Paper Title: The perspective of energy storage systems advancements and challenges for electric vehicle applications; metric, mechanism, mode, and mitigation framework
Authors: Sadegh Mehranfar, Isa Banagar, Jamshid Moradi, Amin Mahmoudzadeh Andwari, Juho Könnö, Ayat Gharehghani, Moeed Rabiei, Emil Kurvinen
Corresponding Author: Amin Mahmoudzadeh Andwari (Amin.m.andwari@oulu.fi), Finland
Abstract
New advancements in the automobile industry require greater demonstration of the role of energy storage in EVs. More effective energy production and storage require an in-depth look at the recent advancements and challenges of energy storage systems (ESS). This paper presents a holistic and hierarchical framework of metric, mechanism, mode, and mitigation of ESSs recent advancements and challenges, including a) Evaluation metrics for advancements, b) Identification of mechanisms and most important challenges, c) Mode and effects analysis, d) Mitigation through material optimization/system design. A comprehensive review was conducted by comparing different batteries, fuel cells, and supercapacitors’ efficiencies, performance, advantages, and disadvantages.
Keywords
Lathe, Machine selection, Multi-criteria decision Analysis, PROMETHEE
Cite:
Mehranfar, S. ., Banagar, I., Moradi, J. ., Mahmoudzadeh Andwari, A., Könnö, J. ., Gharehghani, A. ., Rabiei, M. ., & Kurvinen, E. . (2024). The perspective of energy storage systems advancements and challenges for electric vehicle applications; metric, mechanism, mode, and mitigation framework. Future Sustainability, 2(4), 22–32. Retrieved from https://fupubco.com/fusus/article/view/220
