This work is licensed under the Creative Commons Attribution 4.0 International License.
Rydzek, M. The Low Pressure Railway – a New Solutions of the Means of Transport. AUTOBUSY – Technika, Eksploatacja, Systemy Transportowe 2019, 24, pp. 116-119, doi:10.24136/atest.2019.136.Search in Google Scholar
Hansen, I.A. Hyperloop Transport Technology Assessment and System Analysis. Transportation Planning and Technology 2020, 43, pp. 803-820, doi:10.1080/03081060.2020.1828935.Search in Google Scholar
Mahalakshmi, S. Hyperloop Transportation Systems. Int J Res Appl Sci Eng Technol 2018, 6, pp. 1118-1123, doi:10.22214/ijraset.2018.5180.Search in Google Scholar
Gospodarczyk, P.; Stopka, G.; Dybeł, P. Potential for Tunnel Technology in the Development of Hyperloop Vacuum Rail. New Trends in Production Engineering 2020, 3, pp. 472-480, doi:10.2478/ntpe-2020-0040.Search in Google Scholar
Noland, J.K. Prospects and Challenges of the Hyperloop Transportation System: A Systematic Technology Review. IEEE Access 2021, 9, pp. 28439-28458, doi:10.1109/ACCESS.2021.3057788.Search in Google Scholar
Kowal, B.; Ranosz, R.; Klodawski, M.; Jachimowski, R.; Piechna, J. Demand for Passenger Capsules for Hyperloop High-Speed Transportation System – Case Study From Poland. IEEE Transactions on Transportation Electrification 2022, 8, pp. 565-589, doi:10.1109/TTE.2021.3120536.Search in Google Scholar
Gkoumas, K.; Christou, M. A Triple-Helix Approach for the Assessment of Hyperloop Potential in Europe. Sustainability 2020, 12, 7868, doi:10.3390/su12197868.Search in Google Scholar
Michelberger, F.; Plavec, M.; Pyrek, K.; Graf, P. The Hyper-loop Concept Development, Possible Applications and Critical Analysis. In; 2022; pp. 341-367.Search in Google Scholar
Mitropoulos, L.; Kortsari, A.; Koliatos, A.; Ayfantopoulou, G. The Hyperloop System and Stakeholders: A Review and Future Directions. Sustainability 2021, 13, 8430, doi:10.3390/su13158430.Search in Google Scholar
Dudnikov, E.E. Advantages of a New Hyperloop Transport Technology. In Proceedings of the 2017 Tenth International Conference Management of Large-Scale System Development (MLSD); IEEE, October 2017; pp. 1-4.Search in Google Scholar
Nishimoto, M.; Kezirian, M.T. Safety Requirements for Hyperloop Transportation Systems: Applying NASA Human Spaceflight Safety Practices. Journal of Space Safety Engineering 2023, 10, pp. 397-406, doi:10.1016/j.jsse.2023.10.004.Search in Google Scholar
Papis, M.; Matyjewski, M. Preliminary Risk Analysis of Low Pressure Railway Transport. Journal of KONBiN 2021, 51, pp. 97-122, doi:10.2478/jok-2021-0037.Search in Google Scholar
Ni, M. An Overview of Hydrogen Storage Technologies. Energy Exploration & Exploitation 2006, 24, pp. 197-209, doi:10.1260/014459806779367455.Search in Google Scholar
David, W.I.F. Effective Hydrogen Storage: A Strategic Chemistry Challenge. Faraday Discuss 2011, 151, 399, doi:10.1039/c1fd00105a.Search in Google Scholar
Southall, E.; Lukashuk, L. Hydrogen Storage and Transportation Technologies to Enable the Hydrogen Economy: Liquid Organic Hydrogen Carriers: Overview and Perspectives on Liquid Organic Hydrogen Carriers Technology. Johnson Matthey Technology Review 2022, 66, pp. 246-258, doi:10.1595/205651322X16415717819428.Search in Google Scholar
Halder, P.; Babaie, M.; Salek, F.; Haque, N.; Savage, R.; Stevanovic, S.; Bodisco, T.A.; Zare, A. Advancements in Hydrogen Production, Storage, Distribution and Refuelling for a Sustainable Transport Sector: Hydrogen Fuel Cell Vehicles. Int J Hydrogen Energy 2024, 52, pp. 973-1004, doi:10.1016/j.ijhydene.2023.07.204.Search in Google Scholar
Ma, N.; Zhao, W.; Wang, W.; Li, X.; Zhou, H. Large Scale of Green Hydrogen Storage: Opportunities and Challenges. Int J Hydrogen Energy 2024, 50, pp. 379-396, doi:10.1016/j.ijhydene.2023.09.021.Search in Google Scholar
Faye, O.; Szpunar, J.; Eduok, U. A Critical Review on the Current Technologies for the Generation, Storage, and Transportation of Hydrogen. Int J Hydrogen Energy 2022, 47, pp. 13771-13802, doi:10.1016/j.ijhydene.2022.02.112.Search in Google Scholar
Aziz, M. Liquid Hydrogen: A Review on Liquefaction, Storage, Transportation, and Safety. Energies (Basel) 2021, 14, 5917, doi:10.3390/en14185917.Search in Google Scholar
Greene, D.L.; Ogden, J.M.; Lin, Z. Challenges in the Designing, Planning and Deployment of Hydrogen Refueling Infrastructure for Fuel Cell Electric Vehicles. eTransportation 2020, 6, 100086, doi:10.1016/j.etran.2020.100086.Search in Google Scholar
Le, T.T.; Sharma, P.; Bora, B.J.; Tran, V.D.; Truong, T.H.; Le, H.C.; Nguyen, P.Q.P. Fueling the Future: A Comprehensive Review of Hydrogen Energy Systems and Their Challenges. Int J Hydrogen Energy 2024, 54, pp. 791-816, doi:10.1016/j.ijhydene.2023.08.044.Search in Google Scholar
Hassan, Q.; Algburi, S.; Sameen, A.Z.; Salman, H.M.; Jaszczur, M. Green Hydrogen: A Pathway to a Sustainable Energy Future. Int J Hydrogen Energy 2024, 50, pp. 310-333, doi:10.1016/j.ijhydene.2023.08.321.Search in Google Scholar
Genovese, M.; Blekhman, D.; Fragiacomo, P. An Exploration of Safety Measures in Hydrogen Refueling Stations: Delving into Hydrogen Equipment and Technical Performance. Hydrogen 2024, 5, pp. 102-122, doi:10.3390/hydrogen5010007.Search in Google Scholar
Dimos, D.; Graaf, S. de Overview of Safety Challenges Associated with Integration of Hydrogen-Based Propulsion Systems for Climate Neutral Aviation. J Phys Conf Ser 2024, 2716, 012001, doi:10.1088/1742-6596/2716/1/012001.Search in Google Scholar
Hansel, J.; Mattern, G.; Miller, R. Safety Considerations in the Design of Hydrogen-Powered Vehicles. Int J Hydrogen Energy 1993, 18, pp. 783-790, doi:10.1016/0360-3199(93)90159-8.Search in Google Scholar
Wu, H.-T.; Margreiter, M. Pedestrian Flow Simulation and Capacity Analysis of Stations for Ultra-High-Speed Ground Transportation (Hyperloop). In Proceedings of the 2023 8th International Conference on Models and Technologies for Intelligent Transportation Systems (MT-ITS); IEEE, June 14 2023; pp. 1-6.Search in Google Scholar
Kassebi, O.; Siegfried, P. The Hyperloop: The Innovative Logistic Technology. Put i saobraćaj 2022, 68, pp. 11-16, doi:10.31075/PIS.68.01.02.Search in Google Scholar
Bertolotti, F.; Occa, R. “Roads? Where We’re Going We Don’t Need Roads.” Using Agent-Based Modeling to Analyze the Economic Impact of Hyperloop Introduction on a Supply Chain. In; 2020; pp. 493-500.Search in Google Scholar
Werner, M.; Eissing, K.; Langton, S. Shared Value Potential of Transporting Cargo via Hyperloop. Front Built Environ 2016, 2, doi:10.3389/fbuil.2016.00017.Search in Google Scholar
Barbosa, F.C. Hyperloop Concept Technological and Operational Review: The Potential to Fill Rail Niche Markets. In Proceedings of the 2020 Joint Rail Conference; American Society of Mechanical Engineers, April 20 2020.Search in Google Scholar
Shaaban, K.; Radwan, E. Design Challenges for Hyperloop Transport Systems. In Proceedings of the 2022 Intermountain Engineering, Technology and Computing (IETC); IEEE, May 2022; pp. 1-4.Search in Google Scholar
Gkoumas, K. Hyperloop Academic Research: A Systematic Review and a Taxonomy of Issues. Applied Sciences 2021, 11, 5951, doi:10.3390/app11135951.Search in Google Scholar
Hansen, O.R. Hydrogen Infrastructure – Efficient Risk Assessment and Design Optimization Approach to Ensure Safe and Practical Solutions. Process Safety and Environmental Protection 2020, 143, pp. 164-176, doi:10.1016/j.psep.2020.06.028.Search in Google Scholar
Genovese, M.; Fragiacomo, P. Hydrogen Refueling Station: Overview of the Technological Status and Research Enhancement. J Energy Storage 2023, 61, 106758, doi:10.1016/j.est.2023.106758.Search in Google Scholar
Al-Ahmed, A.; Hossain, S.; Mukhtar, B.; Rahman, S.U.; Abualhamayel, H.; Zaidi, J. Hydrogen Highway: An Overview. In Proceedings of the 2010 IEEE International Energy Conference; IEEE, December 2010; pp. 642-647.Search in Google Scholar
Genovese, M.; Blekhman, D.; Fragiacomo, P. An Exploration of Safety Measures in Hydrogen Refueling Stations: Delving into Hydrogen Equipment and Technical Performance. Hydrogen 2024, 5, pp. 102-122, doi:10.3390/hydrogen5010007.Search in Google Scholar
Hansel, J.; Mattern, G.; Miller, R. Safety Considerations in the Design of Hydrogen-Powered Vehicles. Int J Hydrogen Energy 1993, 18, pp. 783-790, doi:10.1016/0360-3199(93)90159-8.Search in Google Scholar
Gordienko, D.M.; Shebeko, Yu.N. The Fire Safety of Infrastructure Facilities for Hydrogen-Powered Vehicles. Pozharovzryvobezopasnost/Fire and Explosion Safety 2022, 31, pp. 41-51, doi:10.22227/0869-7493.2022.31.02.41-51.Search in Google Scholar
Zheng, J.; Li, L.; Chen, R.; Xu, P.; Kai, F. High Pressure Steel Storage Vessels Used in Hydrogen Refueling Station. J Press Vessel Technol 2008, 130, doi:10.1115/1.2826453.Search in Google Scholar
Zhang, C.; Cao, X.; Bujlo, P.; Chen, B.; Zhang, X.; Sheng, X.; Liang, C. Review on the Safety Analysis and Protection Strategies of Fast Filling Hydrogen Storage System for Fuel Cell Vehicle Application. J Energy Storage 2022, 45, 103451, doi:10.1016/j.est.2021.103451.Search in Google Scholar
Baird, A.; Hecht, E.; Ehrhart, B.; Muna, A. Liquid Hydrogen Heavy-Duty Vehicle Safety Review and Refueling Facility Design; Albuquerque, NM, and Livermore, CA (United States), 2022;Search in Google Scholar
Halder, P.; Babaie, M.; Salek, F.; Haque, N.; Savage, R.; Stevanovic, S.; Bodisco, T.A.; Zare, A. Advancements in Hydrogen Production, Storage, Distribution and Refuelling for a Sustainable Transport Sector: Hydrogen Fuel Cell Vehicles. Int J Hydrogen Energy 2024, 52, pp. 973-1004, doi:10.1016/j.ijhydene.2023.07.204.Search in Google Scholar
Genovese, M.; Fragiacomo, P. Hydrogen Refueling Station: Overview of the Technological Status and Research Enhancement. J Energy Storage 2023, 61, 106758, doi:10.1016/j.est.2023.106758.Search in Google Scholar
Greene, D.L.; Ogden, J.M.; Lin, Z. Challenges in the Designing, Planning and Deployment of Hydrogen Refueling Infrastructure for Fuel Cell Electric Vehicles. eTransportation 2020, 6, 100086, doi:10.1016/j.etran.2020.100086.Search in Google Scholar
PESA Fuel Cell Shunting Locomotive Approved for Testing, Hydrogen Passenger Train Is next | RailTech.Com.Search in Google Scholar
Fleischhacker, N.; Shakibi Nia, N.; Coll, M.; Perwög, E.; Schreiner, H.; Burger, A.; Stamatakis, E.; Fleischhacker, E. Establishment of Austria’s First Regional Green Hydrogen Economy: WIVA P&G HyWest. Energies (Basel) 2023, 16, 3619, doi:10.3390/en16093619.Search in Google Scholar
Gen2 Energy and Umoe Advanced Composites Sign Contract for Development and Purchase of Containers for Large Scale Transport of Green Hydrogen – Gen2energy.Com.Search in Google Scholar
SM42-6Dn Hydrogen – PESA https://Pesa.Pl/En/Produkty/Hydrogen-Ready/Sm42-6dn-Hydrogen/.Search in Google Scholar
, 