Adaptive robust co-optimization of wind energy generation, electric vehicle batteries and flexible AC transmission system devices
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Elsevier BV
Reference38 articles.
1. Plug-in electric vehicle batteries degradation modeling for smart grid studies: review, assessment and conceptual framework;Ahmadian;Renew Sustain Energy Rev,2018
2. Numerical analysis of different fin structures in phase change material module for battery thermal management system and its optimization;Choudhari;Int J Heat Mass Tran,2020
3. Thermal and electrical performance assessments of lithium-ion battery modules for an electric vehicle under actual drive cycles;Panchal;Elec Power Syst Res,2018
4. Innovative appraisement of smart grid operation considering large-scale integration of electric vehicles enabling V2G and G2V systems;Mozafar;Elec Power Syst Res,2018
5. Coordinated operation of electric vehicle charging and wind power generation as a virtual power plant: a multi-stage risk constrained approach;Abbasi;Appl Energy,2019
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