Lu Qiuyu, Yang Yinguo, Li Li, Zheng Jianping, Liao Peng, Wu Jiekang, and Lei Zhen


  1. [1] Z.G. Zhang and C.Q. Kang, Challenges and prospects ofconstructing new power systems with carbon neutral goals,Proceedings of the CSEE, 42(8), 2022, 2806–2819.
  2. [2] W.J. Chen and G.L. Zhao, Key technologies and equipmentfor new power systems with new energy as the main body,Global Energy Internet, 5(1), 2022, 1.
  3. [3] Y.H. Huang, T. Ding, Y.T. Li, L. Li, F.D. Chi, K. Wang,X.L. Wang, and X. F. Wang, Review of low-carbon energytechnologies in the context of carbon neutrality and itsimplications for the development of new power systems,Proceedings of the CSEE, 41(S1), 2021, 28–51.
  4. [4] D.X. Sui, Z.B. Wei, and C.Y. Zhou, Micro-grid deviation poweroptimization based on hybrid energy storage technology in spotmarket, Power System Automation, 45(11), 2021, 160–169.
  5. [5] J.C. Liu, X. Chen, and Y. Xiang, Energy storage optimalconfiguration and investment benefit analysis of electricity salescompany under market mechanism of sharing mode, PowerGrid Technology, 44(5), 2020, 1740–1750.
  6. [6] P. Zhang, F. Zhang, Z. Xu, and Z.P. Yang, Optimalconfiguration of wind turbine energy storage using waveletpacket decomposition and fuzzy control, High VoltageTechnology, 45(2), 2019, 609–617.
  7. [7] S. Sgouridis, Mohamed Ali, A. Sleptchenko, A. Bouabid, andO. Gustavo, Optimal configuration and operation for renewableenergy integration in high insolation regions, Renewable Energy,180, 2021, 937–953.
  8. [8] X. Jiang, Y. Jin, X. Zheng, G. Hu, and Q. Zeng, Optimalconfiguration of grid-side battery energy storage system underpower marketization, Applied Energy, 272, 2020, 115242.
  9. [9] J.J. Eckert, L.C. de Alkmin Silva, F.G. Dedini, and F.C.Corrˆea, Electric vehicle powertrain and fuzzy control multi-objective optimization, considering dual hybrid energy storagesystems, IEEE Transactions on Vehicular Technology, 69(4),2020, 3773–3782.
  10. [10] R. Rebecka and R. Lahdelma, Energy supply and storageoptimization for mixed-type buildings, Energy, 231, 2021,120839.
  11. [11] V. Jani and H. Abdi, Optimal configuration of energy storagesystems considering wind power uncertainty, Journal of EnergyStorage, 20, 2018, 244–253.
  12. [12] B. Sun, X.D. Wu, J.D. Xie, and X. Sun, Energy storage optimalconfiguration model of integrated load aggregator based oninformation gap decision theory, Modern Power, 38(2), 2021,193–207.
  13. [13] W.Q. Xiu, J.L. Li, and D. Dong, Capacity configurationand economic evaluation of energy storage system for peakload cutting and valley filling in power grid, Electric PowerConstruction, 34(2), 2013, 1–5.
  14. [14] W.Q. Sun, H. Song, Y.H. Qin, and H. Li, Energy storageoptimization configuration considering flexible supply anddemand uncertainty, Power Grid Technology, 44(12), 2020,4486–4497.
  15. [15] W.X. Liu, M.Y. Lin, J. Wang, and Y.H. Teng, Optimalconfiguration of energy storage in incremental distributionsystem based on intelligent generation method of operationstrategy, Proceedings of the CSEE, 41(10), 2021, 3317–3329.
  16. [16] L.J. Chen, T.T. Wu, H.B. Liu, G.Y. Huang, and X.H. Xu,Two-stage optimization model of large user energy storagebased on demand management, Power System Automation,43(1), 2019, 194–200.
  17. [17] X.Q. Xiu, W. Tang, J.L. Li, C.G. Tian, and Q.Y. Xu,Comprehensive evaluation technology of energy storageconfiguration based on analytic hierarchy process, PowerSystem Automation, 42(11), 2018, 72–78.
  18. [18] J.L. Guo, Y. Liu, G.D. Yu Guo, and L.X. Xu, Evaluation andoperation optimization model of different typical user energystorage configuration, Power Grid Technology, 44(11), 2020,4245–4254.
  19. [19] W.L. Yuan, Z.X. Cui, H.B. Yu, ZOU X. S. Zou, W. Xiong,X.F. Yuan, Health status evaluation of transformer basedon rough set-G1 combined weighting method, Electric PowerConstruction, 43(3), 2022, 50–57.
  20. [20] X. Ai, X.Z. Zhao, H.Y. Hu, Z.D. Wang, D. Peng, and L. Zhao,Application of G1 - entropy weight - Independence weightmethod in power grid development situation Awareness, PowerGrid Technology, 44(9), 2020, 3481–3490.
  21. [21] X.S. Li, Y. Jiang, X.W. Liu, Y. Wang, Y. Ding, Powergeneration market power based on improved Critic-G1algorithm comprehensive evaluation method, China Power,54(11), 2021, 59–67.
  22. [22] N. Mahdavi, P. Mojaver, and S. Khalilarya, Multi-objectiveoptimization of power, CO2 emission and exergy efficiency ofa novel solar-assisted CCHP system using RSM and TOPSIScoupled method, Renewable Energy, 185, 2022, 506–524.
  23. [23] O. Hashem, A. Arash, and E. Ali, Finding the optimalcombination of power plants alternatives, A multi responseTaguchi-neural network using TOPSIS and fuzzy best-worstmethod, Journal of Cleaner Production, 203, 2018, 210–223.
  24. [24] B. Xu, J. Ma, Q. Chen, J.J. Liao, P. Hu, Research oncomprehensive evaluation indicators system and investmentstrategy of distribution network in economic developmentzone based on improved AHP-TOPSIS method, Power SystemProtection and Control, 47(22), 2019, 35–44.

Important Links:

Go Back