纯电动汽车直流动力电缆儿童电磁暴露安全评估*

doi:10.19562/j.chinasae.qcgc.2019.06.013

Abstract

Abstract: To assess the level of child occupant exposure to electromagnetic field generated by DC power cables in battery electric vehicles, the models for passenger compartment, child body and DC power cables are established with finite element software Comsol Multiphysics, based on basic principle of electromagnetic dosimetry. A simulation on the models is conducted to analyze the magnetic flux density in different tissues of child body sitting on the different positions of compartment, which are then compared with the guidelines of International Commission on Non-Ionizing Radiation Protection (ICNIRP). The results show that in general low speed drive with a cable current of 27 A, the maximum magnetic flux density in child body tissues at different sitting position is: 0.18 μT (front passenger seat), 0.182 μT (left back seat), 1.26 μT (middle back seat), and 17.8 μT (right back seat) respectively, while in high-speed cruise drive with a cable current of 150 A, the corresponding maximum magnetic flux densities are around 5.5 times as high as that at low-speed drive. However, these levels are still far below the limit values recommended by ICNIRP, indicating that the magnetic flux density generated in passenger compartment by DC power cable will not cause health risk to child occupant.

Key words: battery electric vehicle, electromagnetic dosimetry, child body model, magnetic flux density

Dong Xuwei, Lu Mai. Safety Assessment of Child Occupant Exposure to Electromagnetic Field Generated by DC Power Cable in Battery Electric Vehicles[J].Automotive Engineering, 2019, 41(6): 696-702.

References

[1] 唐葆君,刘江鹏. 中国新能源汽车产业发展展望[J]. 北京理工大学学报:社会科学版,2015,17(2): 1-6.
[2] 陈清泉,孙立清. 电动汽车的现状和发展趋势[J]. 科技导报,2005,23(4): 24-28.
[3] 宋保林,陶银鹏. 纯电动汽车电机控制器传导性电磁干扰的抑制[J]. 汽车工程,2013,35(11): 996-999.
[4] 王亮,汤佩文,颜伟. 电动汽车充电桩对电能质量和电磁环境的影响[J]. 电源学报,2017,15(3):91-99.
[5] 纵卫卫,沈锡全,程木田. 电动汽车DC/DC变换器电磁干扰优化研究[J]. 工业控制计算机,2017,30(1):127-129.
[6] MORENO-TORRES CONCHA P,VELEZ P,LAFOZ M. Passenger exposure to magnetic fields due to the batteries of an electric vehicle[J]. IEEE Transaction on Vehicular Technology,2016(6):4564-4571.
[7] 张戟,王洪武,蔡浩雄. 电动汽车驱动系统EMC仿真研究[J]. 汽车工程,2014,36(5):580-585.
[8] KOROBSOVA V,MOROZOV Y,STOLOROV M. Influence of the electric field in 500 and 750 kV switchyards on maintenance staff and means for its protection[C]. International Conference on High-tension Electric Systems,Paris,France,1972: 23-26.
[9] LU M,UENO S. Deep transcranial magnetic stimulation using figure-of-eight and halo coils[J]. IEEE Tranactions on Magnetics,2015,51(11): 5101204-1-4.
[10] LU M,UENO S. Dosimetry of exposure of patients to pulsed gradient magnetic fields in MRI[J]. IEEE Transactions on Magnetics,2011,47(10): 3841-3844.
[11] 徐桂芝,李晨曦,赵军. 电动汽车无线充电电磁环境安全性研究[J]. 电工技术学报,2017,32(22):152-157.
[12] 田瑞,逯迈. 高速动车组动力电缆对车厢内乘客的低频电磁暴露水平仿真及其健康评估[J]. 高电压技术,2016,42(8):2540-2548.
[13] 牛中奇,侯建强,周永军. 生物电磁剂量学及人体吸收电磁剂量的数值分析[J]. 中国生物医学工程学报,2006,25(5):580-584.
[14] 赵立军,佟钦智. 电动汽车结构与原理[M]. 北京:北京大学出版社,2012: 31-61.
[15] 张毅. 纯电动轿车动力总成控制系统的研究[D]. 上海: 上海交通大学,2007:131-137.
[16] 中国未成年人人体尺寸:GB/T 26158—2010[S].北京: 中国标准出版社,2011.
[17] SCHWAN H P,KAY C F. The conductivity of living tissues[J]. Annals of the New York Academy of Sciences,1957,65(6): 1007-1013.
[18] GABRIEL C,GABRIEL S,CORTHOUT E. The dielectric properties of biological tissues: I. literature survey[J]. Physics in Medicine and Biology,1996,41(11): 2231-2249.
[19] HURT W D. Multiterm debye dispersion relations for permittivity of muscle [J]. IEEE Transactions on Biomedical Engineering,1985(1): 60-64.
[20] 袁国良. 电磁场与电磁波[M]. 北京:清华大学出版社,2008: 50-57.
[21] The International Commission on Non-Ionizing Radiation Protection (ICNIRP). Guidelines on limiting exposure to static magnetic fields[J]. Health Physics,2009,96(4):504-514.

[1]	SHEN Zhe, WANG Yi-Gang, YANG Zhi-Gang, LI Fang-Xu. [J]. , 2016, 38(12): 1440 -1445 .
[2]	ZENG Bi-Qiang, GAO Ji-Dong, PENG Wei, SUN Zhen-Dong. [J]. , 2016, 38(12): 1446 -1451 .
[3]	LIU Hui, WANG Xiao-Jie, XIANG Chang-Le. [J]. , 2016, 38(12): 1483 -1487 .
[4]	CHEN Wu-Wei, DENG Shu-Chao, HUANG He, XIE You-Hao. [J]. , 2016, 38(12): 1488 -1493 .
[5]	PENG Qian-Lei, GUI Liang-Jin, FAN Zi-Jie. [J]. , 2016, 38(12): 1500 -1507 .
[6]	DONG Zhu-Rong, ZHANG Xin, HU Song-Hua, QIU Hao. [J]. , 2017, 39(1): 79 -85 .
[7]	SHI Hai-Min, YU Xiao-Li, LU Guo-Dong, HUANG Yu-Qi, LIU Zhen-Tao, HUANG Rui. [J]. , 2017, 39(1): 102 -106 .
[8]	QIN Chao-Ju, YANG Zhen-Zhong, ZHANG Wei-Zheng, SONG Li-Ye, YUAN Yan-Peng. [J]. , 2017, 39(2): 133 -137 .
[9]	ZHANG Guan-Jun, ZHAO Xin-Feng, CAO Li-Bo. [J]. , 2017, 39(2): 150 -158 .
[10]	CAO Li-Bo, HU Yuan, YAN Ling-Bo, PENG Yu, SHI Xiang-南. [J]. , 2017, 39(2): 174 -180 .

Safety Assessment of Child Occupant Exposure to Electromagnetic Field Generated by DC Power Cable in Battery Electric Vehicles

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