Hybridization of fuel cells with internal combustion engines for power generation in the transportation industry: Review
الموضوعات :S nikmanesh 1 , Seyed Ali Seyedifar 2
1 - هیات علمی
2 - دانشجوی کارشناسی گروه مهندسی شیمی، دانشکده مهندسی نفت آبادان، دانشگاه صنعت نفت
الکلمات المفتاحية: Optimization of energy production, control of energy consumption, clean energy, hybrid fuel cell and heat engine, hybrid SOFC-IC,
ملخص المقالة :
Despite the proven advantages of using renewable energy sources, the use of fossil fuels as the main source of energy supply in industries continues, and changing technology to fully depend on renewable energy sources requires large investments. Therefore, currently, the only practical approach is to optimize existing energy production and conversion systems. Among various technologies, the use of fuel cell technology in energy conversion and electricity production is very promising due to less pollution, higher efficiency and unique features. New thermodynamic systems based on hybrid cycles of solid oxide fuel cells (SOFC) and heat engines (HE) will play an important role in the direction of future research in the field of production, control and optimization of energy consumption by using new and clean energies; Therefore, this article examines the performance of SOFC-IC hybrid systems as the driving forces of HEV hybrid cars, in contrast to traditional IC internal combustion engines, and its optimization as an intermediate generation for the transition from traditional engines to electric engines in the automotive industry.
[1] B. Feng , H. Xu , A. Wang , L. Gao , Y. Bi and X. Zhang , “A Comprehensive Review of Energy Regeneration and Conversion Technologies Based on Mechanical–Electric–Hydraulic Hybrid Energy Storage Systems in Vehicles” Appl. Sci, Vol. 13, pp. 4152, 2023.
[2] X. Lü , Y. Wu , J. Lian , Y. Zhang , C. Chen , P. Wang and L. Meng , “Energy management of hybrid electric vehicles: A review of energy optimization of fuel cell hybrid power system based on genetic algorithm” , Energy Conversion And Management , Vol. 205, pp. 112474, 2020.
[3] P. Kumar and O. Singh , “A review of solid oxide fuel cell based hybrid cycles” , Energy Conservation , Vol. 46, pp. 8560-8589, 2022.
[4] X. Qin, J. Cao, G. Geng, Y. Li, Y. Zheng, W. Zhang and B. Yu , “Solid oxide fuel cell system for automobiles” , International Journal of Green Energy, 2022
[5] T. Reza , J. Yang , R. Wang , C. Xia , R. Raza , B. zhu and S. Yun , “Recent advance in physical description and material development for single component SOFC: A mini-review” , Chemical Engineering Journal, Vol. 444, pp. 136533, 2022.
[6]T. Gechev and P. “Punov , Combined Cycles of SOFC/ICE and SOFC/GT – a Brief Review”, 13th International Scientific Conference on Aeronautics, Automotive and Railway Engineering and Technologies. BulTrans, 2022.
[7] S. Ma , M. Lin , T. Lin , T. Lin , X. Liao , F. marechal , J. Herle , Y. Yang , C. Dong and L. Wang , “Fuel cell-battery hybrid systems for mobility and off-grid applications , A review” , Renewable and Sustainable Energy Reviews , Vol. 135, pp. 110119, 2021.
[8] H. Chehrmonavari, A. Kakaee , S. Ehsan Hosseini, U. Desideri, G. Tsatsaronis, G. Floerchinger , R. Braun and A. Paykani , “Hybridizing solid oxide fuel cells with internal combustion engines for power and propulsion systems: A review” , Renewable and Sustainable Energy Reviews, Vol. 171, pp. 112982, 2023.
[9] M. Kandidayeni , J.P. Trovao , M. Soleymani , L. Boulon, “Towards health-aware energy management strategies in fuel cell hybrid electric vehicles : a review”, International journal of energy , Vol. 47, pp. 10021-10043, 2022.