系所與團(tuán)隊(duì)：

高電壓與絕緣技術(shù)研究所

學(xué)術(shù)身份：

碩士研究生導(dǎo)師 IEEE會(huì)員

主要工作經(jīng)歷：

2000-2003：浙江大學(xué)，碩士

2005-2011：山東大學(xué)，博士[2003]4至今 山東大學(xué)

研究方向：

高電壓新技術(shù)

高電壓絕緣診斷技術(shù)

輸變電設(shè)備狀態(tài)監(jiān)測(cè)與故障診斷

學(xué)術(shù)著作：

[1]Li Zengrui, Wang Guan*, Li Junjie. Analysis of physical and chemical properties of insulation paperboard during thermal aging based on molecular simulation[C]. CIEEC 2021. (EI)

[2]王冠*，劉蘇賢，趙浩然，李波. 考慮電動(dòng)汽車(chē)充電樁無(wú)功響應(yīng)的優(yōu)化調(diào)度策略[J]. 湖南大學(xué)學(xué)報(bào), 2021, 48(10):152-160. (EI)

[3] Wang Guan*, Li Zengrui, Li Junjie, Wang Jiaju, Tian Hao. Grid-connected resonance analysis of half-wavelength transmission system with wind power and photovoltaic power supply[J]. INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS, 2022, 2(135). (SCI; EI) 

[4] Teng Yuanxin , Wang Guan*, Li Junjie, Zhao Zhongyu. Research on the Aging Mechanism of Insulation Paper of Converter Transformer Based on Molecular Dynamics[C]. IAEERO 2021. Beijing, China on October 15-17.(EI)

[5] Zengrui li, Guan Wang*, Junjie Li. Molecular Dynamics Simulation Analysis of Insulating Oil-paper Pyrolysis[C]. IAEERO 2021. Beijing, China on October 15 - 17.(EI) 

[6] Z. Zhao, G. Wang*, S. Liu, L. Wang and H. Wu, Calculation and Analysis of The Radial Short-circuit Electromotive Force of The Converter Transformer Winding[C]. IAEERO 2021.(EI) 

[7] Z. Zhao, G. Wang*, H. Zhao, B. Li, S. Liu and H. Lin, Optimal Scheduling Strategy of Charging Station Considering Reactive Power of Electric Vehicle Charging Pile[C].2021 I&CPS Asia. (EI) 

[8] Z. Li, G. Wang*, Z. Zhao and X. Jiang, "The deterioration mechanism of the mechanical and electrical properties of insulating cardboard under mechanical force," 2022 CIEEC.（EI） 

[9] Z. Zhao, G. Wang*, Z. Li and H. Lin, "Diffusion Motion Analysis of gas Molecules in Oil - paper Insulation System Based on Molecular Dynamics Simulation," CIEEC 2022.（EI） 

[10] Z. Zhao, G. Wang*, H. Liu, J. Yang, H. Wu and Q. Li, "Molecular Dynamics on Cracking Mechanism of Oil-Pressboard Insulation Under Electric–Thermal Coupling," IEEE Transactions on Dielectrics and Electrical Insulation, vol. 29, no. 5, pp. 1675-1684, Oct. 2022（SCI；EI）

[11] S. Liu, X. Wu, D. Wang*, Z. Zhang, G. Wang and L. Zhang, "Influence of DC Bias on Winding Vibration of Converter Transformer under Harmonic Condition," 2022 I&CPS Asia.（EI） 

[12] Zhao Jianchun, Zhang Guangyue, Qu Jierui, Chen Jiayi, Liang Shuang, Wei Kaiqiang, Wang Guan*. A Sound Source Localization Method Based on Frequency Divider and Time Difference of Arrival[J]. Applied Sciences-Basel, 2023, 10(13), 6183. (SCI) 

[13] Yan Kuo, Wang Guan*, Li Zihao, et al. Study on Electrothermal Aging of Insulation Pressboard Based on Molecular Simulation[C]. APET 2023.( EI) 

[14]Teng Yuanxin, Wang Guan*, Su Xiaomeng, et al. Time series prediction of transformer oil chromatography based on Attention-PSO-GRU model [C]. I&CPS Asia 2023, Chongqing, China, July7-9, 2023, pp. 1019-1026. (EI) 

[15]Liu Suxian, Wang Guan*, Zhang Li, et al. Research on Vibration of Converter Transformer under DC Bias Magnetism [C]. I&CPS Asia 2023, Chongqing, China, July7-9, 2023, pp. 149-154. (EI) 

[16] Teng Y. X; Zhang L.; Wang G.*; Wu M.Y; Fan C.L; Liu S S. Research on Arc Erosion Resistance of High-Entropy Alloy-Modified Aluminum Alloy Armature Based on Molecular Dynamics Simulation[J]. Coatings 2024, 14, 187. (SCI, EI) 

[17] Y. Niu, G. Wang* , H. Wang, Research on Transformer Noise and Noise Reduction Measures Based on Multi-physical Field Coupling, 2024 EPSIC, Changsha, China, (EI) 

[18] Wang Guan*, Yan Kuo, Zhao Zhongyu, et al. Degradation mechanism of oil–pressboard insulation by multiphysical field aging characteristics and cellulose crytallinity[J]. Cellulose, 2024, 31(16): 9945–9961. (SCI) 

[19] Wu M, Wang G*, Fan C, et al. Study on armature ablation resistance enhanced by surface modification of FeCr2-xNiCoAlx[J].Surface & Coatings Technology, 2025, 496. (SCI, EI）

主要科研項(xiàng)目：

[1] 國(guó)家自然科學(xué)基金區(qū)域聯(lián)合基金課題，“光-儲(chǔ)-路-車(chē)”協(xié)同的高效能與高彈性能源交通融合基礎(chǔ)理論研究。

[2] 山東省重點(diǎn)研發(fā)計(jì)劃（重大創(chuàng)新工程）課題，柔性智能電網(wǎng)裝備研究與示范。

[3] 國(guó)家自然科學(xué)基金委員會(huì)，青年基金項(xiàng)目，智能電網(wǎng)用基于空間電磁能的無(wú)線集能轉(zhuǎn)換器拓?fù)渑c優(yōu)化方法研究。

[4] 國(guó)家自然科學(xué)基金委員會(huì)，青年基金項(xiàng)目，長(zhǎng)行程快速電磁操動(dòng)機(jī)構(gòu)的組合模式與機(jī)理研究。

[5] 山東省自然科學(xué)基金，青年基金項(xiàng)目, 特高壓半波長(zhǎng)輸電線路的潛供電弧特性與抑制技術(shù)研究。

[6] 國(guó)家電網(wǎng)公司，特高壓半波長(zhǎng)輸電線路的潛供電弧特性與抑制。

[7] 國(guó)家電網(wǎng)公司，特高壓直流電磁暫態(tài)分析及與交流系統(tǒng)的交互影響研究。

[8] 國(guó)網(wǎng)新疆電力有限公司電力科學(xué)研究院，基于電荷分布規(guī)律的油紙絕緣劣化機(jī)理研究 。

[9] 國(guó)家電網(wǎng)華東分部，華東電網(wǎng)500kV變電站串內(nèi)實(shí)際電流分布影響因素及機(jī)理研究技術(shù)。

[10] 國(guó)網(wǎng)山東省電力公司電力科學(xué)研究院，高速氣流對(duì)復(fù)合絕緣子表面積污特性影響及沿海地區(qū)絕緣子積污預(yù)測(cè)分析。

[11] 國(guó)網(wǎng)山東省電力公司電力科學(xué)研究院，三支柱絕緣子放電裂紋檢測(cè)裝置加工與測(cè)試。

[12] 國(guó)網(wǎng)山東省電力公司濟(jì)寧供電公司，含多種分布式電源及電動(dòng)汽車(chē)接入的主動(dòng)配電網(wǎng)能量?jī)?yōu)化與控制。

[13] 山東中實(shí)易通集團(tuán)有限公司，綜合能源系統(tǒng)技術(shù)研究。

[14] 濟(jì)南銀河電氣有限公司，廣義有源濾波器及諧波綜合治理方案研究。

[15] 山東電力設(shè)備有限公司，低噪聲變壓器關(guān)鍵技術(shù)研究及在110kV變壓器上的應(yīng)用。

[16] 山東電力工程咨詢?cè)海馗邏合到y(tǒng)過(guò)電壓分析與抑制。

獎(jiǎng)勵(lì)情況：

山東省科技進(jìn)步一等獎(jiǎng)/二等獎(jiǎng)，山東電力科學(xué)技術(shù)三等獎(jiǎng)

招生類(lèi)型：

教學(xué)科研型。招收學(xué)術(shù)型和專(zhuān)業(yè)型碩士研究生。