9500金沙集团线路

系所与团队：

电力电子与电力传动研究所

学术身份：

硕士生导师、山东省能源研究会常务理事、《IET Journal of Engineering》编委、《International Journal of Electrical Power & Energy Systems》特刊主编

主要工作经历：

2021.11-至今 9500金沙集团线路，助理研究员

2018.01-2018.12 全球能源互联网研究院欧洲研究院

2014.10-2020.07 柏林工业大学，博士

2011.09-2014.07 山东大学，硕士

研究方向：

新能源建模仿真与数字孪生、风力发电控制与稳定性评估、电碳耦合理论

学术著作：

专著：

[1] 赵浩然；王鹏，风力发电建模与并网稳定性分析，机械工业出版社，2024.11.

[2] 赵浩然；李冰；许建中；秦世耀；江艺宝；王鹏，风电场精细化建模仿真技术，机械工业出版社，2025.10.

论文：

[3]P. Wang. Analytical Modeling for Evaluation of Efficiency and Fault Transients of the Modular Multilevel Converter in HVDC Systems, doctoral thesis, Berlin: Technischen Universität Berlin, 2020.

[4]P. Wang, T. Liu, H. Zhao, Y. Ma and C. Yuan, "Online Construction of Small-Signal Stability Region for Wind Farms With Reduced-Order Impedance Model and Two-Layer Optimization," in IEEE Transactions on Energy Conversion, vol. 40, no. 4, pp. 3019-3034, Dec. 2025.

[5] S. Qin,P. Wang, S. Li, H. Zhao, J. Wang and J. Luo, "Stability Region Assessment With Mechanism-Data Driven Equivalent Impedance for Wind Power Plant," in IEEE Transactions on Power Electronics, vol. 39, no. 8, pp. 9355-9366, Aug. 2024.

[6] H. Zhao,P. Wang, P. Palensky, S. Filizadeh and Y. Liu, "Guest Editorial: Methodologies and applications of digital twin for renewable-dominant power systems," in International Journal of Electrical Power and Energy Systems, vol. 171, pp. 111006, Aug. 2025.

[7] J.Luo,P. Wang, H. Zhao, C. Yuan, T. Liu and V. Terzija, "Online Identification of Stability Region for Large-Scale Wind Farms -- Part I Clustering Based Piecewise Affine Impedance Modeling,"in International Journal of Electrical Power & Energy Systems, vol. 170, pp. 110790, Sept. 2025.

[8] J.Luo,P. Wang, H. Zhao, Y. Liu and V. Terzija, "Online identification of stability region for large-scale wind farms, Part II: Construction of stability region boundary,"in International Journal of Electrical Power & Energy Systems, vol. 169, pp. 110791, Aug. 2025.

[9] J. Wang,P. Wang, H. Zhao and F. Yang, "Comprehensive Impedance Analysis of DFIG-Based Wind Farms Considering Dynamic Couplings," in IEEE Transactions on Power Electronics, vol. 40, no. 1, pp. 2259-2272, Jan. 2025.

[10] J. Wang, H. Zhao,P. Wang and Y. Gui, "Characterization of Impedance and Stability for Doubly-Fed Induction Generator Based on Voltage-Modulated Direct Power Control," in IEEE Transactions on Power Electronics, vol. 40, no. 10, pp. 15529-15544, Oct. 2025.

[11] J.Luo, H. Zhao and P. Wang, "Enhanced Low-Voltage Ride-Through Capability of DFIG by Explicit Model Predict Control Based Decoupled Virtual Impedance," in IET Renewable Power Generation, vol. 19, no. 1, pp. e70046, Jan. 2025.

[12]P. Wang, Y. Ma and H. Zhao, "Online Assessment of Multi-Parameter Stability Region and Stability Margin of Wind Power Plants," in International Journal of Electrical Power & Energy Systems, vol. 155, pp. 109413, Jan. 2024.

[13]P. Wang, H. Zhao, J. Luo and V. Terzija, "Low-Frequency Impedance Modeling of Wind Energy Conversion System Considering Mechanical Dynamics and Operating Regions," in Journal of Modern Power Systems and Clean Energy, vol. 13, no. 4, pp. 1224-1237, July 2025.

[14] J. Wang, H. Zhao and P. Wang, "Stability analysis of grid-connected inverter under full operating conditions based on small-signal stability region, " in Sustainable Energy, Grids and Networks, vol. 40, pp. 101515, Dec. 2024.

[15]P. Wang, M.Kuschke, K.Strunz. Equal-Area Criterion and Analytical Model for Transient Stability Assessment of Hybrid AC–DC Transmission System Using Voltage Sourced Converter[J]. IET Renewable Power Generation, 2023, 17(1): 18-35.

[16] 马悦鑫,王鹏, 赵浩然, 贺敬, 罗嘉, 王金龙. 基于分段仿射阻抗模型的电压源变流器小扰动稳定域在线构造[J]. 中国电机工程学报, 2023, 44(14): 5667-5680.

[17] 王金龙, 赵浩然,王鹏, 罗嘉, 孙开宁. 基于阻抗法的并网逆变器小信号稳定功率极限分析与提高[J]. 电力系统保护与控制, 2022, 50(18): 18-28.

[18] 罗嘉, 赵浩然, 高术宁,王鹏, 孙开宁. 基于显式模型预测控制和改进虚拟阻抗的双馈风机低电压穿越策略[J]. 电网技术, 2021, 45(05): 1716-1723.

[19]P. Wang, M.Kuschke, K.Strunz. Analytical Modeling of Modular Multilevel Converter Under Pole-to-Pole DC Fault and Application to System Design and Protection[J]. IEEE Transactions on Energy Conversion, 2022, 37(4): 2722-2736.

[20] S. Gao, H.Zhao,P. Wang. Comparative Study of Symmetrical Controlled Grid-Connected Inverters[J]. IEEE Transactions on Power Electronics, 2021, 37(4): 3954-3968.

[21] J. Lv,P. Wang, C. Yuan and S. Wu, "Small-Signal Impedance Modeling and Nodal Admittance Matrix Stability Analysis for Virtual Synchronous Generator Controlled Grid-Forming Converters," 2025 2nd International Symposium on New Energy Technologies and Power Systems (NETPS), Hangzhou, China, 2025, pp. 132-140.

[22] J. Lv,P. Wang and H. Zhao, "Transient Stability Enhancement in AC-DC Networks Using Virtual Synchronous Machines," 2025 10th Asia Conference on Power and Electrical Engineering (ACPEE), Beijing, China, 2025, pp. 1721-1728.

[23] M. Zhang, H. Zhao,P. Wang, M. Xu, H. Wang and C. Yuan, "Impedance Modeling in Frequency Domain and Frequency Sweep Verification for Grid-Forming Wind Turbines Employing Droop/Virtual Synchronous Generator Control," 2025 7th International Conference on Electronic Engineering and Informatics (EEI), Yangzhou, China, 2025, pp. 183-188.

[24] J. Lv, T. Liu,P.Wang, H. Zhao and S. Wu, "Impedance Modeling of Permanent Magnet Synchronous Generator with Virtual Synchronous Generator Controlled Converters Based on Piecewise Affine Theory," The 14th International Conference on Renewable Power Generation(RPG 2025). (in press)

[25] J. He J. He, J. Lv, J. Luo, H. Zhao,P. Wangand C. Ding, "Quantification of Wind Farm Stabilization Areas with the Grey Wolf Optimizer and Support Vector Machine," 2025 10th Asia Conference on Power and Electrical Engineering (ACPEE), Beijing, China, 2025, pp. 1168-1174.

[26] C. Ding, H. Zhao,P. Wang, J. Lv, J. Liu, J. Qin and J. Yang, "Research on Prediction of Mechanical Vibration Trends of Hydroelectric Units Based on Improved Deep Belief Network," 2024 6th International Conference on Electrical Engineering and Control Technologies (CEECT), Shenzhen, China, 2024, pp. 93-98.

[27] Y. Liu, J. Guo,P. Wang, H. Zhao, Q. Su and C. Yu, "Research and Development of BPA-DIgSILENT Power Grid Model Conversion Software," 2023 8th International Conference on Power and Renewable Energy (ICPRE), Shanghai, China, 2023, pp. 684-688.

[28] Y. Yu, L. Wang,P. Wang, C. Yuan, T. Liu, H. Zhao, W. Fan and Q. Shuang, "Parameter Identification of Frequency Control Model for Wind Farm Field Based on Forgetting Factor Least Squares," 2023 13th International Conference on Power and Energy Systems (ICPES), Chengdu, China, 2023, pp. 300-306.

[29] Y. Liu, J. Guo,P. Wang, H. Zhao, Q. Su and C. Yu, "Research and Development of BPA-DIgSILENT Power Grid Model Conversion Software," 2023 8th International Conference on Power and Renewable Energy (ICPRE), Shanghai, China, 2023, pp. 684-688.

[30] Y. Liu, J. He,P. Wang and H. Zhao, "Particle Swarm Optimization for PSS Parameters and Application to DIgSILENT PowerFactory," 2023 6th International Conference on Energy, Electrical and Power Engineering (CEEPE), Guangzhou, China, 2023, pp. 766-770.

[31] Y. Ma, H. Zhao,P. Wang, J. Luo, W. Zheng and J. Wang, "Parameter Identification and Stability Analysis of DFIG," 2022 International Conference on Power Energy Systems and Applications (ICoPESA), Singapore, Singapore, 2022, pp. 390-395.

[32] Y. Ma, T. Zheng, J. He, F. Miao,P. Wang and H. Zhao, "Plant Control Parameter Identification of Renewable Energy Station Based on Improved Least Square Method," 2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2), Chengdu, China, 2022, pp. 631-636.

发明专利：

[1]王鹏, 吕佳瑞, 赵浩然, 江兴涛, 吴盛军, 王大江, 袁陈昕炜. 一种基于PSASP的构网型变流器的机电暂态建模方法, ZL202511553570.8, 2026-03-06.

[2]王鹏, 袁陈昕炜, 赵浩然, 吴盛军, 王大江. 一种构网型直驱风机扭振预测方法、装置、设备及存储介质, ZL202411954674.5, 2025-12-26.

[3]王鹏,袁陈昕炜,赵浩然,罗嘉. 一种阻抗/导纳理论误差的评估方法及系统, ZL202510712681.2, 2025-10-10.

[4]王鹏, 刘天成, 赵浩然. 全动态直驱风电机组阻抗建模方法及系统, ZL202411586314.4, 2025-03-25.

[5]王鹏, 刘泳含, 赵浩然, 罗嘉, 李少林, 贺敬, 袁陈昕炜, 孟铃涵, 于佳乐. 一种基于事件数据驱动的风电场阻抗获取方法及装置, ZL202410757601.0, 2024-09-03.

[6]王鹏, 赵浩然, 袁陈昕炜, 李少林, 贺敬, 马悦鑫, 罗嘉, 王金龙. 一种风电场稳定区域和稳定裕度在线评估方法及评估终端, ZL202311225675.1, 2024-07-02.

[7]王鹏, 马悦鑫, 赵浩然, 李少林, 贺敬, 郭敬梅, 罗嘉, 王金龙, 王士柏. 一种基于分段仿射的电压源变流器稳定域构造方法及系统, ZL202311091069.5, 2024-03-26.

[8]王鹏, 赵浩然, 刘天成, 王金龙, 李少林, 贺敬, 郭敬梅. 一种直驱风电场稳定评估方法、系统、终端及介质, ZL202311552495.4, 2024-03-15.

[9]王鹏, 赵浩然, 罗嘉, 王金龙, 马悦鑫. 基于分段仿射的风电场阻抗确定方法、系统、设备及介质, ZL202310934559.0, 2023-11-14.

[10]王鹏, 赵浩然, 罗嘉, 高术宁, 王金龙. 基于全动态阻抗模型的风电并网稳定性判定方法及系统, ZL202110699996.X, 2023-06-20.

[11] 赵浩然, 王金龙,王鹏, 刘天成. 双馈风机的控制策略对比分析方法、系统、终端及介质，ZL202510479042.6，2025-12-23.

[12] 赵浩然, 袁陈昕炜,王鹏, 王金龙. 一种阻抗/导纳测量误差的评估方法及系统, ZL202510756655.X, 2025-09-05.

[13] 赵浩然, 袁陈昕炜,王鹏, 刘天成, 刘泳含. 一种PMSG阻抗参数自动辨识方法，ZL202410704026.8，2024-09-03.

主要科研项目：

[1] 国家科技重大专项，纵向项目，省域电力系统动态碳排放因子量化方法研究，2025.08-2028-07，子课题负责人。

[2] 国家重点研发计划，纵向项目，支撑数字赋能的风光变流器一二次融合技术，2023.12-2027-11，子课题负责人。

[3] 山东省自然科学基金面上项目，纵向项目，计及不确定参数的海上风电直流并网稳定机理分析与提升控制研究，2025.07-2028.06，主持。

[4] 山东省自然科学基金青年基金，纵向项目，基于值集法的大规模风电场小扰动稳定域量化理论研究，2024.01-2026.12，主持。

[5] 全国重点实验室开放基金，纵向项目，弱电网下高比例新能源并网暂态稳定评估与主动支撑灵活控制技术，2025.11-2027.08，主持。

[6] 国家电网总部项目，横向项目，大规模风电场并网实时稳定域的量化分析及优化策略研究，2023.11-2025.06，参与。

[7] 国家电网总部项目，横向项目，弱系统条件下构网型电力电子设备稳定分析与协同控制方法研究，2023.10-2025.12，参与。

[8] 国家电网省公司项目，横向项目，国网山东电科院2025年集中式新能源等值分群和准确度提升技术研究，2025.07-2026.12，主持。

[9] 南方电网科技项目，横向项目，新能源场站仿真试验辅助技术服务框架采购，2024.07-2026.07，主持。

[10] 一般企业科技项目，横向项目，风电场多物理场模型的建模设计和集成服务，2025.06-2026.10，主持。

奖励情况：

[1]2025年山东省科学技术进步奖二等奖（排名第3）

[2]2025年中国仿真学会科学技术奖一等奖（排名第5）

[3]2025年日内瓦国际发明展金奖（排名第10）

[4]2024年山东省能源研究会科学技术奖二等奖（排名第2）

[5]2021年山东省能源研究会科技贡献奖（优秀科技工作者）

[6]2021年德国最佳博士论文奖（Summa Cum Laude，最高荣誉）

招生类型：

教学科研型，招收学术型及专业型硕士研究生。

有志于攻读本人所在研究方向硕士研究生的同学，请附个人简历并标注关键课程和专业特长通过邮件联系。成绩优异者可推荐至柏林工业大学、奥尔堡大学、丹麦科技大学等高校进一步深造。