Weiwei Mao, Shirui Yang, and Xielin Gao
[1] H. Wei, S. Chen, T. Pan, J. Tao, and M. Zhu, Capacityconfiguration optimisation of hybrid renewable energy systemusing improved grey wolf optimizer, International Journalof Computer Applications in Technology, 68(1), 2022,1–11. [2] D. Kumar, Urban energy system management for enhancedenergy potential for upcoming smart cities, Energy Exploration& Exploitation, 38(5), 2020, 1968–1982. [3] L.A. Roald, D. Pozo, A. Papavasiliou, D.K. Molzahn, J.Kazempour, and A. Conejo, Power systems optimization underuncertainty: A review of methods and applications, ElectricPower Systems Research, 214, 2023, 108725–108749. [4] S.E. Razavi, M.A. Moradi, S. Shamaghdari, and M.B. Menhaj,Adaptive optimal control of unknown discrete-time linearsystems with guaranteed prescribed degree of stability usingreinforcement learning, International Journal of Dynamics andControl, 10(3), 2022, 870–878. [5] X. Chen, K.C. Leung, and A.Y.S. Lam, Power outputsmoothing for renewable energy system: Planning, algo-rithms, and analysis, IEEE Systems Journal, 14(1), 2020,1034–1045. [6] C. Acar, E. Erturk, and I. Firtina-Ertis, Performance analysis ofa stand-alone integrated solar hydrogen energy system for zeroenergy buildings, International Journal of Hydrogen Energy,48(5), 2023, 1664–1684. [7] J. Zhen, Y. Zhang, X. Liu, G. Huang, and J. Li, Optimizationmodeling for regional energy system management coupledwith energy–water nexus and carbon emission reduction: Acase study, Environmental Engineering Science, 40(3), 2023,114–126. [8] Y. Zhang, K. Chen, J. Jiang, and L. Sun, Two-stage stochasticprogramming of a hybrid SOFC-renewable integrated energysystem considering time sequence correlation, InternationalJournal of Green Energy, 20(1), 2023, 1–14.8 [9] Y. Liu, J. Zhao, L. Wang, and W. Wang, Unified modeling formultiple-energy coupling device of industrial integrated energysystem, IEEE Transactions on Industrial Electronics, 70(1),2022, 1005–1015. [10] S.M. Tercan, O. Elma, E. Gokalp, and U. Cali, An expansionplanning method for extending distributed energy systemlifespan with energy storage systems, Energy Exploration &Exploitation, 40(2), 2022, 599–618. [11] H. Abdellatif, M.N. Syed, M.I. Hossain, and M.A. Abido,Standalone hybrid renewable energy system optimizationusing linear programming, Arabian Journal for Science andEngineering, 48(5), 2023, 6361–6376. [12] B. Sharma, M. Rizwan, and P. Anand, A new intelligentapproach for size optimization of a renewable energy basedgrid connected hybrid energy system, International Journal ofNumerical Modelling: Electronic Networks, Devices and Fields,36(2), 2023, 3050–3068. [13] Z. Li, Y. Liu, M. Du, Y. Cheng, and L. Shi, Modeling andmulti-objective optimization of a stand-alone photovoltaic-wind turbine-hydrogen-battery hybrid energy system based onhysteresis band, International Journal of Hydrogen Energy,48(22), 2023, 7959–7974. [14] C.C. Sun, A. Hahn, and C.C. Liu, Cyber security of a powergrid: State-of-the-art, International Journal of Electrical Power& Energy Systems, 99, 2018, 45–56. [15] M. Moradi, Y. Weng, and Y.C. Lai, defending smart electricalpower grids against cyberattacks with deep Q-learning, P R XEnergy, 1, 2022, 33005–33017. [16] G. Jiale, Research on application potential prediction methodfor urban energy system based on decision tree, InternationalJournal of Global Energy Issues, 42(3–4), 2020, 144–161. [17] H. Zeng, Multi-load prediction modelling for combined energysystem of intelligent city buildings, International Journal ofGlobal Energy Issues, 42(3–4), 2020, 198–211. [18] A. Zakari, B. Oryani, R. Alvarado, and K. Mumini, Assessingthe impact of green energy and finance on environmentalperformance in China and Japan, Economic Change andRestructuring, 56(2), 2023, 1185–1199.
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