研究领域

研究方向:
电力系统继电保护;变电站综合自动化系统,智能电网
科研情况:
主持国家自然科学基金面上项目“基于参数识别原理的特高压输电线路纵联差动保护研究”(50877061)

主持国家自然科学基金面上项目“基于模型识别理论的新型继电保护原理研究”(51177127)
参与国家自然科学基金重点项目“基于参数识别的继电保护基础理论研究”(51037005)
主持与企业横向科研合作项目多项
发表的论文被评为中国电机工程学报百篇优秀论文
学术任职:
1)中国电机工程学会电力系统自动化专委会委员
2)中国电力企业联合会电力行业继电保护标准专委会委员
3)全国短路电流计算标委会委员
4)Protection and Control of Modern Power systems编委
5)IEEE会员

主要研究成果及获奖:
1)1991年至1994年作为主要研制人参与铁岭电厂微机安全稳定控制装置研究,获西安交大科研二等奖
2)1997年至1999年7月,作为主要研制人开发了“DF3003变电站综合自动化系统”,该系统获山东省科技进步二等奖,烟台市科技进步一等奖
3)2001年作为项目负责人主持开发“DF3300变电站综合自动化系统”

4)l2010年或陕西省科学技术奖一等奖。西北交直流混联电网继电保护应用研究。

5)2010年获甘肃省科学技术进步奖二等奖。带串补电容的高压输电线路保护的。 
6)2011年获陕西省科学技术奖三等奖。自适应继电保护装置的研究。

SCI检索论文:

[1] Mostafa Kheshti, Xiaoning Kang, Zh. H. Bie. “An effective Lightning Flash Algorithm solution to large scale non-convex economic dispatch with valve-point and multiple fuel options on generation units” Energy, 2017, 129: 1-15. ( 已在线发表,SCI源刊,IF=4.292,理工类最有学术影响力期刊).

[2] Ying Zhong, Xiaoning Kang, Zaibin Jiao. A novel distance protection algorithm for the phase-ground fault. IEEE TRANSACTIONS ON POWER DELIVERY, 2014, 29(4): 1718-1725. ( SCI :AQ6JO, IF=2.032 ,理工类最有学术影响力期刊 )

[3] Mostafa Kheshti, Xiaoning Kang, GB Song, Z. Jiao. “Modeling and Fault Analysis of Doubly Fed Induction Generators for Gansu Wind Farm Application” Canadian Journal of Electrical and Computer Engineering, vol. 38, no. 1, 2015 ( SCI:CF1LV, IF=0.524 ) 

[4] Mostafa Kheshti, Xiaoning Kang, Zaibin Jiao. Lightning Flash Algorithm for Solving Nonconvex Combined Emission Economic Dispatch with Generator Constraints. IET Generation Transmission & Distribution. (已录用,SCI源刊, IF=1.576) 

[5] Mostafa Kheshti, Xiaoning Kang, Zaibin Jiao. An Innovative Fast Relay Coordination Method to Bypass the Time Consumption of Optimization Algorithms in Relay Protection Coordination[J]. Journal of Electrical Engineering & Technology, 2017; 12(2): 612-620. (已发表,SCI 源刊,IF=0.679)

[6] Mostafa Kheshti, Xiaoning Kang, Y. Jialula. Smooth Integration of Gansu Windfarm into the Grid Using The Stator Flux Oriented Vector Method and Fuzzy Logic Control[J]. Arabian Journal for Science and Engineering, 2017(已在线发表,SCI源刊, IF=0.728)

[7] Mostafa Kheshti, Xiaoning Kang, Zhaohong Bie. Combined Environmental Economic Dispatch Using Lightning Flash Algorithm. Journal of Modern Power Systems and Clean Energy, 2017(已录用,SCI源刊, IF=0.975)

[8] Yang Liming, Jiao Zaibin, Kang Xiaoning, et. Adaptive algorithm for estimating power frequency phasors using dynamic window length. IET GENERATION TRANSMISSION & DISTRIBUTION,2016, 10(14):3423-3430 ( SCI: EB3CB, IF=1.576 )

[9] Yang Liming, Jiao Zaibin, Kang Xiaoning, et. Fast algorithm for estimating power frequency phasors under power system transients[J]. IET GENERATION TRANSMISSION & DISTRIBUTION,2015, 9(4):395-403. ( SCI: CD7BF, IF=1.576 )

[10] Wang Chenqing, Song Guobing, Kang Xiaoning, et.Novel Transmission-Line Pilot Protection Based on Frequency-Domain Model Recognition[J]. IEEE TRANSACTIONS ON POWER DELIVERY, 2015, 30(3): 1243-1250. (SCI: CJ1PJ, IF=2.032) 

[11] He Shien, Suonan Jiale, Kang Xiaoning, et. Fault component integrated impedance-based pilot protection scheme for EHV/UHV transmission line with thyristor controlled series capacitor (TCSC) and controllable shunt reactor (CSR)[J]. SCIENCE CHINA-TECHNOLOGICAL SCIENCES, 2013, 56(2):342-350. (SCI: 089LY,IF=1.441)

重要EI检索论文:

[1] Kang Xiaoning, Ma Xiuda, Qu Xiaoyun,et. Hierarchical coordination control in DC distribution system[C]. IEEE PES APPEEC 2016, Xi’an, Oct. 2016 . ( EI: 20170403277953 )

[2] Kang Xiaoning, Ma Xiuda, Qu Xiaoyun, et. Hierarchical coordination control in DC distribution system[C]. IEEE PES APPEEC 2016, Xi’an. Oct. 2016. ( EI: 20170403277953 )

[3] Kang Xiaoning, Ma Xiuda, Wang Hao, et. Coordinated scheme for automatic voltage control of DC distribution system[C]. IET ACDC 2016, Beijing, 2016. ( EI:20170903384373)

[4] Kang Xiaoning, Ma Xiuda, Wang Hao, et. Coordinated scheme for automatic voltage control of DC distribution system[C]. IET ACDC 2016, Beijing, 2016. ( EI:20170903384373 ) 

[5] Kang Xiaoning, Ma Xiuda, Wang Hao, et. Multi-objective optimal power flow for DC distribution system[C]. CICED 2016, Xi’an. Sept. 2016. ( EI: 20164202907355 )

[6] Zhang Chao, Kang Xiaoning, Ma Xiuda, et. On-line incipient faults detection in underground cables based on single-end sheath currents[C]. IEEE PES APPEEC 2016, Xi’an. Oct. 2016. ( EI: 20170403278084 )

[7]   Zhang Xuze, Kang Xiaoning, Ma Xiuda, et. Loading balance of distribution network by applying immune algorithm[C]. IEEE PES APPEEC 2016, Xi’an. Oct. 2016. ( EI: 20170403277706 )

[8] Jiang Shuai, Kang Xiaoning, Ma Xiuda, et.Fault identification method based on forward traveling wave amplitude feature for HVDC transmission line[C]. IEEE PES APPEEC 2016, Xi’an. Oct. 2016. ( EI: 20170403278176 )

[9] Qu Xiaoyun, Kang Xiaoning, Zhang Chao, et. Short-term prediction of wind power based on deep Long Short-Term Memory[C]. IEEE PES APPEEC 2016, Xi’an. Oct. 2016. ( EI: 20170403277952 )

[10] 马秀达, 康小宁, 李少华, 等. 直流配电网的电压协调控制策略. 电力系统自动化, 2016, 40(17): 169-176( EI:20163802821888) 

[11] 马秀达, 康小宁, 李少华, 等.多端柔性直流配电网的分层控制策略设计.学报, 2016, 40(17): 169-176( EI:20163202703621 )

[12]康小宁, 刘琳,王琦. 基于 WAMS的后备距离保护方案[J].电力自动化设备,  2015, 35(3): 75-80. ( EI: 20151300692080 )

[13] Ding Jun, Kang Xiaoning, Wang huanhuan, et. Power frequency zero-sequence directional element for parallel transmission lines[C]. IET DPSP 2014. Copenhagen, Denmark. 2014.  ( EI:20142617864910 )

[14] Liu Lin, Kang Xiaoning, Wang Qi, et. A novel WAMS-based distance protection scheme for parallel transmission lines[C]. IET DPSP 2014. Copenhagen, Denmark. 2014.  ( EI: 20142317784119 )

[15] Mostafa Kheshti, Kang Xiaoning, Jiao Zaibin. PSCAD modeling of doubly fed induction generators for wind turbines applications[C]. IET DPSP 2014. Copenhagen, Denmark. 2014.  ( EI: 20142617864868 )

[16] Ding Jun, Kang Xiaoning, Yang Liming, et. An improved zero-sequence directional element for parallel lines based on fast phasor extracting algorithm[C].  IEEE TENCON 2013, Xi’an. Oct. 2013. ( EI:20140917392975 )

[17] 康小宁, 宁荣,齐军,等. 基于双端电气量的串补线路故障测距新算法[J]. 电力自动化设备,  2014, 34(8): 47-51. ( EI: 20143600063184 )

[18] 康小宁, 屈亚军,焦在滨,等. 基于最小二乘矩阵束算法的工频分量提取方法[J].电力系统自动化, 2014, 38(21) :66-70+113. ( EI: 20144800253614 )

[19] 康小宁, 刘鑫,索南加乐,等. 基于矩阵束算法的经消弧线圈接地系统故障选线新方法[J]. 电力系统自动化, 2012, 36(12): 88-93. ( EI: 20123415357826)

[20] Mostafa Kheshti, Xiaoning Kang. A new control method of wind energy in power system[C]. IET DPSP 2012, April, 2012. Birmingham, UK, 2012. ( EI: 20122915249188 )

[21] Kang Xiaoning, Wu Zhaozuo, Suonan Jiale, et. Research on pilot differential protection based on parameter identification and suitable frequency band of transmission line model[C]. APAP 2011, Beijing. Oct. 2011. ( EI: 20121915009775 )

[22] 康小宁, 吴招座,索南加乐,等.参数识别纵联差动保护应用中输电线路模型适用频带研究. 电力系统保护与控制. 2011, 39(19):8-16. ( EI:20114414474860 )

[23]康小宁, 赵选宗,索南加乐,等. 输电短线路的相间自适应距离保护. 电力系统保护与控制. 2010, 38(17): 22-27+32. (EI:20104113292946)

[24] 康小宁, 杜岩平,索南加乐,等.基于模型误差的自适应方向元件[J]. 电力自动化设备, 2009, 29(5): 43-47.  ( EI: 20092312112718 )

[25] 康小宁, 张鹏,索南加乐,等. 基于模型识别的并联电容器保护[J]. 学报, 2008, 42 (12): 1506-1509. ( EI:20090311859931 )

[26] Kang Xiaoning, Suonan Jiale, Qi Jun. An accurate fault location alg[13] orithm for transmission lines using parameter identification based on distributed model[C]. IET APSCOM 2006, Hong Kong, Oct. 2006. (EI: 20094412410144 )

[27] Kang Xiaoning, Suonan Jiale, Bo Zhiqian. Protection technique based on parameter identification - Its principle and application[C]. IEEE PES General Meeting 2008, Pittsburgh, United states. July 2008. (EI: 20084011608855 ).

[28] 康小宁, 索南加乐.  基于故障点电压频谱参数识别的无通道保护研究[J].       学报, 2006 , 40(12): 1436-1440. ( EI: 20070410388423 )

[29] 康小宁, 何璐,焦在滨,等. 基于励磁电感参数识别的变压器励磁涌流判别方法[J]. 学报, 2007 , 41(10): 1214-1218. (EI: 20074710936078 )

[30] 康小宁, 张新,索南加乐,等. 电压互感器和电流互感器暂态特性对距离保护算法的影响[J].学报, 2006 , 40(8): 955-959. ( EI: 20064210185216 )

[31] 康小宁, 索南加乐. 基于参数识别的单端频域法故障测距原理[J]. 中国电机工程学报, 2005, 25(9): 22-27. ( EI: 2005149025460 ,被评为百篇优秀论文 )

[32] 康小宁, 索南加乐. 求解频域参数方程的双端故障测距原理[J]. 电力系统自动化, 2005, 29(10): 16-20. ( EI:2005259171706 ) 

主要科研项目:

1)国家自然科学基金面上项目:基于参数识别原理的特高压输电线路纵联差动保护研究(50877061),负责人,结题

2)国家自然科学基金面上项目:基于模型识别理论的新型继电保护原理研究(51177127),负责人,结题

3)国家自然科学基金重点项目:基于参数识别的继电保护基础理论研究(51037005),第一参与人,结题

4)国家重点研发计划课题:地磁暴对油气管网和电网的致灾机理和规律(2016YFC0800103),参与,在研

5)国家重点研发计划课题:大型交直流混联电网故障特性分析与保护(2016YFB0900600),参与,在研