葛国伟

作者: 时间:2020-04-23 点击数:

葛国伟

讲师、硕士生导师

电子邮箱:

ggw[at]zzu.edu.cn (请将[at]换成@)

办公室:

郑州大学电气工程学院1217

研究方向:

智能开关电器、真空电弧建模与诊断

教育背景

2013/09-2017/06,大连理工大学,电气工程学院,博士

2011/09-2013/06,大连理工大学,电气工程学院,硕士

2007/09-2011/06,大连理工大学,电气工程学院,学士

工作经历

 2017/06-至今,郑州大学,电气工程学院,讲师

学术兼职

 IEEE会员,中国电机工程学会会员

 IEEE   Transactions on Plasma ScienceIEEE Transactions on Dielectrics and   Electrical InsulationPhysics   of PlasmasMeasurement   Science and Technology、中国电机工程学报和高电压技术等期刊的审稿人

奖励与荣誉

 2019年,河南省电机工程优秀青年工程师

 2019年,《高电压技术》优秀审稿人

 2018年,全国高电压与放电等离子体学术会议分会主席

 2018年,河南省第四届自然科学学术奖

 2018年,全国高电压与放电等离子体学术会议优秀论文奖

 2018年,《高电压技术》优秀审稿人

 2017年,中国电机工程学会高电压专业委员会2017年学术年会优秀论文

 2017年,河南省电机工程学会优秀科技论文二等奖,

 2017年,辽宁省优秀博士毕业生

科研项目

 (主持)中国博士后科学面上资助,2017M622370,多断口真空开关动态电压分布与协同效应机理研究,2017/10-2019/12

 (主持)国家轨道交通电气化与自动化工程技术研究中心开放课题,NEEC-2017-B07,城市轨道交通混合式直流断路器高速分断关键技术研究,2017/12-2019/12  

 (主持)河南省高等学校重点科研项目,19A470008,新型快速中压直流开关设备开断理论与关键技术研究,2019/01-2020/12  

 (主持)河南省科技攻关计划,1900684环保型模块化串联高压多断口真空断路器关键技术研究,2019/01-2020/12  

 (主持)河南省博士后科研项目启动经费,多断口真空触发开关电弧等离子体调控与动态介质恢复协同效应研究,2017.12-2019.12  

 (主持)国网科技项目,20170430A, 配电开关一二次融合一体化检测技术研究开发与应用,2017.12-2019.12  

 (主持)横向课题,20180301A,新技术形势对电网工程造价影响ISMAHP模型构建与分析研究,2018.11-2019.12

 (参与)国家自然科学基金面上项目,51277020、基于光控模块的多断口真空开关串联金属蒸气电弧等离子体关键行为研究,2013/01-2016/12

 (参与)“十一五”国家科技支撑计划重点项目,2009BAA19B05,基于模块化真空断路器的串联结构与整机技术,2010/01-2013/6  

代表文章:

SCI检索及录用论文

[1]   Ge   G, Liao M, Duan X, et al. Experimental Investigation into the Synergy of   Vacuum Circuit Breaker with Double-Break [J]. IEEE Transactions on Plasma Science, 2016, 44(1):   79-84. (SCI检索号:000368038700010   IF=1.25)

[2]   Ge   G, Liao M, Duan X, et al. Investigation on the current-zero characteristic of   vacuum circuit breakers [J]. Vacuum, 2016, 134: 63-68. (SCI检索号:000387835500010,影响因子IF=2.07)  

[3]   Liao   M(导师),   Ge G, Duan X, et al. Influence of the AMF Arc Control on Voltage Distribution   of Double-Break VCBs[J]. IEEE Transactions on Plasma Science, 2016, 44(10):   2455-2461. (SCI检索号:000387238100022,影响因子IF=1.25)  

[4]   Minfu   Liao(导师),Guowei   Ge, et al.Investigating Influence of the magnetic arc blow in   multi-break vacuum circuit breakersPhysics of   Plasmas, 2016,23(12): 3521-3529. (SCI检索号:000392013000115,影响因子IF=1.941)  

[5]   Minfu   Liao(导师),Guowei   Ge, et al. Investigation on the Vacuum Arc Commutating Characteristic with   Application to Post-arc Current Measure [J]. IEEE Transactions on Plasma   Science2017452):252-258.   SCI检索号:000395744900011,影响因子IF=1.25

[6]   Minfu   Liao(导师),Guowei   Ge, et al. Post-arc Current Measurement based on Current Transfer   Characteristic [J]. Instruments and Experimental Techniques. 2017,60(1):   78-86. SCI检索号:000395204000015,影响因子IF=0.613

[7]   Minfu   Liao(导师),Guowei   Ge   A novel post-arc current   measuring equipment based on vacuum arc commutation and arc blow [J].   Measurement Science & Technology, 2017, 28(7):075901. SCI检索号:000403927600001,影响因子IF=1.69

[8]   Ge   Guowei, Cheng X*, Liao M, et al. Vacuum Arcs and Postarc Characteristic of   Vacuum Interrupters With External AMF at Current Zero[J]. IEEE Transactions   on Plasma Science, 2018, 46(4): 1003-1009. SCI检索号:000429969500021,影响因子IF=1.25

[9]   Ge   G, Cheng X*, Liao M, et al. Influence   of the pulsed AMF arc control on the vacuum arc and post arc characteristic   in vacuum interrupters [J]. Vacuum, 2018, 147: 65-71. (SCI检索号:000418976700010,影响因子IF=2.07)  

[10]               Ge Guowei, Cheng X*, Liao M, et al. Mechanism of Dynamic Voltage   Distribution in Series-Connected Vacuum Interrupters [J]. IEEE   Transactions on Plasma Science, 2018, 46(8): 3083-3089. SCI检索号:000441427100036,影响因子IF=1.25

[11]               Liao M, Huang J, Ge G*, et al. Vacuum   Arc Commutation Characteristics of the DC Microgrid Hybrid Circuit   Breakers[J]. IEEE Transactions on Plasma Science, 2017, 45(8): 2172-2178. SCI检索号:000407378800017,影响因子IF=1.25

[12]               Ge G, Cheng X*, Liao M, et al. A Review   of the Synergy Effect in Multibreak VCBs[J]. IEEE Transactions on Plasma   Science, 2018, 47(1): 671-679.

[13]               Xian ChengGuowei   Ge*, et al. Research on the Vacuum Arc Commutating Characteristic of   Resistive Fault Current Limiters. High temperature. (SCI刊源,已录用,影响因子IF=1.06)  

EI期刊论文:

[1]   葛国伟,程显,廖敏夫,薛庆宽,邹积岩.   基于电流转移特性和磁吹的新型弧后电流测量装置研制[J].   中国电机工程学报,2018,38(14):4288-4297.   EI收录)

[2]   葛国伟,段雄英,廖敏夫,邹积岩,郑微.   光控真空断路器模块低功耗自具电源设计[J].   高电压技术,2014,40(01):300-308.   EI收录)

[3]   葛国伟,廖敏夫,程显,赵岩,段雄英,邹积岩.   基于电流转移的断路器弧后电流测量方法[J].   高电压技术,2015,41(09):3156-3163.   EI收录)

[4]   葛国伟,廖敏夫,黄金强,段雄英,苏阔,邹积岩.   双断口真空断路器配合特性仿真与试验[J].   电工技术学报,2016,31(22):57-65.   EI收录)

[5]   葛国伟,张众,程显,廖敏夫,邹积岩.   双断口真空断路器的动态介质恢复协同特性[J].   高电压技术,2018,44(09):2963-2969.   EI收录)

[6]   程显,陈占清,葛国伟,焦连曜,廖敏夫.基于SF_6替代气体的高压混合断路器开断特性[J].高电压技术,2017,43(12):3862-3868.   EI收录)

[7]   廖敏夫,黄金强,葛国伟,王善军,段雄英.国内外混合式断路器发展与研究现状[J].高电压技术,2016,42(06):1688-1694.   EI收录)

[8]   葛国伟,程显,廖敏夫,张豪,段雄英.   串联真空开关磁场调控对动态电压分布影响研究[J].   中国电机工程学报,   2017.12.14.EI刊源,已录用,网络首发)

[9]   葛国伟,程显,张鹏浩,张豪,廖敏夫.   多断口真空开关电弧磁场调控需求与机理[J].   电工技术学报,   2018.3.1.EI刊源,已录用,网络首发)

[10]               葛国伟,程显,张鹏浩,廖敏夫,卢刚.   多断口真空开关不平衡磁场计算与优化[J].   高电压技术,   2018.6.20. EI刊源,已录用,网络首发)

[11]               程显,杨培远,葛国伟,陈占清,焦连曜.CO_2气体间隙动态介质恢复特性及调控措施[J].高电压技术2019.1.23   EI刊源,已录用,网络首发)

ISTP检索论文:

[1]   Ge   G, Liao M, Duan X, et al. HVDC hybrid circuit breaker based on SF6   interrupter and vacuum interrupter in series[C]. International Conference on   Electric Power Equipment - Switching Technology. IEEE, 2013:1-4.

[2]   Ge   G, Liao M, Duan X, et al. Experimental investigation on the matching   characteristics of vacuum circuit breaker with double-break[C]. Discharges   and Electrical Insulation in Vacuum (ISDEIV), 2014 International Symposium   on. IEEE, 2014: 493-496.

[3]   Liao   M(导师),   Ge G, Duan X, et al Simulation and experimental research on series vacuum arc   of vacuum circuit breaker with double-break[C]. Discharges and Electrical   Insulation in Vacuum (ISDEIV), 2014 International Symposium on. IEEE, 2014:   497-500.

[4]   Ge   G, Liao M, Duan X, et al. Research on influence of the magnetic arc blow in   multi-break vacuum circuit breakers[C]. Discharges and Electrical Insulation   in Vacuum (ISDEIV), 2016 27th International Symposium on. IEEE, 2016: 1-4.

[5]   Ge   G, Liao M, Duan X, et al. A novel post-arc current measuring equipment based   on vacuum commutation and arc blow[C]. Discharges and Electrical Insulation   in Vacuum (ISDEIV), 2016 27th International Symposium on. IEEE, 2016: 1-4.

[6]   Huang   J, Ge G, Liao M, et al. The current commutation characteristics of DC   micro-grid hybrid circuit breakers[C]. International Symposium on Discharges   and Electrical Insulation in Vacuum. IEEE, 2016:1-4.

[7]   Ge   G, Cheng X, Liao M, et al. Influence of the pulsed AMF arc control on the   vacuum arc and post arc characteristic in vacuum interrupters[C]. Electric   Power Equipment-Switching Technology (ICEPE-ST), 2017 4th International   Conference on. IEEE, 2017: 157-160.

[8]   Ge   G, Cheng X, Liao M, et al. Mechanism of dynamic voltage distribution in   series-connected vacuum interrupters[C]. Electric Power Equipment-Switching   Technology (ICEPE-ST), 2017 4th International Conference on. IEEE, 2017:   113-116.

[9]   Ge   G, Cheng X, Su K, et al. Investigation on the Magnetic Arc Control of   Multi-Break VCBs[C]. 2018 28th International Symposium on Discharges and   Electrical Insulation in Vacuum (ISDEIV). IEEE, 2018, 1: 287-290.

[10]               Cheng X, Yang P, Ge G, et al. The Novel   Hybrid HVDC Circuit Breakers with Series-Connected Vacuum and the SF6   Interrupters[C]. 2018 28th International Symposium on Discharges and Electrical   Insulation in Vacuum (ISDEIV). IEEE, 2018, 1: 247-250.

[11]               Cheng X, Chen S, Ge G, et al.   Investigating on Synergy Effect of Series-Connected Vacuum Arcs in   Multi-break VCBs[C]//2018 28th International Symposium on Discharges and   Electrical Insulation in Vacuum (ISDEIV). IEEE, 2018, 2: 671-674.

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