategy," Twenty-First Annual IEEE Applied Power Electronics Conference and Exposition, 2006. APEC '06., IEEE, 2006, pp. 610-613.
[15] M. Gitau and G. Ebersohn, "Effects of charging algorithm and converter topology on energy efficiency," AFRICON 2009, IEEE, 2009, pp. 1-6.
[16] M. Jongerden and B. Haverkort, "Which battery model to use?," IET Software, vol. 3, 2009, pp. 445-457.
[17] N. Pinsky, J. Argueta, T. Knipe, V. Grosvenor, L. Gaillac, M. Merchant, and A. Cabrera, "Fast charge of lead acid batteries at the SCE EV Tech Center," Fifteenth Annual Battery Conference on Applications and Advances (Cat. No.00TH8490), IEEE, 2000, pp. 231-236.
[18] S. Lu, K. Corzine, and M. Ferdowsi, "High Efficiency Energy Storage System Design for Hybrid Electric Vehicle with Motor Drive Integration," Conference Record of the 2006 IEEE Industry Applications Conference Forty-First IAS Annual Meeting, IEEE, 2006, pp. 2560-2567.
[19] T.K. Cheung, K.W. Cheng, H.L. Chan, Y.L. Ho, H.S. Chung, and K.P. Tai, "Maintenance techniques for rechargeable battery using pulse charging," 2006 2nd International Conference on Power Electronics Systems and Applications, IEEE, 2006, pp. 205-208.
[20] U. Schwalbe, M. Scherf, T. Reimann, and G. Deboy, "Advantages of 3-stage-DC/DC-converters for Server Switch Mode Power Supply (SMPS) applications," 2007 European Conference on Power Electronics and Applications, IEEE, 2007, pp. 1-10.
[21] Y.S. Chu, Y. Chen, T.J. Liang, S. Changchien, and J. Chen, "Positive/negative pulse battery charger with energy feedback and power factor correction," Twentieth Annual IEEE Applied Power Electronics Conference and Exposition, 2005, APEC 2005, IEEE, 2005, pp. 986-990 vol.2.
[22] Z. Du, B. Ozpineci, L.M. Tolbert, and J.N. Chiasson, "DC–AC Cascaded H-Bridge Multilevel Boost Inverter With No Inductors for Electric/Hybrid Electric Vehicle Applications," IEEE Transactions on Industry Applications, vol. 45, 2009, pp. 963-970.
[23] Z.M. Salameh and B.G. Kim, "Advanced lithium polymer batteries," 2009 IEEE Power & Energy Society General Meeting, IEEE, 2009, pp. 1-5.
Файлове за сваляне
Публикуван
2018-05-22
Брой
Раздел (Секция)
Компютърни науки и комуникации - рецензирани публикации. ISSN: 1314-7846
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Статиите публикувани в списание КНК са лицензирани под Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
Как да цитирате
ОСНОВНИ РЕЖИМИ НА ЗАРЯД НА ТЯГОВИ АКУМУЛАТОРИ. (2018). КОМПЮТЪРНИ НАУКИ И КОМУНИКАЦИИ, 4(2), 45-58. https://csc.bfu.bg/index.php/CSC/article/view/95