5 TONNALIK YUKLARNI SAMARALI TASHISH UCHUN ELEKTR YUK AVTOMOBILLARINING BATAREYASINI OPTIMALLASHTIRISH

Authors

  • Ashuraliyev Eldorjon Shamsiddin o‘g‘li Author
  • Kadirshayev Turgunbay, Author
  • Valiyev Jamshid Author

Abstract

Har xil turdagi elektr yuk mashinalarini ishlab chiqarish dunyo miqyosida dizel yoqilg'isi bilan ishlaydigan avtomobillar chiqaradigan zararli va zaharli gazlar tufayli ortib bormoqda. Ushbu muammoning asosiy yechimi elektr yuk mashinalarini (nol emissiyali transport vositalari) keng miqyosda qabul qilishdir. Bundan tashqari, elektr yuk mashinalari dizel yoqilg'isi bilan ishlaydigan yuk mashinalariga qaraganda ancha arzonroq bo‘lgan afzalliklarga ega.

Ushbu maqolada bir nechta zamonaviy elektr yuk mashinalarida ishlatiladigan batareyalar tahlil qilinib, ularning asosiy afzalliklari va kamchiliklari ko'rsatilgan. Shuningdek, u 5 tonnalik yuklarni samarali tashish uchun elektr yuk mashinalari uchun eng maqbul turdagi va eng yaxshi quvvatli akkumulyatorlarni tavsiya qiladi. Elektr transport vositalarida ishlatiladigan akkumulyatorlarning xilma-xilligi ortib borayotganligi sababli, ushbu maqola akkumulyatorning ishlashi va tegishli parametrlarni, jumladan sig'imi va zaryad holatini (SoC) matematik tavsifini beradi.

Downloads

Download data is not yet available.

References

Jian Duan, Xuan Tang, Haifeng Dai, Ying Yang, Wangyan Wu, Xuezhe Wei, Yunhui Huang1Building Safe Lithium Ion Batteries for Electric Vehicles: A Review. Electrochemical Energy Reviews (2020) 3:1–42, https://doi.org/10.1007/s41918-019-00060-4.

Wen, J.W., Yu, Y., Chen, C.H.: A review on lithium-ion batteries safety issues: existing problems and possible solutions.Mater. Express 2, 197–212 (2012). https ://doi.org/10.1166/mex.2012.1075

Zhang, R., Zheng, Y., Duan, J., et al.: Batteries for electric vehicles: opportunities and challenges. Science 358, 10–13 (2017).(special issue)

34. Minggao, O., Ren, D.S., Lu, L.G., et al.: Overcharge-induced capacity fading analysis for large format lithium-ion batteries with LiyNi1/3Co1/3Mn1/3O2 + LiyMn2O4 composite cathode. J.Power Sources 279, 626–635 (2015). https ://doi.org/10.1016/j.jpowsour.2015.01.051

35. Zeng, Y.Q., Wu, K., Wang, D.Y., et al.: Overcharge investigation of lithium-ion polymer batteries. J. Power Sources 160, 1302–1307 (2006). https ://doi.org/10.1016/j.jpowsour.2006.02.009

Zhou, D.; Ravey, A.; Gao, F.; Miraoui, A.; Zhang, K. Online Estimation of Lithium Polymer Batteries State-of-Charge Using Particle Filter-Based Data Fusion with Multimodels Approach. IEEE Trans. Ind. Appl. 2016, 52, 2582–2595.

A. Goodarzi, and M. Alirezaei, “Integrated Fuzzy/Optimal Vehicle Dynamic Control,” International Journal of Automotive Technology, 10(5) (2009).

Aleksandra Baczy ґ nska, Waldemar Niewiadomski, Ana Gonзalves, Paulo Almeida and Ricardo Luнs. Li-NMC Batteries Model Evaluation with Experimental Data for Electric Vehicle Application. Batteries 2018, 4, 11; doi:10.3390/batteries4010011

Sangwan, V.; Sharma, A.; Kumar, A.; Rathore, A.K. Equivalent circuit model parameters estimation of Li-ion battery: C-rate, SOC and temperature effects. In Proceedings of the (PEDES), Trivandrum, India, 14–17 December 2017.

Cheng, P.; Zhou, Y.; Song, Z. Modeling and SOC estimation of LiFePO4 battery. In Proceedings of the IEEE International Conference on Robotics and Biomimetics (ROBIO), Qingdao, China, 3–7 December 2016.

Wang, D.; Bao, Y.; Shi, J. Online Lithium-Ion Battery Internal Resistance Measurement Application in State-of-Charge Estimation Using the Extended Kalman Filter. Energies 2017, 10, 1284, doi:10.3390/en10091284.

Jackey, R.; Saginaw,M.; Sanghvi, P.; Gazzarr, J. BatteryModel Parameter EstimationUsing a Layered Technique: An Example Using a Lithium Iron Phosphate Cell. SAE International 2013, doi:10.4271/2013-01-1547

Downloads

Published

2024-06-03

Issue

Vol. 12 No. 6 (2024): FIJESH

Section

Articles