Smart City Gnosys

Smart city article details

Title Integrating Hydrogen Energy Storage Into Urban Mobility Solutions
ID_Doc 32009
Authors Suresh A.R.; Venkatasubramanian R.; Hussien Jasim L.; Santhoshkumar M.P.; Aggarwal S.; Kale M.
Year 2024
Published E3S Web of Conferences, 540
DOI http://dx.doi.org/10.1051/e3sconf/202454011009
Abstract The transition to sustainable urban mobility solutions is imperative in the face of escalating environmental and health challenges. This paper reviews the work in the areas of decarbonizing power systems, urban mobility and transportation modes, and the integration of renewable energy in smart cities. The integration of renewable energy sources, such as wind and solar power, into power systems is pivotal for decarbonization. However, their intermittent nature poses challenges for high-level integration. Energy storage emerges as a crucial solution, with technologies like fuel cell vehicles, water electrolysis, and flow batteries playing significant roles. Urban mobility, dominated by internal combustion engines, has led to environmental degradation and health issues. Transitioning to cleaner transportation modes, integrating electric vehicle stations with renewable energy, and ensuring uninterrupted power supply are essential steps forward. Furthermore, the potential of smart cities harnessing non-dispatchable photovoltaic and wind power is vast. Yet, the challenge of large-scale energy storage remains. The concept of using renewable energy to produce hydrogen, which can then stabilize the grid, offers a promising avenue. This review underscores the importance of integrating hydrogen energy storage to revolutionize urban mobility solutions. © The Authors, published by EDP Sciences, 2024.
Author Keywords


Similar Articles

Id Similarity Authors Title Published
46996 View0.891Wang J.; An Q.; Zhao Y.; Pan G.; Song J.; Hu Q.; Tan C.-W.Role Of Electrolytic Hydrogen In Smart City Decarbonization In ChinaApplied Energy, 336 (2023)
36232 View0.886Calandra D.; Wang T.; Cane M.; Alfiero S.Management Of Hydrogen Mobility Challenges: A Systematic Literature ReviewJournal of Cleaner Production, 410 (2023)
39820 View0.886Kremzow-Tennie S.; Mecit H.On The Convergence Of Electric Mobility And Energy Systems- Potentials And Challenges2024 22nd International Conference on Research and Education in Mechatronics, REM 2024 (2024)
22500 View0.882Ahmed I.; Basit A.; Ahmad M.; AlMuhaini M.; Khalid M.Electric Mobility Challenges And Approaches For Sustainable Green Power Synergy In Smart CitiesArabian Journal for Science and Engineering, 50, 8 (2025)
53110 View0.881Gill A.; Ramachandran T.; Upadhyay R.; Agarwal Gautam A.Strategic Grid Integration Of Renewable Using Electric Vehicles For Smart Cities StabilityE3S Web of Conferences, 540 (2024)
37662 View0.88Wang H.; Cui G.; Guo Y.; Jiang J.Modelling And Optimisation In The Design Of Green Hydrogen Cities - A Case Study Of ShanghaiChemical Engineering Transactions , 113 (2024)
57039 View0.88Gheorghe L.; Lucian M.; Dorel S.; Florentina-Cătălina N.The Transition To An Eco-Friendly City As A First Step Toward Climate Neutrality With Green HydrogenTechnologies, 13, 3 (2025)
29855 View0.88Hassan Q.; Sameen A.Z.; Olapade O.; Alghoul M.; Salman H.M.; Jaszczur M.Hydrogen Fuel As An Important Element Of The Energy Storage Needs For Future Smart CitiesInternational Journal of Hydrogen Energy, 48, 78 (2023)
15199 View0.88El Bakkari F.; Mounir H.Compatible Alternative Energy Storage Systems For Electric Vehicles: Review Of Relevant Technology Derived From Conventional SystemsEnergy, 288 (2024)
51332 View0.874Kabir S.; Hoque M.J.-A.-M.; Adnan M.A.; Shufian A.; Rashid Mahin M.S.; Aman A.U.; Raasetti M.Smart Power Systems For Smart Cities: Architectural Development And Economic Performance AssessmentIEEE Region 10 Humanitarian Technology Conference, R10-HTC (2023)