Relay Protection Research Institute
Ding Lei
Release time: May 24, 2023 10:27    Author:    点击:[]


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Relay Protection Research Institute

Academic Identity

Professor, doctoral supervisor,Taishan Scholar Distinguished Expert. NowIEEEPremium member,Director of the New Power System Research Center of Shandong UniversityVice Chairman of Shandong Electrical Engineering Society,Member of the National Short-Circuit Current Calculation Standards Committee,China Electrical Engineering SocietyChina Power Supply SocietyMember of the Special Committee of the Chinese Society of Automation,CIGRE B5.57 working group、C4/B5.61 working group、IEC SC 8A working group expert。SCI JournalInt. J. Electr. Power Energy Syst. Editor

Work experience

2015.9-present School of Electrical Engineering, Shandong University,Professor

2010.4-2015.8 School of Electrical Engineering, Shandong University,Associate Professor

2009.11-2011.7 University of Manchester, UK,School of Electrical and Electronic Engineering, Research Associate

2008.1-2009.11 Department of Electrical Engineering and Applied Electronics Technology, Tsinghua University,Postdoc

Personal information

Name

Ding Lei

Gender

Male

Date of birth

1980.1

Place of Origin

Linyi, Shandong

Professional title

Professor

Position

Dean Deputy Secretary of the Party Committee

Telephone

0531-81696111

Email

dinglei@sdu.edu.cn


Research direction

Low inertia power system operation control,New energy power generation grid connection control,Active decommissioning of the power system

Academic works

Some published journal papers are as follows:

[1] Ding L, Guo Y, Wall P, et al. Identifying the Timing of Controlled Islanding Using a Controlling UEP Based Method[J]. IEEE Transactions on Power Systems, 2018,33(6): 5913-5922.

[2] Ding L, Ma Z, Wall P, et al. Graph Spectra Based Controlled Islanding for Low Inertia Power Systems[J]. IEEE Transactions on Power Delivery, 2017,32(1): 302-309.

[3] Ding L, Guo Y, Wall P. Performance and Suitability Assessment of Controlled Islanding Methods for Online WAMPAC Application[J]. International Journal of Electrical Power and Energy Systems,2017,84: 252-260.

[4] Ding L, Wall P, Terzija V. Constrained Spectral Clustering Based Controlled Islanding[J]. International Journal of Electrical Power and Energy Systems, 2014,63: 687-694.

[5] Ding L, Wall P, Terzija V, et al. Two-Step Spectral Clustering Controlled Islanding Algorithm[J].IEEE Transactions on Power Systems, 2013,28(1): 75-84.

[6] Bao W, Ding L, Kang Y. C. et al. Closed-Loop Synthetic Inertia Control for Wind Turbine Generators in Association with Slightly Over-Speeded Deloading Operation[J]. IEEE Transactions on Power Systems, 2023, early access.

[7] Wang Z, Ding L, Gao X, et al. Improved Active Current Control Scheme of Wind Energy Conversion Systems with PLL Synchronization During Grid Faults[J]. IEEE Transactions on Sustainable Energy, 2023, 14(1): 717-729.

[8] Faraji R, Ding L, Rahimi T, et al. Application of Soft-Switching Cell with Inherent Redundancy Properties for Enhancing the Reliability of Boost-Based DC-DC Converters[J]. IEEE Transactions on Power Electronics, 2021,36(11): 12342-12354.

[9] Rahimi T, Ding L, Faraji R, et al. Performance Improvement of a Three-Phase Interleaved DC-DC Converter without Requiring Antisaturation Control for Postfault Conditions[J]. IEEE Transactions on Power Electronics,2021,36(7): 7378-7383.

[10] Wang X, Ding L, Ma Z, et al. Perturbation-Based Sensitivity Analysis of Slow Coherency with Variable Power System Inertia[J]. IEEE Transactions on Power Systems,2021,36(2):1121-1129.

[11] Kheshti M, Ding L, Bao W, et al. Toward Intelligent Inertial Frequency Participation of Wind Farms for the Grid Frequency Control[J].IEEE Transactions on Industrial Informatics,2020,16(11): 6772-6786.

[12] Bao W, Ding L, Liu Z, et al. Analytically derived fixed termination time for stepwise inertial control of wind turbines—Part I: Analytical derivation[J]. International Journal of Electrical Power and Energy Systems,2020,121.

[13] Li X, Ding L, Zhu G, et al. Transient Instability Detection Method Based on Multi-source Trajectory Information[J]. International Journal of Electrical Power and Energy Systems, 2019,113: 897-905.

[14] Kheshti M, Ding L, Nayeripour M,et al. Active Power Support of Wind Turbines for Grid Frequency Events Using a Reliable Power Reference Scheme[J]. Renewable Energy, 2019,139: 1241-1254.

[15] Liu P, Zhu G, Ding L, et al. High-voltage ride-through strategy for wind turbine with fully-rated converter based on current operating range[J]. International Journal of Electrical Power & Energy Systems, 2022, 141: 108101.

[16] Zhang G, Zhang F, Ding L, et al. Wind Farm Level Coordination for Optimal Inertial Control With a Second-Order Cone Predictive Model[J]. IEEE Transactions on Sustainable Energy,in press.

[17] Bao W, Wu Q, Ding L,et al. A Hierarchical Inertial Control Scheme for Multiple Wind Farms with BESSs Based on ADMM[J]. IEEE Transactions on Sustainable Energy,2021,12(2):751-761.

[18] Bao W, Wu Q, Ding L, et al. Synthetic Inertial Control of Wind Farm with BESS Based on Model Predictive Control[J]. IET Renewable Power Generation,2020,14(13): 2447-2455.

[19] Guo Y, Bao W, Ding L, et al. Analytically Derived Fixed Termination Time for Stepwise Inertial Control of Wind Turbines—Part II: Application Strategy[J]. International Journal of Electrical Power & Energy Systems,2020,121.

[20] Zhang F, Fu A, Ding L, et al. MPC Based Control Strategy for Battery Energy Storage Station in a Grid with High Photovoltaic Power Penetration[J]. International Journal of Electrical Power and Energy Systems, 2020,115.

[21] Zhang F, Fu A, Ding L,et al. Optimal Sizing of ESS for Reducing AGC Payment in a Power System with High PV Penetration[J]. International Journal of Electrical Power and Energy Systems, 2019,110: 809-818.

[22] Phadke A.G, Wall P, Ding L, et al. Improving the Performance of Power System Protection Using Wide Area Monitoring Systems[J]. Journal of Modern Power Systems and Clean Energy, 2016,4(3): 319-331.


Some of the authorized patents are as follows:

[1] Dynamic speed protection method and system for virtual inertia frequency modulation of doubly-fed fans,ZL201911135568.3,2020.04.02

[2] Wind power frequency regulation control method and system based on overspeed wind turbine release power increase,ZL201911137050.3,2020.04.23

[3] Optimal allocation method and system of power-to-gas-gas storage-gas turbine capacity by wind curtailment and participation in power grid frequency regulation,ZL201911088121.5,2020.02.02

[4] Single dq control structure double-fed fan positive、Negative sequence rotor current control method and system,ZL202010790352.7,2020.12.28

[5] Direct-drive fan asymmetry fault DC bus double frequency voltage suppression method and system,ZL202010467590.4,2020.12.21

[6] Method for determining the optimal exit time of collaborative frequency modulation of wind turbines,ZL201610976478.7,2019.01.04

[7] A doubly-fed wind turbine inertia frequency modulation active speed protection control system and method,ZL201510509286.0,2017.10.27

[8] Doubly-fed wind turbine active frequency controller and method combining simulated inertia and overspeed,ZL201510334000.X,2017.03.29

[9] Two-stage active delisting method based on normalized spectral clustering and constrained spectral clustering,ZL201110173468.7,2014.01.01

[10] Optimized virtual impedance control method and system for doubly-fed wind turbine fault ride-through,ZL202010435460.2,2021.10.22

[11] Optimized demagnetization control method and system for doubly-fed fan fault ride-through,ZL202010435455.1,2021.11.02

[12] Wind-storage AC microgrid automatic power balancing control method and system,ZL201910637213.8,2020.09.25

[13] Method and device for realizing non-communication high-speed distance relay in signal-free transmission lines,ZL201910373023.X,2021.12.17

[14] Comprehensive judgment method and system for transient stability of power system based on WAMS measured trajectories,ZL201810846533.X,2020.07.31

[15] Direct-drive wind turbine control method and system for wind-storage coordination,ZL202210221146.3,2022.06.14

Undertake scientific research projects

[1] Offshore wind turbine grid interaction mechanism and quantitative compensation technology under different collection and delivery methods,National Key R&D Plan Project,2022.11-2025.10

[2] Wind turbine voltage/frequency transient active support technology under power grid failure,National Key Research and Development Plan Project,2018.7-2021.6

[3] Research on basic theories and methods of active power control in new power systems,National Natural Science Foundation of China Joint Fund Project,2023-2026

[4] Research on active decomposition strategy taking into account transient stability constraints and group characteristics,National Natural Science Foundation of China General Project 2015-2018

[5] Research on active splitting of power system based on spectral clustering method,National Natural Science Foundation of China Youth Project,2012-2014

[6] Research on grid frequency collaborative control technology containing high proportion of renewable energy,State Grid Headquarters Technology Project 2019.6-2021.12

[7] Decentralized cluster control of high proportion of new energy access to power system,State Grid Headquarters Technology Project 2019.1-2021.12

Academic Type

Academic, professional

 

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