Ph.D. in Electrical Engineering, Tsinghua University, July 2006 Doctoral dissertation: Design and Development of a Novel Superconducting Combined Device SMES-SFCL.

Master’s in Theoretical Electrical Engineering, Tsinghua University, January 1998 Master’s thesis: Development and Research of the Central Management System for the Chairman Mao Memorial Hall.

Bachelor’s in Electrical Engineering Automation, Tsinghua University, July 1995 Undergraduate thesis: Research on Control Systems for High-Power Switching Power Supplies.

April 1998–July 2001: Taught the Windows Programming course for third-year students each fall semester, with approximately 150 students per session.

2009–2012: Taught the elective Power Electronics Computer Simulation course for fourth-year students each fall semester, with approximately 30 students per session.

September 2000–Present: Core Instructor for the Circuit Theory course.

September 2022–Present: Developed and taught the Tool Software Training course.

Main research fields: Power quality control technology, power electronics control technology, and related areas. Selected Research Projects Led or Participated In

√ January 1999–December 2001, Participated in Tsinghua University’s 985 Program Key Project: Power Quality Research for Green Power Systems

√ September 2001–December 2004, Participated in NSFC Key Project (50137020): Fundamental Research on High-Temperature Superconducting Power Applications

April 2003–December 2004, Participated in National 863 Program Project: Power Quality Improvement Research Based on SMES Systems

√ July 2004–December 2006, Led Tsinghua University–Ministry of Railways Joint Research Fund Project: Simulation Research on AC Electrified Railways

√ July 2006–December 2007, Led Tsinghua University–Ministry of Railways Joint Research Fund Project: Research on Negative Sequence Currents in AC Electrified Railways

√ January 2007–December 2008, Led State Grid Corporation Project: Theoretical Research on Power Definition and Metering Methods Considering Power Quality Factors Such as Harmonics and Negative Sequences

√ January 2008–December 2013, Led China Automotive Energy Research Center Project: Research on Automotive Power Energy

√ January 2009–December 2011, Led NSFC Project (50807030): Key Technologies for Load Management in Microgrids

√ January 2009–December 2012, Led NSFC Special Fund Project (50823001): Fundamental Theoretical Research on Microgrid Applications

√ January 2009–December 2010, Led Ministry of Railways Key Science and Technology Research Project: Safety Research on Traction Power Supply Systems—Study on Power Regulators for Heavy-Load Lines Based on Dual Single-Phase STATCOM

√ April 2009–March 2011, Led Toshiba Corporation Commissioned Project: Evaluation of Cooling System on Locomotive Driving Device

√ November 2010–March 2011, Led Hitachi Corporation Commissioned Project: Survey on the Current Status of China’s Smart Grid

√ March 2011–December 2013, Led Subproject 606 of Ministry of Science and Technology Sino-US Electric Vehicle Cooperation Project: Analysis of China’s Power Structure Characteristics and Energy-Saving and Emission Reduction Effects of Electric Vehicles

√ March 2013–December 2014, Led Tsinghua-Rio Tinto Sustainable Development Research Center Project: China’s Smart Grid Development Strategy and Selected Technology Roadmap Research

√ May 2013–December 2014, Led State Grid Headquarters Science and Technology Project: Simulation Models and Implementation Methods for Regional Small Hydropower/New Energy Complementary Microgrids in Grid Restoration Control and Black Start

√ November 2013–December 2014, Led State Key Laboratory of Power Systems Project: Characteristics Research on Submarine HVAC Cables for Offshore Wind Farms

√ January 2014–December 2015, Led BMW-Tsinghua Urban Development Model Project: Analysis of Power Demand and Grid Impact of Pure Electric Vehicles in Different Types of Urban Development

√ June 2015–March 2016, Led Toshiba Co. Project: Energy Management Research for Active Distribution Networks, 8 million JPY, Project Leader

√ July 2016–December 2020, Participated in National Key R&D Program: Fundamental Theory of Power System Planning and Operation with High Penetration of Renewable Energy

√ January 2021–December 2024, Participated in NSFC Key Project: Carbon Metering Technology and Planning, Operation, and Trading Methods for Power Systems from a Carbon Perspective

√ January 2022–December 2025, Participated in NSFC General Program Project: Formation Mechanism and Evaluation of Higher-Order Thinking Skills in Authentic Learning Contexts in the Digital Intelligence Era

[1] Guiping Zhu, Shumin Wang. Review of Power Quality Control Technologies. Automation of Electric Power Systems, 2002, 26(19): 28-31

[2] Guiping Zhu, Zanji Wang etc. Transient Behavior Research on the Combined Equipment of SMES-SFCL. IEEE Trans. on Applied Superconductivity, 2004, 14(2): 778–781 (SCI-indexed, IDS Number: 844HA; Ei: 04378348942)

[3] Guiping Zhu, Zanji Wang and Guoqiang Zhang. Research on a Combined Device SMES-SFCL based on Multi-Object Optimization. IEEE Trans. on Applied Superconductivity, 2005, 15(2): 2019-2022 (SCI-indexed, IDS Number: 935FS; Ei: 05299228416)

[4] Guiping Zhu, Zanji Wang. Novel SMES-SFCL Multifunctional Combined Device. Automation of Electric Power Systems, 2005, 29(13): 45-48

[5] Guiping Zhu, Ming Song, Zanji Wang, Shaotao Dai. Design of LTS Coil Used for the Combined Device of SMES-SFCL. IEEE Trans. on Applied Superconductivity, 2006, 16(2): 674–677 (SCI-indexed, IDS Number: 144NW; Ei: 063210047726)

[6] Guiping Zhu, Zanji Wang, Xiaohua Jiang. Design and Research on a Multi-Functional Combined Device Incorporating a SMES. IEEE Trans. on Applied Superconductivity, 2007, 17(2): 2018-2021 (SCI-indexed, IDS Number: 195WI; Ei: 073110740750)

[7] Qingzhu Wan, Guiping Zhu, Jianye Chen, et al. Optimal Design of Compensation Capacity for Balancing Single-Phase Traction Loads. Automation of Electric Power Systems, 2008, 32(8): 93-97 (Ei: 082111273229)

[8] Zhu Guiping, Chen Jianye, Liu Xiaoyu. Compensation for the negative-sequence currents of electric railway based on SVC. Industrial Electronics and Applications, 2008, ICIEA2008, 3^rd IEEE Conference on, Singapore, June3-5: 1958-1963 (EI: 083911591332)

[9] Dawai Chen, Guiping Zhu. Power Transmission Characteristics in Low-Voltage Microgrids. Transactions of China Electrotechnical Society, 2010, 25(7): 117-122+143 (EI: 20103413174464)

[10] Dawai Chen, Guiping Zhu. Optimal Load Distribution in Microgrids. Automation of Electric Power Systems, 2010, 34(20): 45-49 (EI: 20104713409060)

[11] Yong Yao, Guiping Zhu, Xiucheng Liu. Impact of Harmonics on Low-Voltage Microgrid Operation. Electric Power, 2010, 43(10): 11-14

[12] Chaoyang Yan, Guiping Zhu. Research on the Impact of PWM Control Algorithms on Losses in High-Power Converters. Power Electronics, 2010, 44(12): 41-43

[13] Guiping Zhu, Fuping Wang, Jianye Chen. Thermoelectric Hybrid Simulation of Water-Cooled High-Power Electronic Devices. 2010 National Forum on New Electrotechnical Technologies.

[14] Wang Ke, Zhu Guiping. Research on Control Method of Two Single-Phase B2B STATCOM in Traction System. 2010 China International Conference on Electricity Distribution (CICED 2010), Nanjing, Jiangsu, China, September 13-17 (EI: 20111713931828)

[15] Zhenhua Wang, Guiping Zhu. Research on Optimization Algorithms for Micro-Source Output in Grid-Connected States. Electric Power, 2012, 45(1): 55-58

[16] Yong Yao, Guiping Zhu. Application of Battery Energy Storage Systems in Improving Microgrid Power Quality. Transactions of China Electrotechnical Society, 2012, 27(1): 85-89 (EI: 20120914812503)

[17] Zhu Guiping, Lu Zongxiang. Research of Impacts on Power Systems by Electric Vehicle Charging in China. International Conference on Energy and Environmental Protection, June 23-24, 2012, Hohhot, Inner Mongolia, China. Advanced Materials Research, Renewable and Sustainable Energy II, V512-515: 2643-2649, (EI: 20122315084950)

[18] Zhao Hong, Zhu Guiping. A novel frequency control strategy of micro-source based in the secondary frequency regulation of power system. The 5th China International Conference on Electricity Distribution (CICED) 2012, September 5-6, Shanghai, China. (EI: 20132216365272)

[19] Xing Yuhui, Zhu Guiping. Research on Electric Vehicle Charging Power Forecasting based on statistical model. The 5th China International Conference on Electricity Distribution (CICED) 2012, September 5-6, Shanghai, China. (EI: 13500274)

[20] Yan Zhaoyang. Zhu Guiping. Voltage ripple across the capacitor in DC side of shunt APF. IEEE conference of power system technology (POWERCON 2012), Auckland, New Zealand, Oct.28 ~ Nov.2, 2012 (EI: 20130616003376)

[21] Weiming Xiong, Guiping Zhu. Construction and Case Analysis of the IRPP Economic Decision Support Tool for Renewable Energy. Renewable Energy Resources, 31(4), 2013: 65-70

[22] Li Yuanxi, Zhu Guiping. Prediction on Power Energy Mix of China Based on Neural Network Model. IEEE Power Energy Society General Meeting 2013, July 21-25, Vancouver, Canada. (EI: 13932919).

[23] Zhu Guiping, Xing Yuhui. Electric Vehicle Charging Strategy in Metropolises in China. IEEE Power Energy Society General Meeting 2013, July 21-25, Vancouver, Canada. (EI: 20140617271722)

[24] Xing Yuhui, Zhu Guiping. Power control of microgrid with rich small hydropower stations. 2014 International Conference on Energy Research and Power Engineering, ERPE 2014, May 17-18, 2014, Dalian, China: 412-418 (EI: 20143418085887)

[25] Zhu Guiping, Dui Xiaowei. Reactive compensation research of HVAC cables for offshore wind farms. 2014 International Conference on Energy Research and Power Engineering, ERPE 2014, May 17-18, 2014, Dalian, China: 433-438

[26] Zhu Guiping, Xia Mingchao, Wang Siyu. Hybrid Power Supply System of Rail Transit Based on On-board Energy Storage Equipment. 2014 International conference on Power System Technology (PowerCon 2014), Oct. 20-22, Chengdu, Sichuan, China. (EI: 20151200671632)

[27] Chen Zhang, Guiping Zhu. Regional Autonomy Control of EV Charging with PV/ES Systems in Active Distribution Network. IEEE PES Asia-Pacific Power and Energy Engineering Conference 2015 (IEEE PES APPEEC 2015), Nov. 15-18^th, 2015, Brisbane, Australia

[28] Zhu Guiping, Dui Xiaowei, Zhang Chen. Optimization of reactive power compensation of HVAC cable in off-shore wind power plant. IET Renewable Power Generation, Vol.9, No.7, Sep. 2015: 857-863 (EI: 20153401198455)(SCI: 000360304500017)

[29] Huang Limiao, Zhu Guiping. Analysis of the Control Strategies of Parallel Active Power Filter. Asia Conference on Power and Electrical Engineering, ACPEE 2016, March 20-22, 2016, Bangkok, Thailand (EI: 20162102419803)

[30] Xiaowei Dui, Guiping Zhu. Optimization Method for Energy Storage Configuration in Wind Farms Considering Prediction Errors. Power System Technology, Vol. 41, No. 2, February 2017: 434-439. (EI: 20171703605358)

[31] Xiaowei Dui, Guiping Zhu. Optimal unit commitment based on second order cone programming in high wind power penetration scenarios. IET Renewable Power Generation, Vol.12, No.1, Jan. 2018: 52-60(SCI: 17466792)

[32] Xiaowei Dui, Guiping Zhu, Liangzhong Yao. Two-stage optimization of battery energy storage capacity to decrease wind power curtailment in grid-connected wind farms. IEEE Trans. on Power Systems. Vol.33, No.3, May 2018:3296-3305 (SCI: 17716432)

[33] Xiaowei Dui, Masakazu Ito, Yu Fujimoto, Yasuhiro Hayashi, Guiping Zhu.Time Series Model of Wind Power Forecasting Error by using Beta Distribution for Optimal Sizing of Battery Storage. IEEJ Transactions on Power and Energy, Vol. 139, No.3

[34] Chao Wu, Guiping Zhu, Minhui Qian. Impact of Historical Data Selection Based on Information Entropy on the Accuracy of Ultra-Short-Term Wind Power Prediction. Power System Technology, Vol. 45, No. 5, May 2021: 1767-1772

[1] Guiping Zhu, Xinjie Yu, Wenjuan Lu. Comparison of Time-Domain and Frequency-Domain Analysis of First-Order RC Circuits. Journal of Electrical and Electronic Education, 2007, 29(3): 29-31

[2] Guiping Zhu, Xinjie Yu, Wenjuan Lu. Reflections on Introducing MOSFETs into Circuit Theory Course Teaching. Journal of Electrical and Electronic Education, 2008, 30(3): 95-99

[3] Guiping Zhu. Definition and Measurement Method of Single-Phase Reactive Power Based on Current Decomposition. Journal of Electrical and Electronic Education, 2010, 32(2): 23-29

[4] Chaoyang Yan, Guiping Zhu. Comparative Study of Instantaneous Reactive Power Theory and FFT Algorithm for Harmonic Detection. Journal of Electrical and Electronic Education, 2012, 34(5): 32-36

[5] Guiping Zhu, Xinjie Yu, Wenjuan Lu. Exploration of Concepts for Deep Reform of the Circuit Theory Course. Journal of Electrical and Electronic Education, 2013, 35(5): 1-5

[6] Guiping Zhu, Xinjie Yu, Wenjuan Lu. Practical Exploration of Deep Reform of the Circuit Theory Course. Journal of Electrical and Electronic Education, 2013, 35(5): 6-10

[7] Guiping Zhu, Xinjie Yu. Practical Applications of Various Forms of MOOC Resources for Circuit Theory. Journal of Electrical and Electronic Education, 2017, 39(3): 6-9

[8] Guiping Zhu. Teaching Design for Flipped Classrooms. Journal of Electrical and Electronic Education, 2017, 39(4): 8-11

[9] Guiping Zhu, Xinjie Yu. Strategies for Promoting Active Learning Based on Flipped Classrooms. China University Teaching, 2018, Issue 5: 29-32

[10] Guiping Zhu, Shuaiguo Wang, et al. Design and Practice of an Intelligent Experimental System for Circuit Theory. Modern Educational Technology, 2018, 28(10): 1-6

[11] Guiping Zhu, Jin Lin, et al. Reform and Practice of Undergraduate Electrical Engineering Education System for the Energy Internet. Proceedings of the CSEE, Vol. 40, No. 13, July 2020: 4063–4071, DOI: 10.13334/j.0258-8013.pcsee.200461

[12] Zhu Guiping, Yu Xinjie, Liu Yingyan, Yang Ying, Xie Xiaorong. “Challenges and innovations in online teaching during the outbreak of COVID-19 in China,” 2020 IEEE Frontiers in Education Conference (FIE), Uppsala, Sweden(online), 2020, pp.1-6, DOI: 10.1109/FIE44824.2020.9274272. Open Access Number: 20210109719163

[13] Xinjie Yu, Guiping Zhu. From Course to Major, From Teacher to Teaching Team: A Point-to-Surface Model for Building an Ideological and Political Education System. Guide to Ideological and Political Education, 2021, Issue 3: 92-98

[14] Guiping Zhu, Xinjie Yu, Chongqing Kang. Reflections and Practices on Talent Cultivation in Electrical Engineering in the New Era. Proceedings of the CSEE, Vol. 42, No. 8, April 2022: 3107–3116, DOI: 10.1 3334/j.0258-8013.pcsee.220307

[15] Zhu Guiping, Yu Xinjie, Deeply Blended Teaching and Learning in the Course Principles of Electric Circuits Based on MOOC, 2022 IEEE Frontiers in Education Conference (FIE 2022), 08-11 October 2022, DOI: 10.1109/FIE56618.2022.9962457, INSPEC Accession Number: 22358759

[1] Circuit Theory, Xinjie Yu, Guiping Zhu, Wenjuan Lu, Tsinghua University Press, 2007 (National Planning Textbook for the “11th Five-Year Plan” of Higher Education, designated as a 2008 National Quality Textbook by the Higher Education Department of the Ministry of Education)

[2] Foundations of Analog and Digital Electronic Circuits, Anant Agarwal, Jeffrey H. Lang, translated by Xinjie Yu, Guiping Zhu, Xiucheng Liu, Tsinghua University Press, 2008

[3] Computer Simulation of Power Electronic Circuits, Guiping Zhu, Jianye Chen, Tsinghua University Press, 2008

[4] Guide to Teaching and Learning Circuit Theory with Exercise Solutions, Guiping Zhu, Xinjie Yu, Xiucheng Liu, Wenjuan Lu, Tsinghua University Press, 2009

[5] Circuit Theory Exercise Collection (2nd Edition), Guiping Zhu, Fuyuan Xu, Xiucheng Liu, Tsinghua University Press, 2012

[6] Contributed to China Automotive Energy Outlook (Science Press, 2012), responsible for writing Chapter 9.

[7] Contributed to China’s Resource Energy and Sustainable Development (Science Press, 2015), 3rd author

[8] Circuit Theory, Guiping Zhu, Xinjie Yu, Wenjuan Lu, Higher Education Press, 2016

[1] Guiping Zhu, Xiaowei Dui, Liangzhong Yao, Liang Tang, Chenjun Sun, Zhuoran Wang. Two-Layer Optimization Method for Power Systems with Battery Storage and Grid-Connected Wind Farms, Invention Patent, Patent No.: ZL 201810159735.7

[2] Yuhui Xing, Guiping Zhu, Yonghong Xia, Ruixiang Fan, Jianbo Xin, Wei Hu, Yong Zhao, Bei Cao. Planning Method for Power Sources in Distributed Hybrid Power Generation Systems, National Invention Patent, Patent No.: 201310498966.8

[3]. Yuhui Xing, Guiping Zhu, Yonghong Xia, Ruixiang Fan, Jianbo Xin, Wei Hu, Yong Zhao, Bei Cao. Microgrid Operation Control Method, National Invention Patent, Patent No.: 201410075204.1

[4] Guiping Zhu, Yunhai Zhou, Yonghong Xia, Ruixiang Fan, Jianbo Xin, Wei Hu, Yong Zhao, Bei Cao. Black Start Control Method for Wind-Solar-Water Complementary Microgrids, National Invention Patent, Application No.: 201410201098.7; Application Date: 2014/05/13

[5] Yuanxi Li, Guiping Zhu. Power Energy Structure Prediction Software 1.0, Software Copyright, Patent No.: 2013SR095566; Authorization Date: 2013/09/05

[6] Chen Zhang, Guiping Zhu. HVAC Submarine Cable Characteristics Calculation Software for Offshore Wind Farms, Software Copyright, Patent No.: 2014SR152955; Authorization Date: 2014/10/15

[7] Yuwei Chen, Jiapeng Liu, Guiping Zhu. Circuit for an Active Noise-Canceling Headphone, Utility Model Patent, Patent No.: 201320466958; Authorization Date: 2014/09/10

[8] Yicheng Zhu, Bochen Shi, Guiping Zhu. Implementation of an Active Noise-Canceling Headphone, Utility Model Patent, Patent No.: 201420353526.3; Authorization Date: 2014/11/03

[9] Yang Wu, Min Guo, Guiping Zhu. Implementation of a Headphone Amplifier, Utility Model Patent, Patent No.: 2014220508871.X; Authorization Date: 2014/12/10

[10] Jinzheng Tu, Guiping Zhu. Wide Input Voltage Range DC Buck-Boost Circuit Based on Single-Ended Primary Inductor Converter, Utility Model Patent, Patent No.: 201620151547.6; Authorization Date: 2016/08/16

[11] Dawei Wang, Guiping Zhu. Automatic Control Circuit for an Air Humidifier, Utility Model Patent, Patent No.: 201621268063.6; Authorization Date: 2017/07/13

√ First Prize, Tsinghua University Teaching Achievement Award, 4/5, 2006

√ First Prize, Tsinghua University 2nd Young Teacher Teaching Skills Competition, 2007

√ First Prize, 5th Beijing Higher Education Young Teacher Teaching Skills Competition, 2008

√ Beijing Education Innovation Model, 2008

√ First Prize, Tsinghua University Teaching Achievement Award, 2/5, 2008

√ Tsinghua University Young Teacher Teaching Excellence Award, 2008

√ Second Prize, Beijing Teaching Achievement Award, 2/5, 2009

√ Special Prize, Tsinghua University Teaching Achievement Award, 2/5, 2016

√ Gold Award, 4th Greater China MOOC Symposium (“Course Application and Promotion” Category), 1/2, 2017

√ First Prize, Beijing Teaching Achievement Award, 2/5, 2017

√ Baosteel Outstanding Teacher Award, 2017

√ First Prize, Tsinghua University Teaching Achievement Award, 1/5, 2019

√ Beijing Teaching Master, 2019

√ First Prize, Tsinghua University Teaching Achievement Award, 3/5, 2021

√ Second Prize, Tsinghua University Teaching Achievement Award, 2/5, 2021

√ First Prize, 3rd National College Blended Teaching Design Innovation Competition, 2021

√ First Prize, Beijing Teaching Achievement Award, 2/5, 2021

√ National Ideological and Political Demonstration Course and Teaching Master and Team (2/7), 2021

√ National First-Class Online-Offline Blended Course, Course Leader, 2023

√ Second Prize, National Teaching Achievement Award, 2/5, 2023

√ Tsinghua University Paragon Course (Principles of Electric Circuits), Course Leader, 2024