Comprehensive Analysis of Electric Vehicles: State-of-Arts and Future Aspects
DOI:
https://doi.org/10.54097/hset.v27i.3841Keywords:
Electric vehicles, Topology, Battery, Electric machinery, Electric control.Abstract
In recent years, developing new energy vehicles has become a crucial approach for nations to address climate change. The United States, the United Kingdom, Japan, Germany, and China have implemented preferential policies for new energy vehicles to boost their development. In addition, several types of batteries and motors for electric vehicles fit diverse situations and market demands. This study extensively explores the major performance and crucial concerns of the key technologies for electrical vehicle application, including battery technologies, motor and pertinent control. Moreover, the future considerations for overcoming the constraints of state-of-arts are presented in this work.
Downloads
References
J. Gong, S. Huang, “Current situation and Prospect of electric vehicle motor drive system”, In: The 8th Academic Conference of China Electrotechnical Society, pp. 297-305, 2004.
Electric vehicle resources. “Popularizing basic knowledge of electric vehicle power system”, 2018.5.29, 2022.5.27, https://www.evpartner.com/news/18/detail36579.html
Y. Yin, J. Zhang, “Technical status and development trend of pure electric vehicle drive system”, Internal combustion engines and accessories, 2021(17), pp. 215-217. DOI: 10.19475/j.cnki. issn1674-957x. 2021.17.099.
Y. Wang, J. Li, “Development status of new energy electric”, Vehicles Science and technology information, 2012 (31), pp. 258+221
Y. Zhu, S. Wu, H. Shi, “British policies and measures to promote the development of electric vehicles and their experience for China”, Auto aspect, 2020 (10), pp. 54-60
H. Shi, X. Jian, Y. Huang, S. Wu, “Time Policies and measures to promote the development of electric vehicles in the United States”, Auto aspect, 2020 (06), pp. 50-54
H. Shi, S. Wu, Y. Li, L. Huo, J. Wang, “Policies and measures to promote the development of electric vehicles in Japan”, Auto aspect, 2019 (12), pp. 53-57
C. Liu, “Evaluation and analysis of German electric vehicle development policy”, International research reference, 2018 (01), pp. 20-24
R. Zhang, Y. Gu, “Research on supporting policies for electric vehicle promotion in China -- Taking the development of electric vehicles in Shanghai as an example”, Management observation, 2015(17), pp. 81-84
W. Chen, R. Huang, L. Chen, Y. Luo, “Overview of battery technology development of electric vehicles”, Journal of power supply, 2018,166-178 DOI:10.13234/j.issn. 2095-2805.2018.6.166.
Y. Liu, Y. Zheng, W. Sun, J. Zhu, “Overview of battery technology development of electric vehicles”, Machinery manufacturing, 2016,45 (04): 56-58 DOI:10.19344/j.cnki. issn1671-5276.20160913.001.
JiaheU, “Brief analysis of the classification and role of electric vehicle batteries”, July 19th ,2015. Retrieved on June 6th, 2022. Retrieved from: https://www.jiaheu.com/topic/62042.html
L. Zhang, X. Zhu, Y. Zuo, “Summary of rotor permanent magnet brushless motor and control system fault tolerance technology for electric vehicles”, China Electrical Engineering[J], 2019,39(06):1792-1802+1875. DOI:10.13334/j.0258-8013.pcsee.181699.
X. Pei, “Overview of electric vehicle drive motor” Internal combustion engines and accessories, 2017 (08): 124-125 DOI:10.19475/j.cnki. issn1674-957x. 2017.08.064.
JiaheU, “Brief analysis of the classification and role of electric vehicle batteries”, July 19th, 2015. Retrieved on June 6th, 2022. Retrieved from: https://www.jiaheu.com/topic/62042.html
Q. Yu, X. Shi, X. Wang, Z. Yang, “Electric vehicle technology development status and trend of electric vehicle electronic control system”, Public electricity, 2008 (05), pp. 36-37.
Downloads
Published
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
