在国内外知名期刊和会议上发表SCI/EI收录论文100余篇,授权发明专利30余项。获山东省科技进步二等奖(第1位)以及国家电网科技进步奖、山东省电工技术学会奖、日内瓦国家发明奖银奖等奖项7项。多次在IEEE IAS及电能质量学术研讨会做谐波建模、谐波溯源等相关特邀主题报告。所培养的学生多次获国家奖学金、国家级科创竞赛一等奖、优秀毕业生、优秀学位论文等。 部分已发表的期刊论文如下:
[1] Yuanyuan Sun*, Xiangmin Xie, Qingyan Wang, Linghan Zhang, Yahui Li, Zongshuai Jin. A bottom-up approach to evaluate the harmonics and power of home appliances in residential areas [J]. Applied Energy, 2020, 259: 114207. (SCI) [2] Yuanyuan Sun*, Xiangmin Xie, Linghan Zhang, Shurong Li. A voltage adaptive dynamic harmonic model of nonlinear home appliances [J]. IEEE Transactions on Industrial Electronics, 2020, 67(5): 3607-3617. (SCI) [3] Yahui Li, Yuanyuan Sun*, Qingyan Wang, Kaiqi Sun, Kejun Li, Yan Zhang. Probabilistic harmonic forecasting of the distribution system considering time-varying uncertainties of the distributed energy resources and electrical loads[J]. Applied Energy, 2023, 329. (SCI) [4] Yahui Li, Yuanyuan Sun*, Kejun Li, Kaiqi Sun, Zhijie Liu, Qingshen Xu. Harmonic modeling of the series-connected multipulse rectifiers under unbalanced conditions[J]. IEEE Transactions on Industrial Electronics, 2023, 70(7):6494-6505. (SCI) [5] Yuanyuan Sun*, Shurong Li, Qingshen Xu, Xiangmin Xie, Zongshuai Jin, Fang Shi, Hengxu Zhang. Harmonic contribution evaluation based on the distribution-level PMUs[J]. IEEE Transactions on Power Delivery, 2020, 36(2): 909-919. (SCI) [6] Xiangmin Xie, Yuanyuan Sun*, Qingyan Wang, Yahui Li, Yan Zhang, Linghan Zhang. A piecewise probabilistic harmonic model of aggregate residential loads [J]. IEEE Transactions on Power Delivery, 2021, 36(2): 841-852. (SCI) [7] Qingshen Xu, Yuanyuan Sun*, Yahui Li, Lei Ding, Kaiqi Sun, Shulin Yin, Xingong Cheng, Yang Liu. A generalized admittance criterion for dominant harmonic source determination without synchronous phasor measurements[J]. International Journal of Electrical Power & Energy Systems, 2024, 155: 109481. (SCI) [8] Shulin Yin, Yuanyuan Sun*, Qingshen Xu, Kaiqi Sun, Yahui Li, Lei Ding, Liuyang. Multi-harmonic sources identification and evaluation method based on cloud-edge-end collaboration[J]. International Journal of Electrical Power & Energy Systems, 2024, 156: 109681. (SCI) [9] Yuanyuan Sun*, Yue Hua, Erdong Wang, Na Li, Shuo Ma, Lina Zhang, Yiru Hu. A temperature-based fault pre-warning method for the dry-type transformer in the offshore oil platform[J]. International Journal of Electrical Power & Energy Systems, 2020, 123: 106218. (SCI) [10] Yue Hua, Yuanyuan Sun*, Gongde Xu, Shengya Sun, Erdong Wang, Yanqing Pang. A fault diagnostic method for oil-immersed transformer based on multiple probabilistic output algorithms and improved DS evidence theory[J]. International Journal of Electrical Power & Energy Systems, 2022, 137: 107828. (SCI) [11] Rui Yin, Yuanyuan Sun*, Shanshan Wang, Bing Zhao, Guanglu Wu, Shanmeng Qin, Lin Yu, Yuetong Zhao. Modeling and stability analysis of grid-tied VSC considering the impact of voltage feed-forward[J]. International Journal of Electrical Power & Energy Systems, 2022, 135: 107483. (SCI-) [12] Zhao Ma, Yahui Li, Yuanyuan Sun*, Kaiqi Sun. Low voltage direct current supply and utilization system: definition, key technologies and development[J]. CSEE Journal of Power and Energy Systems, 2023, 9(1):331-350. (SCI) [13] Rui Yin, Huadong Sun, Yuanyuan Sun*, Bing Zhao, Shanshan Wang, Guanglu Wu, Kaiqi Sun. Non-minimum phase behavior analysis of the weak grid-tied VSC's q-axis current control dynamics[J]. IEEE Transactions on Power Delivery, 2023, 38(2): 1493-1496. (SCI) [14] Rui Yin, Yuanyuan Sun*, Shanshan Wang, Lu Zhang. Stability analysis of the grid tied VSC considering the influence of short circuit ratio and X/R[J]. IEEE Transactions on Circuits and Systems II: Express Briefs, 2021, 69(1): 129-133. (SCI) [15] Yuanyuan Sun*, Chuankai Dai, Jiaqi Li, Jing Yong. Frequency-domain harmonic matrix model for three-phase diode-bridge rectifier[J]. IET Generation, Transmission & Distribution, 2016, 10(7): 1605-1614. (SCI) [16] 李亚辉, 孙媛媛*, 王庆岩, 丁磊, 孙凯祺, 刘洋, 程新功. 基于源荷谐波耦合模型的数据驱动概率谐波潮流计算[J/OL]. 中国电机工程学报, 1-12[2024-01-18]. [17] 尹睿, 孙媛媛*, 王姗姗, 赵兵, 吴广禄, 杨盼博, 秦善萌, 赵悦彤. 双馈入VSC并网系统单输入单输出传递函数建模与稳定性分析[J]. 中国电机工程学报, 2021, 41(19): 6724-6739. [18] 谢香敏, 孙媛媛*, 张凌菡, 和建成, 张岩, 安鹏. 家用电器非线性负荷的动态自适应谐波建模[J]. 中国电机工程学报, 2020, 40(8): 2479-2489. [19] 孙媛媛*, 张凌菡, 谢香敏, 冯照飞, 王姗姗. 基于谐波耦合主导分量模型的居民负荷集合性谐波评估[J]. 中国电机工程学报, 2019, 39(16): 4775-4785+4979. [20] 孙媛媛*, 李树荣, 石访, 张恒旭. 含分布式谐波源的配电网多谐波源责任划分[J]. 中国电机工程学报, 2019, 39(18): 5389-5398+5586. [21] 孙媛媛*, 刘福朝, 李佳奇, 张坤. 三相不控VSC的统一化谐波模型及运行状态判定[J]. 中国电机工程学报, 2016, 36(13): 3413-3421. [22] 孙媛媛*, 李佳奇, 尹志明, 王广柱. 含不控整流的交-直-交变换器频域谐波分析模型[J]. 中国电机工程学报, 2015, 35(21): 5483-5491. [23] 孙媛媛*, 许庆燊, 马钊, 丁磊, 王同勋, 李可军. 数字化背景下新型电力系统谐波溯源关键技术[J/OL]. 电力系统自动化,1-19[2024-01-18]. [24] 孙媛媛*, 程凯强, 许庆燊, 李道宇, 李亚辉. 考虑光伏出力相关性的主动配电网薄弱环节识别[J/OL]. 电力系统自动化, 2022, 06(12): 1-15. [25] 李亚辉, 孙媛媛*, 李可军, 许庆燊, 王庆岩. 不平衡供电条件下多脉动整流器的谐波特性分析[J]. 电力系统自动化, 2021, 45(23):152-161. [26] 王庆岩, 孙媛媛*, 谢香敏, 李亚辉, 许庆燊, 张岩. 基于改进多点估计与最大熵的概率谐波潮流算法[J]. 电力系统自动化, 2021, 45(02): 74-81. [27] 孙媛媛*, 李培鑫, 尹志明. 基于门限电压法的谐波源定位[J]. 电力系统自动化, 2015, 39(23): 145-151.
部分已授权专利如下:
[1] A harmonic contribution evaluation system based on cloud-edge-end collaboration, 申请号:PCT/CN2022/137579, 申请日:2022.12.8.(PCT国际专利) [2] 一种配电网光伏最大准入功率评估方法及系统, ZL202310973049.4, 2023.10.27. [3] 分布式光伏谐波定量评估方法、系统、终端设备及介质, ZL202310658384.5, 2023.08.18. [4] 新能源孤岛经柔直电网送出系统参数优化方法及系统, ZL202110908364.X, 2023.08.08. [5] 基于双重相关指标的谐波发射水平模糊评价方法及系统, ZL202310092927.1, 2023.05.09. [6] 一种考虑分布式光伏谐波耦合的时变电流评估方法及系统, ZL202211017156.1, 2023.04.11. [7] 用于抑制电压越限的光伏逆变器控制方法及系统, ZL 202210394803.4, 2023.03.24. [8] 一种非理想条件下多脉波整流器的谐波评估方法, ZL 202210972065.7, 2023.03.17. [9] 三相不平衡运行工况下6脉波整流器谐波电流评估方法, ZL 202210395958.X, 2023.03.17. [10] 一种基于云边端协同的谐波溯源系统及方法, ZL 202210979469.9, 2022.11.18. [11] 分布式光伏智能住宅的需求响应调度方法及系统, ZL 202211030305.8, 2022.11.18. [12] 一种LCC-MMC混合级联直流电网受端MMC稳定运行域的确定方法, ZL 202211010621.9, 2022.11.18. [13] 基于源荷等效导纳的台区谐波责任定性评估方法及系统, ZL 202210997501.6, 2022.11.15. [14] 考虑寄生参数的多有源桥变换器暂态振荡抑制方法及电路, ZL 202210952793.1, 2022.11.01. [15] 一种基于有限量测的配电网分区谐波责任评估方法及系统, ZL 202210415230.9, 2022.10.18. [16] 基于功率分段的电弧炉供电系统谐波评估方法与系统, ZL 202210874719.2, 2022.10.14. [17] 基于扩展谐波域模型的风力发电系统输出监测方法及系统, ZL 2020105480693, 2022.07.01. [18] 一种直驱风机经柔直送出系统稳定性分析方法及系统, ZL 202110161033.4, 2022.06.21. [19] 一种海上平台干式变压器状态监测与故障预警方法, ZL 202010021502.8, 2022.05.03. [20] 一种用于分析电网不确定性潮流的方法及系统, ZL 202010115626.2, 2022.03.11. [21] 基于虚拟调制的闭锁故障后直流过电压抑制方法及系统, ZL 202010104816.4, 2021.10.26. [22] 一种双馈入VSC输电系统稳定性评估方法及系统, ZL 202010759368.1, 2021.09.24. [23] 一种用于建立集合性居民负荷的谐波建模方法及系统, ZL 201911090121.9, 2021.09.03. [24] 基于改进热网络模型的变压器热点温度识别方法及系统, ZL 202010467489.9, 2021.05.18. [25] 弱电网连接下电压源型换流器电压前馈环节作用分析方法, ZL 201911113979.2, 2021.01.05. [26] 一种基于实测数据建立家用电器负荷谐波模型的方法, ZL 201811258954.7, 2020.10.30. [27] 一种配电系统抗短路故障干扰的谐波责任划分方法, ZL 201810891385.3, 2020.10.02. [28] 一种数据驱动的供电薄弱环节识别方法及系统, ZL 201911044830.3, 2020.06.09. [29] 一种电动汽车充电过程时变谐波电流评估方法及系统, ZL 201910690166.3, 2020.04.21. [30] 一种配电系统中公共耦合点处不平衡责任的定量计算方法, ZL 201710408798.7, 2020.01.14.
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