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Sufficiency, Sustainability, and Circularity of Critical Materials for Clean Hydrogen

Susana Moreira, Timothy James Laing

2022Washington, DC: World Bank eBooks15 citationsDOIOpen Access PDF

Abstract

Effective global decarbonization will
\n require an array of solutions across a portfolio of
\n low-carbon resources. One such solution is developing clean
\n hydrogen. This unique fuel has the potential to minimize
\n climate change impacts, helping decarbonize hard-to-abate
\n sectors such as heavy industry and global transport, while
\n also promoting energy security, sustainable growth, and job
\n creation. The authors estimate suggest that hydrogen needs
\n to grow seven-fold to support the global energy transition,
\n eventually accounting for ten percent of total energy
\n consumption by 2050. A scaleup of this magnitude will
\n increase demand for materials, such as aluminum, copper,
\n iridium, nickel, platinum, vanadium and zinc to support
\n hydrogen technologies - renewable electricity technologies
\n and the electrolyzers for renewable hydrogen, carbon storage
\n for low-carbon hydrogen, or fuel cells using hydrogen to
\n power transport. This report, a joint product of the World
\n Bank and the Hydrogen Council, examines these three critical
\n areas. Using new data on the material intensities of key
\n technologies, the report estimates the amount of critical
\n minerals needed to scale clean hydrogen. In addition, it
\n shows how incorporating sustainable practices and policies
\n for mining and processing materials can help minimize
\n environmental impacts. Key among these approaches is the use
\n of recycled materials, innovations in design in order to
\n reduce material intensities, and adoption of policies from
\n the Climate Smart Mining (CSM) Framework to reduce impacts
\n to greenhouse gas emissions and water footprint.

Topics & Concepts

SustainabilityEnvironmental scienceEcologyBiologyCarbon Dioxide Capture TechnologiesCatalytic Processes in Materials ScienceSpacecraft and Cryogenic Technologies
Sufficiency, Sustainability, and Circularity of Critical Materials for Clean Hydrogen | Litcius