A Preliminary Methodological Framework of the Potential Hydrogen Economy for a Sustainable Transport in Malaysia

  • Nuryantizpura Mohamad Rais Universiti Teknologi MARA
  • Siti Ayu Jalil Universiti Teknologi MARA
  • Faris Arabi Wazani Sarawak Metro Sdn Bhd, Gateway Kuching, Jalan Bukit Mata Kuching, Kuching, Sarawak
  • Mohd Aizat Mohd Azizan Sarawak Metro Sdn Bhd, Gateway Kuching, Jalan Bukit Mata Kuching, Kuching, Sarawak
DOI: https://doi.org/10.22610/imbr.v16i3(I)S.4109
Keywords: Hydrogen economy, sustainable transport, green hydrogen, Malaysia, decarbonization, heavy-duty vehicles, technological feasibility, economic viability

Abstract

The transition to a hydrogen economy is vital for achieving sustainable transport in Malaysia, particularly in mitigating the environmental impact of heavy-duty mobility. This paper proposes a preliminary methodological framework to evaluate hydrogen's potential as a transformative solution for decarbonizing the transportation sector, focusing on key areas such as hydrogen production, storage, distribution, and vehicle integration, with an emphasis on green hydrogen from renewable sources. Our assessment reveals the significant potential of hydrogen to reduce greenhouse gas emissions and air pollutants, positioning it as a viable alternative to fossil fuels and battery-electric vehicles, especially in heavy-duty applications. The study assesses the technological feasibility, economic viability, and environmental benefits of adopting hydrogen in Malaysia, considering current infrastructure, production capabilities, and regulatory frameworks. Key challenges identified include the high costs of hydrogen production and infrastructure, technological barriers in storage and vehicle integration, and gaps in policy and market readiness. To address these, we propose strategic recommendations for stakeholders, highlighting the need for government support, public-private partnerships, and international collaborations. This framework aims to guide Malaysia’s transition to a hydrogen-powered transport sector, aligning with the nation’s sustainability and energy security goals while positioning Malaysia as a leader in hydrogen technology in Southeast Asia.

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References

Alstom. (2022). Coradia iLint: The world’s first hydrogen-powered train. Retrieved from https://www.alstom.com/coradia-ilint-worlds-first-hydrogen-powered-train
BloombergNEF. (2020). Hydrogen economy outlook: Key messages. Retrieved from https://about.bnef.com/blog/hydrogen-economy-outlook-key-messages/
BloombergNEF. (2021). Battery pack prices fall to an average of $137/kWh, but rising commodity prices start to bite. Retrieved from https://about.bnef.com/blog/battery-pack-prices-fall-to-an-average-of-137-kwh-but-rising-commodity-prices-start-to-bite/
European Commission. (2020). A hydrogen strategy for a climate-neutral Europe. Retrieved from https://ec.europa.eu/energy/sites/ener/files/hydrogen_strategy.pdf
Hydrogen Council. (2021). Hydrogen insights 2021: A perspective on hydrogen investment, market development and cost competitiveness. Retrieved from https://hydrogencouncil.com/en/hydrogen-insights-2021/
Hydrogen Council. (2022a). Hydrogen: A key element of the energy transition for heavy-duty vehicles. Retrieved from https://hydrogencouncil.com/en/hydrogen-for-heavy-duty-vehicles/
Hydrogen Council. (2022b). Hydrogen for net zero: A critical role for hydrogen in global transport. Retrieved from https://hydrogencouncil.com/reports/2022-heavy-duty-vehicles
Hyundai. (2021). Hyundai XCIENT fuel cell trucks expand sustainable transport. Retrieved from https://www.hyundai.com/worldwide/en/company/newsroom/hyundai-xcient-fuel-cell-trucks-expand-sustainable-transport-0000016402
International Energy Agency. (2020). Biofuels for transport: Technology and policy insights. Retrieved from https://www.iea.org/reports/biofuels-for-transport
International Energy Agency. (2021). The future of hydrogen: Seizing today’s opportunities. Retrieved from https://www.iea.org/reports/the-future-of-hydrogen
International Energy Agency. (2023). Global Hydrogen Review 2023. Retrieved from https://www.iea.org/reports/global-hydrogen-review-2023
International Renewable Energy Agency. (2019). Hydrogen: A renewable energy perspective. Retrieved from https://www.irena.org/publications/2019/Sep/Hydrogen-A-renewable-energy-perspective
International Renewable Energy Agency. (2020). Green hydrogen: A guide to policy making. Retrieved from https://www.irena.org/publications/2020/Nov/Green-hydrogen
Ministry of Economy, Trade and Industry. (2017). Basic hydrogen strategy. Retrieved from https://www.meti.go.jp/english/press/2017/pdf/1226_003a.pdf
Ministry of Energy and Natural Resources Malaysia. (2023). National Energy Policy 2023-2040. Retrieved from https://www.ketsa.gov.my
Petronas. (2022). Hydrogen production and potential in Malaysia. Internal Report.
Sarawak Energy. (2020). Hydrogen economy & opportunities in Sarawak. Retrieved from https://www.sarawakenergy.com/
Sarawak Energy. (2023). Hydrogen initiatives in Sarawak. Retrieved from https://www.sarawakenergy.com
Sarawak Metro. (2023). Sarawak hydrogen bus pilot project. Retrieved from https://www.sarawakmetro.com
The Borneo Post Online. (2023, March 22). Sarawak to take the lead in the hydrogen economy with the H2biscus project. The Borneo Post Online. Retrieved from https://www.theborneopost.com/2023/03/22/sarawak-to-take-lead-in-hydrogen-economy-with-h2biscus-project
U.S. Department of Energy. (2021a). Hydrogen and fuel cells: Opportunities for clean energy and transport. Retrieved from https://www.energy.gov/eere/fuelcells/hydrogen-and-fuel-cells-opportunities-clean-energy-and-transport
U.S. Department of Energy. (2021b). Hydrogen production costs – Current and future. Retrieved from https://www.energy.gov/eere/fuelcells/hydrogen-production-costs-current-and-future
U.S. Department of Energy. (2022). Hydrogen fuel cells: Potential and challenges. Retrieved from https://www.energy.gov/eere/fuelcells/hydrogen-fuel-cells
Published
2024-10-05
How to Cite
Rais, N. M., Jalil, S. A., Wazani, F. A., & Mohd Azizan, M. A. (2024). A Preliminary Methodological Framework of the Potential Hydrogen Economy for a Sustainable Transport in Malaysia. Information Management and Business Review, 16(3(I)S), 799-816. https://doi.org/10.22610/imbr.v16i3(I)S.4109
Issue
Vol 16 No 3(I)S (2024)
Section
Research Paper

Copyright (c) 2024 Nuryantizpura Mohamad Rais, Siti Ayu Jalil, Faris Arabi Wazani, Mohd Aizat Mohd Azizan

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