留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

井下磁耦合无线电能传输系统的全谐振特性分析

张莲 杨洪杰 经廷伟 李涛 张路

张莲, 杨洪杰, 经廷伟, 等. 井下磁耦合无线电能传输系统的全谐振特性分析[J]. 工矿自动化, 2022, 48(2): 83-92. doi: 10.13272/j.issn.1671-251x.2021110064
引用本文: 张莲, 杨洪杰, 经廷伟, 等. 井下磁耦合无线电能传输系统的全谐振特性分析[J]. 工矿自动化, 2022, 48(2): 83-92. doi: 10.13272/j.issn.1671-251x.2021110064
ZHANG Lian, YANG Hongjie, JING Tingwei, et al. Analysis of full resonance characteristics of underground magnetic coupling wireless power transfer system[J]. Industry and Mine Automation, 2022, 48(2): 83-92. doi: 10.13272/j.issn.1671-251x.2021110064
Citation: ZHANG Lian, YANG Hongjie, JING Tingwei, et al. Analysis of full resonance characteristics of underground magnetic coupling wireless power transfer system[J]. Industry and Mine Automation, 2022, 48(2): 83-92. doi: 10.13272/j.issn.1671-251x.2021110064

井下磁耦合无线电能传输系统的全谐振特性分析

doi: 10.13272/j.issn.1671-251x.2021110064
基金项目: 

重庆市教委科学技术研究项目(KJQN201801142,KJQN202001144);重庆市技术创新与应用发展专项面上项目(cstc2019jscx-msxmX0003)。

详细信息
    作者简介:

    张莲(1967-),女,重庆人,教授,硕士,主要研究方向为电气控制技术、电气设备状态监测等,E-mail:zh_lian@cqut.edu.cn。

    通讯作者:

    张路(1986-),男,重庆人,讲师,博士,主要研究方向为无线电能传输技术等,E-mail:road@cqut.edu.cn。

  • 中图分类号: TD60

Analysis of full resonance characteristics of underground magnetic coupling wireless power transfer system

  • 摘要: 在井下应用磁耦合无线电能传输(MC-WPT)系统供电时,如果系统参数配置不当会引起系统输入阻抗呈非纯阻性,从而造成系统失谐,影响井下电力设备的供电效率。MC-WPT系统二次侧采用串联补偿(S)时易于实现谐振,但在二次侧采用并联补偿(P)时,现有研究都是在系统仅一次侧谐振、二次侧未谐振导致系统未全谐振的基础上进行的。针对上述问题,提出了一种MC-WPT系统的全谐振补偿方式。以SP型、PP型、LCC-P型和LCL-P型补偿拓扑作为二次侧并联MC-WPT系统研究对象,利用阻抗分析法得到系统处于全谐振状态的参数约束关系,并采用Matlab/Simulink对传统补偿方式和全谐振补偿方式进行仿真对比,结果表明:全谐振补偿方式下的SP型、PP型、LCL-P型补偿拓扑输出功率大于传统补偿方式下的输出功率,LCC-P型补偿拓扑输出功率小于传统补偿方式下的输出功率;在全谐振补偿方式下,SP型与PP型拓扑效率与传统补偿方式下的效率相差不大,LCC-P型拓扑效率远高于传统补偿方式下的效率,LCL-P型拓扑效率略低于传统补偿方式下的效率;全谐振模式下系统无需提供无功功率,视在功率等于给定的输出功率;全谐振补偿方式下SP型拓扑更适合应用于煤矿井下,不受互感变化影响,但受电阻负载影响较大。针对全谐振补偿方式下SP型MC-WPT系统谐振频率受电阻负载影响及电阻负载具有下限值的问题,利用DC-DC变换器,将阻抗匹配与有源功率因数校正相结合,实现系统整流桥输入侧等效阻抗始终等于预设谐振频率对应电阻值,同时保证系统整流桥输入电流与电压同相位,降低DC-DC变换器的引入对系统阻抗的影响。以SP型MC-WPT系统为实验对象进行验证,结果表明:SP型MC-WPT系统在全谐振补偿优化方式下能脱离电阻负载的束缚,系统不受互感影响及负载变化影响,稳定在全谐振模式下,提高了输出功率与输出效率。

     

  • [1] 黄学良,王维,谭林林.磁耦合谐振式无线电能传输技术研究动态与应用展望[J].电力系统自动化,2017,41(2):2-14.

    HUANG Xueliang,WANG Wei,TAN Linlin.Technical progress and application development of magnetic coupling resonant wireless power transfer[J].Automation of Electric Power Systems,2017,41(2):2-14.
    [2] CHEN Yafei,ZHANG Hailong,SHIN C S,et al.A comparative study of S-S and LCC-S compensation topology of inductive power transfer systems for EV chargers[C]//IEEE 10th International Symposium on Power Electronics for Distributed Generation Systems,Xi'an,2019:99-104.
    [3] ZAKERIAN A,VAEZ-ZADEH S,BABAKI A.A dynamic WPT system with high efficiency and high power factor for electric vehicles[J].IEEE Transactions on Power Electronics,2020,35(7):6732-6740.
    [4] 谢文燕,陈为.全方向无线电能传输技术研究进展[J].电力系统自动化,2020,44(4):202-215.

    XIE Wenyan,CHEN Wei.Research progress of omnidirectional wireless power transfer technology[J].Automation of Electric Power Systems,2020,44(4):202-215.
    [5] 张新超,吴银成,黄绍锦.矿用便携式气体检测仪无线充电装置设计[J].工矿自动化,2015,41(5):109-112.

    ZHANG Xinchao,WU Yincheng,HUANG Shaojin.Design of wireless charging device for mine-used portable gas detector[J].Industry and Mine Automation,2015,41(5):109-112.
    [6] 薛慧.磁耦合谐振式无线电能传输系统建模与分析[D].徐州:中国矿业大学,2015.

    XUE Hui.Modeling and analysis of wireless powertransfer system based on magnetic coupling resonance[D].Xuzhou:China University of Mining and Technology,2015.
    [7] 赵端.基于WPT技术的井下定位系统关键技术研究[D].徐州:中国矿业大学,2014.

    ZHAO Duan.Study on key technology of the localization system in coal mine based on wireless power transmission [D].Xuzhou:China University of Mining and Technology,2014.
    [8] 冯柳.煤矿井下磁耦合谐振式无线电能传输的研究[D].北京:中国矿业大学(北京),2020.

    FENG Liu.Research on magnetic coupled resonance wireless power transmission in coal mine[D].Beijing:China University of Mining and Technology(Beijing),2020.
    [9] XIAO Chunyan,CHENG Dingning,WEI Kangzheng.An LCC-C compensated wireless charging system for implantable cardiac pacemakers:theory,experiment and safety evaluation[J].IEEE Transactions on Power Electronics,2018,33(6):4894-4905.
    [10] 孙跃,张欢,唐春森,等.LCL型非接触电能传输系统电路特性分析及参数配置方法[J].电力系统自动化,2016,40(8):103-107.

    SUN Yue,ZHANG Huan,TANG Chunsen,et al.Circuit characteristic analysis and parameter configuration method of LCL type contactless power transfer system[J].Automation of Electric Power Systems,2016,40(8):103-107.
    [11] CHEN Yafei,ZHANG Hailong,SHIN C S,et al.An efficiency optimization-based asymmetric tuning method of double-sided LCC compensated WPT system for electric vehicles[J].IEEE Transactions on Power Electronics,2020,35(11):11475-11487.
    [12] 王懿杰,陆凯兴,姚友素,等.具有强抗偏移性能的电动汽车用无线电能传输系统[J].中国电机工程学报,2019,39(13):3907-3917.

    WANG Yijie,LU Kaixing,YAO Yousu,et al.An electric vehicle(EV)-oriented wireless power transfer system featuring high misalignment tolerance[J].Proceedings of the Chinese Society for Electrical Engineering,2019,39(13):3907-3917.
    [13] MOSTAK M,SAEED A,OMER O,et al.Sensitivity analysis of an LCC-LCC compensated 20-kW bidirectional wireless charging system for medium-duty vehicles[C]//IEEE Transportation Electrification Conference and Expo,Detroit,MI,2019:1-7.
    [14] 赵靖英,周思诺,崔玉龙,等.LCL型磁耦合谐振式无线电能传输系统的设计方法研究与实现[J].高电压技术,2019,45(1):228-235.

    ZHAO Jingying,ZHOU Sinuo,CUI Yulong,et al.Research and implementation on design method for LCL type magnetically-coupled resonant wireless power transfer system[J].High Voltage Engineering,2019,45(1):228-235.
    [15] 张国圆.井下移动式无线电能传输关键技术研究[D].徐州:中国矿业大学,2017.

    ZHANG Guoyuan.Research on the key technologies of coal mine mobile wireless power transmission[D].Xuzhou:China University of Mining and Technology,2017.
    [16] 夏晨阳,庄裕海,贾娜,等.高瓦斯粉尘矿井无线安全供电系统建模研究[J].煤炭学报,2014,39(增刊1):279-284.

    XIA Chenyang,ZHUANG Yuhai,JIA Na,et al.Modeling of wireless security power transfer system for high gas dust mining application[J].Journal of China Coal Society,2014,39(S1):279-284.
    [17] 张莲,经廷伟,张路,等.磁耦合无线电能传输系统频率稳定性研究[J].工矿自动化,2021,47(3):95-100.

    ZHANG Lian,JING Tingwei,ZHANG Lu,et al.Research on frequency stability of magnetic coupling wireless power transfer system[J].Industry and Mine Automation,2021,47(3):95-100.
    [18] 任志山,黄春耀.可无线充电的锂电池矿灯设计[J].工矿自动化,2017,43(12):76-81.

    REN Zhishan,HUANG Chunyao.Design of lithium battery miner's lamp using wireless charge[J].Industry and Mine Automation,2017,43(12):76-81.
    [19] 刘晓文,王习,金雷,等.煤矿井下双路三线圈磁耦合谐振无线电能传输系统[J].河南理工大学学报(自然科学版),2017,36(5):78-84.

    LIU Xiaowen,WANG Xi,JIN Lei,et al.Magnetically coupled resonant wireless power transmission system with double three coils in coal mine[J].Journal of Henan Polytechnic University(Natural Science),2017,36(5):78-84.
    [20] 刘晓文,王习,陈迪,等.煤矿井下磁耦合谐振WPT系统优化设计[J].煤炭学报,2016,41(11):2889-2896.

    LIU Xiaowen,WANG Xi,CHEN Di,et al.Optimal design of magnetically coupled resonant WPT system in coal mine[J].Journal of China Coal Society,2016,41(11):2889-2896.
    [21] 丁恩杰,孙志峰,张国圆.井下谐振耦合无线电能传输系统的鲁棒性研究[J].工矿自动化,2014,40(12):46-48.

    DING Enjie,SUN Zhifeng,ZHANG Guoyuan.Research of robustness of underground resonant coupling wireless power transmission system[J].Industry and Mine Automation,2014,40(12):46-48.
    [22] 赵志斌,孙跃,翟渊,等.电压型CPT系统动态负载恒压输出研究[J].华中科技大学学报(自然科学版),2011,39(9):66-71.

    ZHAO Zhibin,SUN Yue,ZHAI Yuan,et al.Constant voltage output of dynamic loads in voltage-fed CPT systems[J].Journal of Huazhong University of Science and Technology (Natural Science Edition),2011,39(9):66-71.
    [23] 任小永,唐钊,阮新波,等.一种新颖的四开关Buck-Boost变换器[J].中国电机工程学报,2008,28(21):15-19.

    REN Xiaoyong,TANG Zhao,RUAN Xinbo,et al.A novel four switch Buck-Boost converter[J].Proceedings of the Chinese Society for Electrical Engineering,2008,28(21):15-19.
  • 加载中
计量
  • 文章访问数:  223
  • HTML全文浏览量:  18
  • PDF下载量:  18
  • 被引次数: 0
出版历程
  • 收稿日期:  2021-11-25
  • 修回日期:  2022-01-23
  • 网络出版日期:  2022-03-01

目录

    /

    返回文章
    返回