Dong Xiaoming
Associate Professor
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Personal Information:
  • Name (English):
    Dong Xiaoming
  • Name (Pinyin):
    dongxiaoming
  • E-Mail:
    dongxiaoming@sdu.edu.cn
  • Date of Employment:
    2015-07-14
  • School/Department:
    电气工程学院
  • Administrative Position:
    副教授
  • Education Level:
    Postgraduate (Doctoral)
  • Business Address:
    山东大学千佛山校区
  • Gender:
    Male
  • Contact Information:
    18654539653
  • Degree:
    Doctor
  • Status:
    Employed
  • Alma Mater:
    山东大学
  • Supervisor of Master's Candidates
Discipline:
Power System and Automation;
Biography

个人简历

董晓明,工学博士,山东大学电气工程学院副教授,硕士研究生导师;山东省电力行业专家,IEEE Member;清华大学博士后,南洋理工大学访问学者;主要研究方向为电力系统稳态运行分析与优化决策;承担及核心参与多项国家级、省部级纵向科研项目,国家电网公司、南方电网公司横向科研项目;以第一以及通讯作者发表SCI论文二十余篇

个人信息:

生日:198045         手机:+8618654539653          地址:山东大学千佛山校区6号楼304

邮箱:dongxiaoming@sdu.edu.cn dong.xiaoming@126.com

主页:http://faculty.sdu.edu.cn/dongxiaominghttp://xueshu.baidu.com/scholarID/CN-BE74J5NJ

 

研究方向:

1、电网传输能力分析模型及其优化方法。

2、强不确定电力系统安全经济低碳优化调度。

 

教育和工作经历:

2015~            山东大学电气工程学院(副教授

2018~2019       南洋理工大学电气与电子工程学院(访问学者,导师:王鹏

2013~2015       清华大学电机系(助理研究员/博士后,导师:康重庆

2009~2013       山东大学电气工程学院,电力系统及其自动化专业(博士研究生,导师:梁军

2006~2009       山东大学电气工程学院,电力系统及其自动化专业(硕士研究生,导师:韩学山

2003~2006       许继科华自动化技术有限公司(软件研发,项目负责人

1999~2003       山东大学电气工程学院,电气工程(本科

 

主要论文成果: (第一作者 & 通讯作者

[1] Shunxiang Yu, Xiaoming Dong★, et. al. Distributionally Robust Optimal Scheduling of Flexible Distribution Networks Considering Dynamic Spatio-temporal Correlation of Renewable Energy. International Journal of Electrical Power & Energy Systems, 2025.

[2] Yuejian Wu, Xiaoming Dong★, et. al. A Load Margin Calculation Method Considering Optimized Reactive Power Support. International Journal of Electrical Power & Energy Systems, 2025. 

[3] Xueyong Jia, Xiaoming Dong★, et al. Temporal Decomposition Method for Power Transfer Limit Analysis Considering Spatial and Seasonal Differences of Ambient Factors. Journal of Modern Power Systems and Clean Energy, 2025. 

[4] Yue Ma, Xiaoming Dong★, et. al. Robust Optimization Model of Flexible Distribution Network Considering Source-Load Uncertainty, Electrical Power System Research, 223 (2023): 109698. 

[5] Xiaoming Dong, Fan Chen, et. al. SCOPF Considering Voltage and Power Fluctuation Under Renewable Energy Integration. International Journal of Electrical Power & Energy Systems, 2023, 153: 109273. 

[6] Yong Wang, Yan Wang, Xiaoming Dong★, et. al. Assessment for Capacity of Wind-Storage Integration System Considering Electro-thermal coupling of Overhead Transmission Lines, IEEE Transactions on Power Systems, doi: 10.1109/TPWRS.2023.3238992.

[7] Xueyong Jia, Xiaoming Dong★, et al. Static Voltage Stability Assessment Considering Impacts of Ambient Conditions on Overhead Transmission Lines. IEEE Transactions on Industry Applications, 2022, doi: 10.1109/TIA.2022.3195974. 

[8] Xiaoming Dong, Yue Ma, et al. An Improved Power Flow Calculation Method Based on Linear Regression for Multi-area Networks with Information Barriers[J]. International Journal of Electrical Power & Energy Systems, 2022, 142: 108385. 

[9] Xiaoming Dong, Xupeng Hao, et al. A Distributed Power Transfer Limit Calculation Method for Multi-Area Interconnection Power Networks, IEEE Transactions on Power Systems, Sept. 2021, 36, 5, pp. 4723-4732. 

[10] Xiaoming Dong, Xupeng Hao, et al. Power Transfer Limit Calculation for Multi-area Interconnected Power Networks[J]. International Journal of Electrical Power & Energy Systems, Sep. 2020, 120: 105953. 

[11] Xiaoming Dong, Ruiqi Zhang, et. al. Capacity Assessment for Wind Power Integration Considering Transmission Line Electro-Thermal Inertia[J]. International Journal of Electrical Power & Energy Systems, Jun. 2020, 118: 105724. 

[12] Quan Chen, Xiaoming Dong★, et al. Power Flow Analysis of AC-DC Networks Considering Hierarchical Connection Technique[J]. International Journal of Electrical Power & Energy Systems, Feb. 2020, 115: 105493.

[13] Xiaoming Dong, Chongqing Kang, et al. Estimating the Wind Power Integration Threshold Considering Electro-thermal Coupling of Overhead Transmission Lines[J]. IEEE Transactions on Power Systems, vol. 34, no. 5, pp. 3349-3358, Sept. 2019.

[14] Chengfu Wang, Xijuan Li, Zhaoqing Wang, Xiaoming Dong★, et al. Day-ahead unit commitment method considering time sequence feature of wind power forecast error[J]. International Journal of Electrical Power & Energy Systems, Jun. 2018, 98: 156-166.

[15] Xiaoming Dong, Chengfu Wang, et al. Calculation of optimal load margin based on improved continuation power flow model[J]. International Journal of Electrical Power & Energy Systems, Jan. 2018, 94: 225-233.

[16] Xiaoming Dong, Hua Sun, et al. Power Flow Analysis Considering Automatic Generation Control for Multi-Area Interconnection Power Networks[J]. IEEE Transactions on Industry Applications, Aug. 11 2017, 53(6):5200-5208.

[17] Xiaoming Dong, Chongqing Kang, et al. Analysis of Power Transfer Limit Considering Thermal Balance of Overhead Conductors. IET Generation Transmission & Distribution, Oct. 26 2015, 9(14):2007-2013.

[18] Xiaoming Dong, Chongqing Kang, et al. Estimating Life-Cycle Energy Payback Ratio of Overhead Transmission Line toward low-carbon development. Journal of Modern Power Systems and Clean Energy, Mar. 2015, 3(1): 123-130. 

[19] Xiaoming Dong, Chengfu Wang, et al. Calculation of Power Transfer Limit Considering Electro-Thermal Coupling of Overhead Transmission Line[J]. IEEE Transactions on Power Systems, Jan. 10 2014, 29(4):1503-1511. 

[20] 贾学勇,董晓明★,等.考虑气象和地理因素的电网传输特性计算及灵敏度分析[J].电力系统自动化. 2022, 46(21): 106-115. 

[21] 王超超,董晓明★,等.考虑多层耦合特性的电力信息物理系统建模方法[J].电力系统自动化. 2021, 45(3): 83-91. 

[22] 陈全,董晓明★,等. 用于最小开机数判定的经典非合作博弈潮流分布模型[J].电力系统自动化. 2020, 44(10): 111-118.

[23] 张睿祺,董晓明★,等. 计及线路电热耦合的新能源接入通道全寿命经济性评估[J].电力系统自动化. 2020, 44(3): 83-88. 

[24] 董晓明,梁军,等. 连续潮流参数选择及步长控制的分析与改进[J].电力系统自动化. 2011, 35(13): 49-53. 

[25] 董晓明,梁军,等. 计及输电线路温度变化的连续潮流模型与计算[J].电力系统保护与控制. 2012,40(23):36-41. 



Education
  • 2009-9 — 2013-7
    山东大学
    电力系统及其自动化
    Doctoral Degree in Engineering
  • 2006-9 — 2009-7
    山东大学
    电气工程及其自动化
    Master's Degree in Engineering
  • 1999-9 — 2003-7
    山东大学
    电气工程及其自动化
    Bachelor's Degree in Engineering
  • 1996-9 — 1999-7
    山东师范大学附属中学
Publication
Research direction

No contents

Patens

1. 考虑点对点能源交易的配电系统优化调度方法及系统

2. 一种考虑无功支撑的电网潮流传输边界求取方法及系统

3. 计及机组爬坡速率约束与系统初始状态的调度方法及系统

4. 一种主动配电网一体化调度方法、系统、终端设备及介质

5. 一种电力系统一体化调度方法、系统、终端设备及介质

6. 基于合作博弈的园区综合能源系统分布式优化方法及系统

7. 考虑风电不确定性的电-气-热储能协同规划方法及系统

8. 考虑线路最小弯曲度的城市配电网线路规划方法及系统

9. 考虑路段内线路不交叉约束的城市配电网规划方法及系统

10. 电网传输特性获取方法、系统、存储介质及设备

11. 一种风电场群分布式电压协调控制方法及系统

12. 风电并网电压分层协调控制方法、系统、介质及设备

13. 一种考虑风电影响的电网最优运行点控制方法及系统

14. 一种发电机组开机方案生成方法及系统

15. 基于线性规划算法的电网负荷切除方法及系统

16. 考虑高比例可再生能源接入的电力系统一体化调度方法

17. 一种基于历史故障的配电网可靠性快速评估方法及系统

18. 考虑现实需求导向的城市配电网线路规划方法及系统

19. 有源配电网多时间尺度有功无功协调优化调度方法及系统

20. 计及多能耦合影响的电-气-热系统灵活性评估方法

21. 一种城市配电网线路动态规划方法及系统

22. 一种发电机组开机方案生成方法及系统

23. 基于融合信息的风电场群有功优化调控方法

24. 一种直流分层结构建模分析方法及系统

25. 计及直流分层结构交直流混联潮流计算的方法及系统

26. 一种计及不平衡功率分摊的最危险负荷裕度计算方法

27. 一种计及发点自动控制不平衡功率分摊的连续潮流计算方法

28. 基于快速搜索与密度峰值聚类的主导节点选择方法

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