亚博ag官网

顧 偉(wei)

職(zhi)稱:青年首(shou)席(xi)教授(shou),博(bo)士生導師

研(yan)究方向:綜(zong)合能(neng)源系(xi)(xi)統(tong)、電(dian)(dian)力系(xi)(xi)統(tong)仿真、分布式發電(dian)(dian)與微網、主動配電(dian)(dian)網等

個人網頁(ye): www.seuwgu.icoc.cc

Email:wgu@tonesnew.com

辦公電話: 13814005169

個人簡介:

顧偉,東南大學(xue)青年首(shou)席教授,國家(jia)級(ji)青年人才(cai)計(ji)劃獲得者IET Fellow,東南大學亞博ag官網(wang)副院長,分布式發電與主(zhu)動配電網(wang)研究所所長,IEEE PES 能源互聯網運行與(yu)控制等4個分委會副(fu)主席。主要從事綜合能源系統、電力系統仿真(zhen)、分布式發(fa)電與(yu)微電網等領(ling)域的研究。主持國家重點研(yan)發計劃戰略(lve)性(xing)國際科(ke)技創新合作重點專項 1項、國(guo)家自然科學基(ji)金(jin)聯合基(ji)金(jin)(重點支持(chi))項目1項、面上/青年項目3項,江蘇省杰(jie)出青年科(ke)學基(ji)金1項,國家(jia)重點研發計劃課題1項。以第一完成(cheng)人獲得中(zhong)國仿真學會(hui)科(ke)學技術一等獎(jiang)1項、日內瓦國(guo)際(ji)發明展金獎2項。擔(dan)任IEEE Trans. on Power Systems, 電力系統自(zi)動化等6本國內(nei)(nei)外核心期(qi)刊(kan)編委。在國內(nei)(nei)外核心刊(kan)物上發(fa)表SCI論文100余篇,授權(quan)國家發明專利60件、美國(guo)發明(ming)專利3件。

20186月,入選東南大學(xue)“我最喜愛的研究(jiu)生導師”之(zhi)十佳導師2019年,獲(huo)得江蘇(su)教師年度人物(wu)稱號(hao)20205月,獲得東南大(da)學青年(nian)五四獎章。

  

主要論著

1)著作:

[1]顧偉, 樓冠男(nan), 柳偉. 《微(wei)電網分布式控(kong)制(zhi)理論與方法》, 科(ke)學出(chu)版社, 2019, 12(ISBN 978-7-03-0628742-9).

2)英文論文:

[1]H. Qiu, W. Gu, L. Wang, G. Pan, Y. Xu and Z. Wu, “Trilayer Stackelberg Game Approach for Robustly Power Management in Community Grids,” IEEE Transactions on Industrial Informatics, 2021, 17(6): 4073-4083.

[2]W. Zhuang, S. Zhou, W. Gu and X. Chen, “Optimized Dispatching of City-Scale Integrated Energy System Considering the Flexibilities of City Gas Gate Station and Line Packing,” Applied Energy, 2021, 290: 116689.

[3]L. Yang, Y. Xu, W. Gu and H. Sun, “Distributionally Robust Chance-Constrained Optimal Power-Gas Flow under Bidirectional Interactions Considering Uncertain Wind Power,” IEEE Transactions on Smart Grid, 2021, 12(2): 1722-1735.

[4]H. Qiu, H. Long, W. Gu and G. Pan, “Recourse-Cost Constrained Robust Optimization for Microgrid Dispatch with Correlated Uncertainties,” IEEE Transactions on Industrial Electronics, 2021, 68(3): 2266-2278.

[5]H. Qiu, W. Gu, X. Xu, G. Pan, P. Liu, Z. Wu and L. Wang, “A Historical-Correlation-Driven Robust Optimization Approach for Microgrid Dispatch,” IEEE Transactions on Smart Grid, 2021, 12(2): 1135-1148.

[6]S. Zhang, W. Gu, H. Qiu, S. Yao, G. Pan and X. Chen, “State Estimation Models of District Heating Networks for Integrated Energy System Considering Incomplete Measurements,” Applied Energy, 2021, 282: 116105.

[7]H. Qiu, W. Gu and F. You, “Bilayer Distributed Optimization for Robust Microgrid Dispatch With Coupled Individual-Collective Profits,” IEEE Transactions on Sustainable Energy, DOI: 10.1109/TSTE.2021.3053559.

[8]C. Wu, W. Gu, S. Zhou and X. Chen, “Coordinated Optimal Power Flow for Integrated Active Distribution Network and Virtual Power Plants Using Decentralized Algorithm,” IEEE Transactions on Power Systems, DOI: 10.1109/TPWRS.2021.3049418.

[9]S. Lu, W. Gu, K. Meng and Z. Dong, “Economic Dispatch of Integrated Energy Systems with Robust Thermal Comfort Management,” IEEE Transactions on Sustainable Energy, 2021, 12(1): 222-233.

[10]H. Long, C. Zhang, R. Geng, Z. Wu and W. Gu, “A Combination Interval Prediction Model based on Biased Convex Cost Function and Auto Encoder in Solar Power Prediction,” IEEE Transactions on Sustainable Energy, DOI: 10.1109/TSTE.2021.3054125.

[11]G. Lou, Q. Yang, W. Gu, X. Quan, J. M. Guerrero and S. Li, “Analysis and Design of Hybrid Harmonic Suppression Scheme for VSG Considering Nonlinear Loads and Distorted Grid,” IEEE Transactions on Energy Conversion, DOI: 10.1109/TEC.2021.3063607.

[12]W. Liu, W. Gu, P. Li, G. Cao, W. Shi and W. Liu, “Non-Iterative Semi-Implicit Integration Method for Active Distribution Networks with a High Penetration of Distributed Generations,” IEEE Transactions on Power Systems, 2021, 36(1): 438-450.

[13]G. Pan, W. Gu, Y. Lu, H. Qiu, S. Lu and S. Yao, “Accurate Modeling of a Profit-Driven Power to Hydrogen and Methane Plant Toward Strategic Bidding within Multi-Type Markets,” IEEE Transactions on Smart Grid, 2021, 12(1): 338-349.

[14]S. Zhang, W. Gu, S. Yao, S. Lu, S. Zhou and Z. Wu, “Partitional Decoupling Method for Fast Calculation of Energy Flow in A Large-scale Heat and Electricity Integrated Energy System,” IEEE Transactions on Sustainable Energy, 2021, 12(1): 501-513.

[15]S. Yao, W. Gu, S. Lu, S. Zhou, Z. Wu, G. Pan and D. He, “Dynamic Optimal Energy Flow in the Heat and Electricity Integrated Energy System,” IEEE Transactions on Sustainable Energy, 2021, 12(1): 179-190.

[16]S. Lu, W. Gu, C. Zhang, K. Meng and Z. Dong, “Hydraulic-Thermal Cooperative Optimization of Integrated Energy Systems: A Convex Optimization Approach,” IEEE Transactions on Smart Grid, 2020, 11(6): 4818-4832.

[17]G. Pan, W. Gu, Y. Lu, H. Qiu, S. Lu and S. Yao, “Optimal Planning for Electricity-Hydrogen Integrated Energy System Considering Power to Hydrogen and Heat and Seasonal Storage,” IEEE Transactions on Sustainable Energy, 2020, 11(4): 2662-2676.

[18]G. Lou, W. Gu, X. Lu, Y. Xu and H. Hong, “Distributed Secondary Voltage Control in Islanded Microgrids with Consideration of Communication Network and Time Delays,” IEEE Transactions on Smart Grid, 2020, 11(5): 3702-3715.

[19]H. Qiu, W. Gu, Y. Xu, W. Yu, G. Pan and P. Liu, “Tri-Level Mixed-Integer Optimization for Two-Stage Microgrid Dispatch with Multi-uncertainties,” IEEE Transactions on Power Systems, 2020, 35(5): 3636-3647.

[20]C. Wu, W. Gu, R. Bo, H.Mehdipourpicha, P. Jiang, Z. Wu, S. Lu and S. Yao, “Energy Trading and Generalized Nash Equilibrium in Combined Heat and Power Market,” IEEE Transactions on Power Systems, 2020, 35(5): 3378-3387.

[21]G. Pan, W. Gu, H. Qiu, Y. Lu, S. Zhou and Z. Wu, “Bi-Level Mixed-Integer Planning for Electricity-Hydrogen Integrated Energy System Considering Levelized Cost of Hydrogen,” Applied Energy, 2020, 270: 115176.

[22]Z. Yi, Y. Xu, W. Gu and W. Wu, “A Multi-Time-Scale Economic Scheduling Strategy for Virtual Power Plant Based on Deferrable Loads Aggregation and Disaggregation,” IEEE Transactions on Sustainable Energy, 2020, 11(3): 1332-1346.

[23]X. Shi, Y. Xu, Q. Guo, H. Sun and W. Gu, “A Distributed EV Navigation Strategy Considering the Interaction between Power System and Traffic Network,” IEEE Transactions on Smart Grid, 2020, 11(4): 3545-3557.

[24]S. Lu, W. Gu, S. Zhou, S. Yao and G. Pan, “Adaptive Robust Dispatch of Integrated Energy System Considering Uncertainties of Electricity and Outdoor Temperature,” IEEE Transactions on Industrial Informatics, 2020, 16(7): 4691-4702.

[25]G. Pan, W. Gu, S. Zhou, Z. Wu, H. Qiu and Y. Lu, “Synchronously Decentralized Adaptive Robust Planning Method for Multi-Stakeholder Integrated Energy Systems,” IEEE Transactions on Sustainable Energy, 2020, 11(3): 1128-1139.

[26]S. Lu, W. Gu, S. Zhou, W. Yu, S. Yao and G. Pan, “High-Resolution Modeling and Decentralized Dispatch of Heat and Electricity Integrated Energy System,” IEEE Transactions on Sustainable Energy, 2020, 11(3): 1451-1463.

[27]Y. Qiu, S. Zhou, J. Wang, J. Chou, Y. Fang, G. Pan and W. Gu, “Feasibility Analysis of Utilising Underground Hydrogen Storage Facilities in Integrated Energy System: Case Studies in China,” Applied Energy, 2020, 269: 115140.

[28]L. Wang, W. Gu, Z. Wu, H. Qiu and G. Pan, “Non-cooperative Game-based Multilateral Contract Transactions in Power-heating Integrated Systems,” Applied Energy, 2020, 268: 114930.

[29]G. Cao, W. Gu, P. Li, W. Sheng, K. Liu, L. Sun, Z. Cao and J. Pan, “Operational Risk Evaluation of Active Distribution Networks Considering Cyber Contingencies,” IEEE Transactions on Industrial Informatics, 2020, 16(6): 3849-3861.

[30]S. Lu, W. Gu, K. Meng, S. Yao, B. Liu and Z. Y. Dong, “Thermal Inertial Aggregation Model for Integrated Energy Systems,” IEEE Transactions on Power Systems, 2020, 35(3): 2374-2387.

[31]H. Long, L. Sang, Z. Wu and W. Gu, “Image-Based Abnormal Data Detection and Cleaning Algorithm Via Wind Power Curve,” IEEE Transactions on Sustainable Energy, 2020, 11(2): 938-946.

[32]H. Qiu, W. Gu, Y. Xu, Z. Wu, S. Zhou and G. Pan, “Robustly Multi-Microgrid Scheduling: Stakeholder-Parallelizing Distributed Optimization,” IEEE Transactions on Sustainable Energy, 2020, 11(2): 988-1001.

[33]P. Ge, X. Dou, X. Quan, Q. Hu, W. Sheng, Z. Wu and W. Gu, “Extended-State-Observer-Based Distributed Robust Secondary Voltage and Frequency Control for an Autonomous Microgrid,” IEEE Transactions on Sustainable Energy, 2020, 11(1): 195-205.

[34]Y. Xu, H. Sun and W. Gu, “A Novel Discounted Min-Consensus Algorithm for Optimal Electrical Power Trading in Grid-connected DC Microgrids,” IEEE Transactions on Industrial Electronics, 2019, 66(11): 8474-8484.

[35]P. Li, W. Gu, H. Long, G. Cao, Z. Cao, B. Xu and J. Pan, “High-Precision Dynamic Modeling of Two-Staged Photovoltaic Power Station Clusters,” IEEE Transactions on Power Systems, 2019, 34(6): 4393-4407.

[36]H. Qiu, W. Gu, Y. Xu and B. Zhao, “Multi-Time-Scale Rolling Optimal Dispatch for AC/DC Hybrid Microgrids with Day-Ahead Distributionally Robust Scheduling,” IEEE Transactions on Sustainable Energy, 2019, 10(4): 1653-1663.

[37]H. Qiu, W. Gu, Y. Xu, Z. Wu, S. Zhou and J. Wang, “Interval-Partitioned Uncertainty Constrained Robust Dispatch for AC/DC Hybrid Microgrids With Uncontrollable Renewable Generators,” IEEE Transactions on Smart Grid,2019, 10(4): 4603-4614.

[38]L. Luo,W. Gu, Z. Wu and S. Zhou, “Joint Planning of Distributed Generation and Electric Vehicle Charging Stations Considering Real-Time Charging Navigation,” Applied Energy, 2019, 242: 1274-1284.

[39]G. Pan, W. Gu, Z. Wu, Y. Lu and S. Lu, “Optimal Design and Operation of Multi-Energy System with Load Aggregator Considering Nodal Energy Prices,” Applied Energy, 2019, 239: 280-295.

[40]G. Lou, W. Gu, J. Wang, W. Sheng and L. Sun, “Optimal Design for Distributed Secondary Voltage Control in Islanded Microgrids: Communication Topology and Controller,” IEEE Transactions on Power Systems, 2019, 34(2): 968-981.

[41]Y. Xu, H. Sun, W. Gu, Y. Xu and Z. Li, “Optimal Distributed Control for Secondary Frequency and Voltage Regulation in an Islanded Microgrid,” IEEE Transactions on Industrial Informatics, 2019, 15(1): 225-235.

[42]Z. Li, Y. He, Y. Li, W. Gu, Y. Tang and X. Zhang, “Hybrid Control Strategy for AC Voltage Stabilization in Bipolar VSC-MTDC,” IEEE Transactions on Power Systems, 2019, 34(1): 129-139.

[43]C. Wu, W. Gu, R. Bo, P. Jiang, Z. Wu, S. Lu and S. Yao, “A Two-Stage Game Model for Combined Heat and Power Trading Market,” IEEE Transactions on Power Systems, 2019, 34(1): 506-517.

[44]P. Li,W. Gu, H. Long, G. Cao, Z. Cao, B. Xu and J. Pan, “High-Precision Dynamic Modeling of Two-Staged Photovoltaic Power Station Clusters,” IEEE Transactions on Power Systems, 2019, 34(6): 4393-4407.

[45]L. Luo, W. Gu, S. Zhou, H. Huang, S. Gao, J. Han, Z. Wu and X. Dou, “Optimal Planning of Electric Vehicle Charging Stations Comprising Multi-Types of Charging Facilities,” Applied Energy, 2018, 226: 1087-1099.

[46]Z. Wu, P. Liu, W. Gu, H. Huang and J. Han, “A Bi-Level Planning Approach for Hybrid AC-DC Distribution System Considering N-1 Security Criterion,” Applied Energy, 2018, 230: 417-428.

[47]Y. Xu, J. Hu,W. Gu, W. Su and W. Liu, “Real-Time Distributed Control of Battery Energy Storage Systems for Security Constrained DC-OPF,” IEEE Transactions on Smart Grid, 2018, 9(3): 1580-1589.

[48]L. Luo, W. Gu, X. Zhang, G. Cao, W. Wang, G. Zhu, D. You and Z. Wu, “Optimal Siting and Sizing of Distributed Generation in Distribution Systems with PV Solar Farm Utilized as STATCOM(PV-STATCOM),” Applied Energy, 2018, 210:1092–1110.

[49]H. Qiu, W. Gu, J. Pan, B. Xu, Y. Xu, M. Fan and Z. Wu, “Multi-Interval-Uncertainty Constrained Robust Dispatch for AC/DC Hybrid Microgrids with Dynamic Energy Storage Degradation,” Applied Energy, 2018, 228: 205-214.

[50]H. Qiu, B. Zhao, W. Gu and R. Bo, “Bi-Level Two-Stage Robust Optimal Scheduling for AC/DC Hybrid Multi-Microgrids,” IEEE Transactions on Smart Grid, 2018, 9(5):5455 - 5466.

[51]W. Liu, W. Gu, J. Wang, W. Yu and X. Xi, “Game Theoretic Non-Cooperative Distributed Coordination Control for Multi-Microgrids,” IEEE Transactions on Smart Grid, 2018, 9 (6): 6986- 6997.

[52]G. Lou, W. Gu, J. Wang, J. Wang and B. Gu, “A Unified Control Scheme Based on a Disturbance Observer for Seamless Transition Operation of Inverter Interfaced Distributed Generation,” IEEE Transactions on Smart Grid, 2018, 9(5): 5444-5454.

[53]Y. Xu, Z. Yang, W. Gu and Z. Deng, “Robust Real Time Distributed Optimal Control Based Energy Management in a Smart Grid,” IEEE Transactions on Smart Grid, 2017, 8(4):1568-1579.

[54]G. Lou, W. Gu, Y. Xu, W. Jin and X. Du, “Stability Robustness for Secondary Voltage Control in Autonomous Microgrids with Consideration of Communication Delays,” IEEE Transactions on Power Systems, 2018, 33(4): 4164-4178.

[55]W. Gu, S. Lu, Z. Wu, X. Zhang, J. Zhou, B. Zhao and J. Wang, “Residential CCHP Microgrid with Load Aggregator: Operation Mode, Pricing Strategy, and Optimal Dispatch,” Applied Energy, 2017, 205:173–186.

[56]W. Gu, Z. Wang, Z. Wu, Z. Luo, Y. Tang and J. Wang, “An Online Optimal Dispatch Schedule for CCHP Microgrids Based on Model Predictive Control,” IEEE Transactions on Smart Grid, 2017, 8(5):2332-2342. (ESI高被引論文)

[57]C. Wu, W. Gu, P. Jiang, Z. Li, H. Cai and B. Li, “Combined Economic Dispatch Considering the Time-Delay of a District Heating Network and Multi-Regional Indoor Temperature Control,” IEEE Transactions on Sustainable Energy, 2018, 9(1):118-127.

[58]W. Gu, J. Wang, S. Lu, Z. Luo and C. Wu, “Optimal Operation for Integrated Energy System Considering the Thermal Inertia of District Heating Network and Buildings,” Applied Energy, 2017, 199: 234-246. (ESI高被(bei)引論文)

[59]W. Gu, G. Lou, W. Tan and X. Yuan, “A Nonlinear State Estimator-Based Decentralized Secondary Voltage Control Scheme for Autonomous Microgrids,” IEEE Transactions on Power Systems, 2017, 32(6): 4794-4804.

[60]G. Lou, W. Gu, Y. Xu, M. Chen and W. Liu, “Distributed MPC-Based Secondary Voltage Control Scheme for Autonomous Droop-Controlled Microgrids,”IEEE Transactions on Sustainable Energy, 2017, 8(2): 792-804.

[61]W. Liu, W. Gu, Y. Xu, Y. Wang and K. Zhang, “General Distributed Secondary Control for Multi-microgrids with Both PQ-controlled and Droop-controlled Distributed generators,” IET Generation, Transmission & Distribution, 2017, 11(3): 707-718.

[62]W. Liu, W. Gu, W. Sheng, X. Meng, S. Xue and M. Chen, “Pinning-Based Distributed Cooperative Control for Autonomous Microgrids Under Uncertain Communication Topologies,”IEEE Transactions on Power Systems, 2016, 31(2):1320-1329.

[63]W. Gu, W. Liu, J. Zhu, B. Zhao, Z. Wu, Z. Luo and J. Yu, “Adaptive Decentralized Under-Frequency Load Shedding for Islanded Smart Distribution Networks,” IEEE Transactions on Sustainable Energy, 2014, 5(3):886-895.

[64]W. Liu, W. Gu, W. Sheng, X. Meng, Z. Wu and W. Chen, “Decentralized Multi-Agent System-Based Cooperative Frequency Control for Autonomous Microgrids with Communication Constraints,” IEEE Transactions on Sustainable Energy, 2014, 5(2): 446-456. (ESI高(gao)被引論文)

[65]T. Ding, R. Bo, W. Gu, Q. Guo and H. Sun, “Absolute Value Constraint Based Method for Interval Optimization to SCED Model,” IEEE Transactions on Power Systems, 2014, 29(2): 980-981.

[66]T. Ding, R. Bo, W. Gu and H. Sun, “Big-M Based MIQP Method for Economic Dispatch With Disjoint Prohibited Zones,” IEEE Transactions on Power Systems, 2014, 29(2): 976-977.

3)中文論文:

[1]曹陽, 顧偉(wei), 柳偉, 曹戈, 樓冠(guan)男, 鄒德虎. 基于交(jiao)叉(cha)初始化的換(huan)流器(qi)參數化恒(heng)導納模型中國電(dian)機工程學(xue)報, DOI:10.13334/j.0258-8013.pcsee.201045.

[2]潘光(guang)勝, 顧偉, 張會巖, 邱玥. 面向高比例可再生(sheng)能源(yuan)消納的(de)電氫能源(yuan)系統. 電力系統自動化, 2020, 44(23): 1-13.

[3]史文(wen)博, 顧偉(wei), 柳偉, 蔣(jiang)平, 曹志煌, 潘(pan)靜, 盛萬興, 孫麗敬. 結合模(mo)型切換和變步(bu)長算法的(de)雙饋風電建模(mo)及仿(fang)真. 中國電機工程學報, 2019, 39(22): 6592-6599.

[4]趙毅, 吳志, 錢仲豪, 顧偉, 李(li)冬(dong)輝, 劉陽(yang). 計(ji)及源-荷時空相(xiang)關性(xing)的主動配(pei)電網(wang)分(fen)布式(shi)優化調度. 電(dian)力系(xi)統自動化, 2019, 43(19): 68-76.

[5]吳志, 劉亞斐, 顧(gu)偉(wei), 劉鵬翔, 李俊杰, 李哲. 基于改進Benders分(fen)(fen)解的(de)儲能、分(fen)(fen)布式(shi)電源與配電網多(duo)階段(duan)規劃. 中(zhong)國(guo)電機工程學報(bao), 2019, 39(16): 4705-4715.

[6]洪灝灝, 顧偉, 黃強, 陳(chen)亮(liang), 袁曉冬, 王建華(hua). 微電網中多(duo)虛擬同步機(ji)并聯運行有功(gong)振蕩阻尼(ni)控制. 中國電(dian)機工程學報(bao), 2019, 39(5): 1290-1300.

[7]姚帥(shuai), 顧偉, 張雪松, 趙波, 陸(lu)帥(shuai), 吳晨雨. 熱(re)網(wang)特性對于綜合能(neng)源系統超短(duan)期調度(du)的(de)影響(xiang). 電力系統(tong)自(zi)動化, 2018, 42(14): 83-90.

[8]劉海波,李鵬, 顧偉(wei), 張雪松, 竇(dou)曉(xiao)波, 付明. 區域分布式(shi)電源集群(qun)監(jian)控(kong)系統. 電(dian)力系統自動化(hua), 2018, 42(8): 163-169.

[9]朱俊澎(peng), 顧偉, 張韓旦, 王(wang)偉軍, 朱(zhu)剛, 尤錠軍. 考(kao)慮(lv)網絡動態重構的分布(bu)式電源(yuan)選址定容優化(hua)方法. 電力系(xi)統(tong)自(zi)動化, 2018, 42(5): 111-119.

[10]任佳依, 顧偉, 王(wang)勇, 嵇文(wen)路(lu), 劉海波, 曹戈. 基于模(mo)型(xing)預測控制(zhi)的主動配電網多時間尺度有功無功協調調度. 中(zhong)國電機工程學報, 2018, 38(5): 1397-1407.

[11]顧偉, 陸帥, 王珺, 尹香, 張成(cheng)龍, 王(wang)志賀. 多區域綜合能源系(xi)統熱網(wang)建模(mo)及系(xi)統運行(xing)優化(hua). 中(zhong)國電機工程學報, 2017, 37(5): 1305-1315.

[12]邱海峰, 趙(zhao)波(bo), 林達, 顧(gu)偉(wei). 計及儲能損耗和(he)換流(liu)成(cheng)本的(de)交直流(liu)混合微網區(qu)域協調(diao)調(diao)度.電力系統(tong)自動化, 2017, 41(23): 29-37.

[13]顧偉, 任佳依, 高(gao)君, 高(gao)菲, 宋(song)曉(xiao)輝, 劉海波. 含(han)分布(bu)式電源和可調(diao)負荷的售電公司優化調(diao)度模型. 電力系統(tong)自動化, 2017, 41(14): 37-44.

[14]顧(gu)偉, 邱海峰, 尹香, 陳兵(bing), 袁曉冬, 王(wang)旭(xu)沖(chong). 基(ji)于波形(xing)匹配的(de)諧波責任(ren)劃分方法. 電力系統自動化, 2017, 41(2): 129-134.

[15]王珺, 顧偉, 陸帥, 張成龍, 王志賀, 唐沂媛. 結合(he)熱網(wang)模型的多區域(yu)綜合(he)能源系統協同(tong)規(gui)劃. 電力系統自動化, 2016, 40(15): 17-24.

[16]顧(gu)偉, 薛帥(shuai), 王勇, 柳(liu)偉(wei), 陳明(ming), 曹戈. 基于有限時間(jian)一致(zhi)性的(de)直流微電網分布(bu)式協同(tong)控制(zhi). 電(dian)力(li)系統自動化, 2016, 40(24): 49-55.

[17]丁濤, 顧偉, 萬秋蘭(lan). 基于MVEE理論和廣域測量的擾動識別(bie)算法. 電力系(xi)統自動化, 2013, 37(3): 38-42.

[18]顧(gu)偉, 吳志, 王銳. 考慮污染氣(qi)體排(pai)放(fang)的熱(re)電聯供型微電網多目標運行優化. 電力系統自動化, 2012, 36(14): 177-186.

[19]柳偉, 顧偉, 孫蓉, 李群, 王銳(rui). DFIG-SMES互補系統一次(ci)調頻控制. 電(dian)工(gong)技術學報(bao), 2012, 27(9): 108-116.

[20]顧偉, 丁濤, 楊自群, 萬秋蘭. 在線電壓安全評估的(de)多重(zhong)動態決策(ce)樹方(fang)法. 中國電機工程學(xue)報(bao), 2011, 31(31): 142-148.

[21]沈臣, 顧偉(wei), 吳(wu)志. 孤島模式下的(de)微電網低(di)頻減載策略分析(xi). 電力(li)系統(tong)自動化, 2011, 35(9): 47-52.

[22]王銳(rui), 顧偉, 吳志. 含可再生能源(yuan)的(de)熱(re)電聯供型微網經(jing)濟(ji)運行優化. 電力系統(tong)自(zi)動化, 2011, 35(8): 22-27.

4)授權發明專利(li):

[1]W. Gu, G. Lou, M. Chen, W. Liu, S. Xue and G. Cao, Distributed Predictive Control Based Voltage Restoration Scheme for Microgrids, US201615552189, 2019.09.03. 美國專利(li)

[2]W. Gu, G. Lou, S. Zhou, Z. Wu and G. Cao, Decentralized Voltage Control Method for Microgrid Based on Nonlinear State Observers, US201816107932, 2020.08.25. 美國專利

[3]W. Gu, G. Cao, W. Liu, Z. Wu, S. Zhou and G. Lou, General Distributed Control Method for Multi-Microgrids with PQ Control and Droop Control, US201615763733, 2020.05.05. 美(mei)國專(zhuan)利

[4]湯(tang)一達, 顧偉, 盛萬(wan)興, 吳(wu)志(zhi), 宋(song)曉輝, 高菲, 趙(zhao)毅, 一種構建主(zhu)動配電網故障恢復(fu)統一模型(xing)的(de)方法, CN201910406777.0, 2021.02.19.

[5]樓冠(guan)男, 顧(gu)偉, 一種基于(yu)圖論連(lian)通(tong)性的微電(dian)網分(fen)布式通(tong)訊拓撲設(she)計方法, CN201810076380.5, 2020.12.29.

[6]顧偉, 吳晨(chen)雨, 蔣平, 吳志, 陸帥, 姚帥, 一(yi)種(zhong)熱(re)?電綜(zong)合能源管理系(xi)統及方法, CN201811010037.7, 2020.10.16.

[7]顧偉, 邱海(hai)峰, 趙波, 一種交直流混合(he)微網魯棒優化(hua)協調調度(du)方法, CN201711471851.4, 2020.09.11.

[8]顧偉, 邱海(hai)峰, 龍寰, 周蘇洋, 吳志, 計及儲能(neng)動態損耗的交直流混合微網魯棒調度方法, CN201810294782.2, 2020.08.11.

[9]顧偉, 邱海峰(feng), 吳(wu)志(zhi), 丁津(jin)津(jin), 徐斌, 種多微網系統的(de)雙層協調魯(lu)棒優(you)化調度(du)方法, CN201810166341.4, 2020.08.04.

[10]吳晨雨, 顧偉, 蔣(jiang)平, 李振元, 蔡宏毅, 李(li)寶聚(ju), 一(yi)種熱電聯合優(you)化調度(du)模型的建(jian)模方法, CN201710296092.6, 2020.05.05.

[11]樓(lou)冠男, 顧偉, 曹戈, 洪灝灝, 楊權, 基于線性二次型優(you)化的微電(dian)網分布式控(kong)制(zhi)器(qi)參數確定方法, CN201810229054.3, 2020.04.24.

[12]姚帥, 顧偉(wei), 陸(lu)帥, 吳晨雨, 考慮區域熱(re)網暫態傳熱(re)特(te)性的多能流系(xi)統(tong)優(you)化運行(xing)方法(fa), CN201711459115.7, 2020.03.31.

[13]宋(song)杉, 顧偉, 蘭(lan)嵐, 王(wang)勇, 孫昕(xin)杰, 羅興, 周科峰, 嵇(ji)文(wen)路, 基(ji)于場景分析的含(han)分布式電(dian)源配電(dian)網運行狀態預測方法, CN201710790471.0, 2020.01.17.

[14]顧(gu)偉, 胡子健(jian), 周蘇洋, 吳志, 竇曉波, 吳在軍(jun), 一種基于NARMA?L2模型微電(dian)網能(neng)量(liang)管理方(fang)法, CN201811054866.5, 2021.03.02.

[15]顧偉(wei), 邱海峰, 周蘇洋, 吳志, 竇曉波, 吳在軍, 計(ji)及(ji)儲能荷電狀態循環的交直流微網日內滾動優化(hua)調(diao)度方法, CN201810384935.2, 2019.12.17.

[16]樓冠男, 顧(gu)偉, 曹戈(ge), 柳偉, 陳明(ming), 基于臨(lin)界(jie)特征根(gen)跟蹤的微電(dian)網延時裕(yu)度(du)計算方(fang)法, CN201710456420.4, 2019.12.17.

[17]顧偉, 邱海峰, 周蘇洋, 龍寰, 吳志, 基于多區間不確定性魯棒優(you)化的交直流微網經濟(ji)調度, CN201810293205.1, 2019.12.10.

[18]顧偉, 邱海峰, 周蘇(su)洋, 吳志(zhi), 竇曉波(bo), 吳(wu)在軍, 計及交直流微網(wang)應對災害事(shi)件(jian)彈性能力(li)的魯(lu)棒調度方(fang)法, CN201810384661.7, 2019.11.22.

[19]樓(lou)冠男, 顧偉, 王(wang)珺, 陸帥, 駱釗, 吳晨(chen)雨, 一種基于熱網和房屋熱慣性的綜合能源系統優化方法, CN201710019950.2, 2019.11.08.

[20]顧偉, 陸帥, 王(wang)珺, 王志賀(he), 唐沂(yi)媛, 駱釗, 一種(zhong)基于運行優化模型的多區域綜合能源系統運行方法, CN201610876606.0, 2019.11.08.

[21]吳志, 楊權(quan), 顧偉, 王(wang)劉芳, 李偉, 徐斌, 一種不(bu)確定環境下考(kao)慮安(an)全(quan)校驗(yan)的電網魯棒規劃(hua)方法, CN201710695389.X, 2019.11.05.

[22]樓冠男(nan), 顧偉, 楊權(quan), 曹戈, 柳(liu)偉, 陳明, 一(yi)種基于內模控制的微電網(wang)并離(li)網(wang)平滑切換控制策(ce)略, CN201710099260.2, 2019.09.03.

[23]顧偉, 聶(nie)穎惠, 宋杉, 朱俊澎, 任佳依, 一種計及(ji)被動式(shi)孤(gu)島檢測失敗影響的配電(dian)網可靠(kao)性評(ping)估方法, CN201610693159.5, 2019.09.03.

[24]顧(gu)偉, 邱(qiu)海峰(feng), 周蘇洋, 吳志, 竇曉(xiao)波(bo), 吳在軍(jun), 一種交直流混聯微網的隨機(ji)魯棒耦合型優化調度方法, CN201810166474.1, 2019.08.27.

[25]顧偉, 陸帥, 駱(luo)釗, 吳志, 王珺, 一(yi)種基于魯棒優化的冷熱電聯供型微網運行(xing)方(fang)法, CN201611149137.9, 2019.04.09.

[26]顧偉, 王珺(jun), 陸帥, 王(wang)志賀, 唐沂(yi)媛, 駱釗(zhao), 結合熱網模(mo)型的多區域綜合能源系統(tong)配(pei)置模(mo)型的建(jian)立方法, CN201610362848.8, 2019.03.29.

[27]顧偉, 陸帥, 駱釗, 吳(wu)志, 王珺, 一種基于魯(lu)棒優化的冷熱電聯供型微網運行方法(fa), CN201611149137.9, 2019.03.04.

[28]樓冠男, 顧偉, 一種基(ji)于非線性狀態觀測(ce)器(qi)的微電網分(fen)散式電壓控制方法, CN201611269647.X, 2019.04.09.

[29]顧偉(wei), 陳明(ming), 柳偉, 樓冠男, 曹戈, 一種基于等網(wang)損微(wei)增率的主動(dong)配(pei)電網(wang)分布式無功優(you)化方法, CN201610818830.4, 2019.02.03.

[30]顧偉, 陸帥, 駱釗, 吳(wu)志, 王(wang)珺, 基于兩階段協(xie)調優化與控制(zhi)的冷(leng)熱電(dian)聯供型微網運行方法, CN201611149138.3, 2019.02.03.

[31]顧偉, 朱俊澎, 蔣平, 吳志, 聶穎慧(hui), 任佳依, 一種以減(jian)少用戶停電損失(shi)目標的動態(tai)孤島劃分方法, CN201610838309.7, 2018.10.22.

[32]任佳依, 顧偉, 高君, 劉海波, 曹(cao)戈, 促(cu)進可再(zai)生能源消納的(de)電動(dong)汽車換(huan)電站充放電調度方法(fa), CN201610591492.5, 2018.08.15.

[33]任佳依(yi), 顧偉, 高君, 曹戈(ge), 劉海波, 基于二階錐(zhui)優化的售電公(gong)司(si)所(suo)轄區域配電網(wang)的調度方法(fa), CN201610599899.2, 2018.08.15.

[34]顧偉, 樓冠男, 袁(yuan)曉冬, 陳明, 柳(liu)偉, 曹(cao)戈, 一種(zhong)基于擾(rao)動觀測(ce)器(qi)的微電網并離網平滑切(qie)換控(kong)制方法, CN201610513952.2, 2018.07.10.

[35]顧(gu)偉, 陳明, 柳偉, 樓(lou)冠(guan)男(nan), 曹戈, 一種(zhong)基于(yu)輔助問(wen)題(ti)原理的主動配電網分(fen)布式(shi)無(wu)功優化方法, CN201610691974.8, 2018.07.05.

[36]邱(qiu)海(hai)峰(feng), 顧偉, 王旭沖, 儲(chu)佳(jia)偉, 一種基于波形匹配的(de)諧波電壓責任的(de)劃(hua)分方(fang)法, CN201610576849.2, 2018.06.28.

[37]顧偉, 曹戈(ge), 薛帥(shuai), 柳偉, 陳明, 樓冠男, 洪(hong)灝灝, 基(ji)于(yu)有限時間一致(zhi)性的直流微電網(wang)分布(bu)式(shi)協(xie)同控制方法, CN201610516573.9, 2018.06.15.

[38]顧偉(wei), 唐沂(yi)媛, 王志(zhi)賀(he), 駱釗, 王珺, 陸帥(shuai), 一種綜合能源系統中的分布式電源的配置方法, CN201610089467.7, 2018.06.05.

[39]顧偉, 陳明, 柳偉, 基于有限時(shi)間一致性的孤島微電網分布式(shi)協調(diao)控(kong)制方法, CN201610054613.2, 2018.02.06.

[40]顧偉, 樓冠男(nan),一種基于分布式預(yu)測控制策略的(de)微電網電壓恢復方法, CN201610135626.2, 2018.02.06.

[41]顧偉, 王志賀, 駱(luo)釗, 唐沂媛, 一種基于(yu)模型(xing)預測(ce)控(kong)制的冷熱電聯供型(xing)微(wei)電網運行方法, CN201510059153.8, 2017.10.13.

[42]顧偉, 高(gao)君, 薛帥, 王志(zhi)賀, 含直(zhi)接控制負荷和(he)可中斷負荷的售電公司兩(liang)階(jie)段調度方法, CN201510552713.3, 2017.08.25.

[43]顧偉, 柳偉, 陳明(ming), 薛帥(shuai), 樓冠男, 曹戈, 面向對等模式(shi)下微電網的基于牽制(zhi)的分(fen)布式(shi)協同控制(zhi)方(fang)法, CN201510586785.X, 2017.05.31.

[44]高君, 顧(gu)偉, 朱俊澎, 任(ren)佳依, 含柔性負荷的配(pei)電公司日前優化(hua)調(diao)度(du)方(fang)法, CN201510428352.1, 2017.05.24.

[45]高君, 顧偉, 任佳依(yi), 朱(zhu)俊澎, 配電網內分布(bu)式電源有功無功解耦的多階段調度方法(fa), CN201510427576.0, 2017.05.03.

[46]柳偉, 顧偉, 薛帥, 陳明(ming), 曹戈, 趙波, 周金輝, 一種用于(yu)不確(que)定通信拓(tuo)撲(pu)的(de)微(wei)電網協同(tong)控(kong)制方法, CN201510044890.0, 2017.04.05.

[47]曹戈, 顧(gu)偉, 柳偉, 樓(lou)冠(guan)男, 陳明, 通用型包(bao)含恒(heng)功率(lv)和(he)下垂控制(zhi)的微電網群分布式控制(zhi)方(fang)法, CN201610856013.8, 2017.02.15.

[48]高君, 顧偉, 朱俊(jun)澎, 任佳(jia)依, 含分布(bu)式電源和可轉(zhuan)移負荷(he)的(de)售電公司優化調度方法, CN201510383004.7, 2017.02.06.

[49]顧偉(wei), 樓冠男, 袁曉東(dong), 陳(chen)明, 柳偉, 曹戈, 一種(zhong)基于擾動(dong)觀測器(qi)的微電網并離(li)網平滑切換控制方法(fa), CN201610513952.2, 2016.09.07.

[50]顧偉, 薛(xue)帥, 柳偉, 陳明, 曹戈, 趙波(bo), 周金輝, 一種基于牽制的微電網(wang)分布(bu)式協同控(kong)制方法(fa), CN201510045261.X, 2016.08.24.

[51]顧偉, 羅李子, 許超, 姚建國, 楊勝春, 王珂, 曾丹, 一種(zhong)基于優(you)化方(fang)法的非迭代不確定潮流分析方(fang)法, CN201410370695.2, 2016.03.16.

[52]顧偉, 劉元園, 周贛, 駱釗, 王志(zhi)賀, 唐沂媛, 一種多樓宇冷(leng)熱電聯供系統的(de)優化運行方(fang)法, CN201410001065.8, 2016.01.20.

[53]羅李(li)子, 顧偉(wei), 許(xu)超, 姚建國(guo), 楊勝春, 王珂, 曾丹, 一種(zhong)基于優化(hua)方法(fa)(fa)的不確定潮流支路功率(lv)分析方法(fa)(fa), CN201410371616.X, 2016.01.20.

[54]柳(liu)偉, 薛帥(shuai), 顧偉, 陳明, 一種用于降低孤(gu)島微電(dian)網切負荷成本的(de)控制方法(fa), CN201410508535.X, 2016.01.13.

[55]顧偉(wei), 柳偉, 周贛, 一種基(ji)于功率缺(que)額預測及分(fen)配的(de)微電網協同頻率控(kong)制(zhi)方法, CN201210265895.2, 2014.04.02.

[56]顧偉, 張寧, 謝吉(ji)華, 周贛, 微電網(wang)分頻能量管理方法, CN201210574837.8, 2013.05.01.

  

國家級科研項(xiang)目:

[1]國家(jia)重點研發計(ji)劃--戰略性國際(ji)科技創新合作重點專(zhuan)項: “一(yi)帶一(yi)路”共建(jian)國家城(cheng)市智慧能(neng)源網(wang)絡協同能(neng)量管理與(yu)運行(xing)優化技術聯合(he)研發(fa)和示范(fan), 2020年(nian)6-20236, 主持.

[2]國家重點研發計劃(hua): 分布式可再生能源發電集群實時仿真和(he)測試技術(shu), 20167-20196, 課題負(fu)責人.

[3]國(guo)家自然科學基金聯合基金項目(mu)(重點支持): 能源市(shi)場環境下多能互(hu)補系統協調運行(xing)理論及(ji)方法研(yan)究, 20191月(yue)-202212月(yue), 主持.

[4]國(guo)家自(zi)然(ran)科學基金面上(shang)項目: 基于源荷儲分散(san)式協同(tong)的自治電力(li)系統緊(jin)急控制研究, 20151-201812, 主持.

[5]國家科(ke)技支撐計劃: 消納風電(dian)的熱-電聯合優(you)化規劃及運(yun)行控制技術, 20154-201712月(yue), 子課題負責人.

[6]國家自然科學基金面上項目: 冷熱電(dian)(dian)聯供型(xing)微電(dian)(dian)網高效運行的建模與優化方法(fa), 20131-2016年(nian)12, 主持.

[7]國家(jia)863計劃: 含分布(bu)式電(dian)(dian)源的微(wei)電(dian)(dian)網關鍵技(ji)術研發, 20121-201412, 技術骨干.

[8]國家863計劃(hua): 電動汽車(che)充放(fang)電及(ji)與電網互動關鍵技術, 20121-201412, 技術(shu)骨干.

[9]國家自然科學基金(jin)青(qing)年基金(jin)項(xiang)目: 電網緊急(ji)條件(jian)下(xia)防御電壓崩潰的廣域(yu)切負荷(he)預(yu)測控制研究, 20101-201212, 主持.

[10]國(guo)家自然科學基金面上項目: 采(cai)用微分代數(shu)模(mo)型的復(fu)雜(za)電(dian)力(li)大(da)系統區域控制研究, 20101月(yue)-201212, 參(can)與.

  

其(qi)他重要科技項目:

[1]江蘇省杰出青年科學基金(jin): 多能互補(bu)綜合能源系統規劃、運行與(yu)仿(fang)真技術, 20207-20236月(yue), 主(zhu)持.

[2]江蘇省自(zi)然科(ke)學基金: 微電(dian)網多(duo)源頻率支撐潛能挖掘(jue)及協同控制研究, 201112-201412月(yue), 主持.

[3]江蘇省產學研前瞻性研究(jiu)項目: 基于分布式電源的主動配電網定制電力技術研究, 20157-20176, 主持.

[4]國家(jia)電網公司(si)總部科(ke)技(ji)項目: 綜合能源系統多能流仿真及能量管理關鍵技術研究,201911-202112月,主持.

[5]國網江蘇省電力有限(xian)公(gong)司項目: 基于全壽命周期的微電網建設效益評估及應用場景研究, 20195-20205, 主持.

[6]安徽省電(dian)力公司(si)電(dian)力科學研(yan)究院科技項目: 分(fen)布式可再生能源發(fa)電集群并網(wang)消(xiao)納(na)關鍵技術及示范應用, 20167-20196, 主持.

[7]浙江省電(dian)力(li)公(gong)司電(dian)力(li)科學研(yan)究(jiu)院(yuan)科技(ji)項目: 區(qu)域綜合能源系(xi)統(tong)統(tong)一建模與高(gao)效優化算法研究, 20171-20191, 主持.

[8]浙(zhe)江(jiang)省電力公司科技(ji)項目: 面向(xiang)風光海多類型高密度新能源接入的沿(yan)海縣(xian)域交直(zhi)流配網(wang)規劃技術(shu)研(yan)究(jiu), 2017年(nian)1-20191, 主(zhu)持.

[9]江蘇省電力公(gong)司電力科(ke)學研(yan)究院科(ke)技項目: 基于電(dian)力-信(xin)息數(shu)模(mo)混合的主動配電網高(gao)性(xing)能仿(fang)真平臺開(kai)發, 20174-201812, 主持.

[10]國家電網公司總部科技項目(mu): 配網側高密(mi)度多種分(fen)布式電源的智能(neng)監控與協同(tong)優化調度技術研究, 20155-20175, 主持.

[11]浙(zhe)江(jiang)省電(dian)力公(gong)司科技項目(mu): 區域分布式電(dian)源集群(qun)技術研究, 20156-201612,子(zi)課題(ti)負責(ze)人.

[12]江蘇省(sheng)電(dian)(dian)力公司電(dian)(dian)力科學研究(jiu)院科技項(xiang)目: 電壓暫降擾動對典型敏感設備影響(xiang)特性及試驗技術研(yan)究(jiu), 20156-20166, 主持.

[13]中國電力科學研究院科技項(xiang)目: 大規模配電網的(de)不確定(ding)區間潮流計算, 201412-201612, 主持(chi).

[14]中國電(dian)力科學研(yan)究院科技項(xiang)目(mu): 廣域(yu)分布式電源接入配電網建模及影響評估(gu)分析(xi), 20146-2015年(nian)6, 主持.

[15]國家電網公司總部科技項目: 分布(bu)式(shi)光伏規(gui)模化接入(ru)配網(wang)就地(di)消(xiao)納(na)關鍵技術(shu)研究, 2014-2014, 參與.

[16]中國電力科學研究院科技項目: 配電(dian)網分(fen)布式電(dian)源與(yu)負荷的(de)特(te)性分(fen)析及協調機理研究(jiu), 2013年(nian)1-20156, 主持.

[17]中國電力科學研究院科技項目: 計及負(fu)荷可(ke)調特性的有源配(pei)電網運(yun)行優化研究, 20136-20156, 主(zhu)持.

[18]國家電(dian)網(wang)公(gong)司總部科技(ji)項目: 配電網接(jie)納分(fen)布式電源適應性與(yu)并網技術研(yan)究, 20136-2014年(nian)6, 參與.


學術任(ren)職(zhi):

[1]學(xue)會(hui)組織任(ren)職: 中國仿真學(xue)會(hui)電力系統仿真專業委(wei)員會(hui)副主任(ren), IEEE Senior Member, 中國電(dian)機工(gong)程學會(hui)(hui)會(hui)(hui)員.

[2]期(qi)刊編委(wei): 頂刊IEEE Trans. on Power Systems編委、CSEE Journal of Power and Energy Systems青年編(bian)委、IET Energy Systems Integration編委、IEEE OAJPE編(bian)委、《電力系統自動化》編(bian)委.

[3]學(xue)術評(ping)審(shen): 擔任瑞士(shi)自然(ran)科學(xue)基金、冰島研究基金會(Icelandic Research Fund)外評專家,國家自(zi)然(ran)科學基金委工(gong)材/信息學部NSFC-EPSRC“智能電網”、“汽車(che)產業創(chuang)新”領域重點項(xiang)目評(ping)審專家(jia),國家(jia)科技部國際合作項(xiang)目評(ping)審專家(jia)。

  

教(jiao)學工(gong)作(zuo):

本科生課(ke)程: 電(dian)力系(xi)統暫態分析、電(dian)力系(xi)統綜合課(ke)程設計

研(yan)究生課程: 綜合能源系統


人才培養:

目(mu)前, 科研(yan)團隊中博士(shi)研(yan)究生12, 碩(shuo)士(shi)研究(jiu)生30人。截至目(mu)前(qian), 團隊成員獲寶鋼(gang)優秀學生獎2人(ren)次,國家獎學金10+人次, 各類(lei)企(qi)業獎學金數十(shi)次(ci), 江(jiang)蘇省優秀博士(shi)論(lun)文1人次,優秀碩士(shi)論文4人次, 已畢業研究生50+人。

畢業研究生中, 6人成為(wei)國內985/211/省屬高校優秀教師(shi): 吳志(東南大學副教授), 柳偉(南京(jing)理工(gong)大學副教(jiao)授(shou)), 樓冠男(東南大學講師), 朱俊(jun)澎(河海大(da)學講(jiang)師(shi)), 羅李子(南京(jing)理(li)工大學講(jiang)師(shi)), 駱釗(昆明理工大(da)學講(jiang)師)。



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