Global efforts to keep the rise in average temperatures within 1.5°C are falling short. To achieve this goal, more extensive decarbonization measures are necessary across all sectors of the economy.
About Hydrogen
Hydrogen is a naturally-occurring element that makes up molecules of water and hydrocarbons. It can be obtained by two primary methods: electrolysis of water and extraction from fossil fuels. The International Energy Agency estimates that in 2022, the world consumed 95 million metric tons of hydrogen per year, mainly in the ammonia, oil refining, and chemical industries. About 99 percent of hydrogen production was fossil fuel-based, using technologies that release carbon dioxide into the atmosphere.
About Clean Hydrogen
Clean hydrogen is hydrogen that is produced through the use of carbon capture, utilization and storage (CCUS) technology, that results in limited or zero greenhouse gas emissions. Clean hydrogen can be categorized based on its production method, mainly focusing on the environmental impact and the energy source used. Green hydrogen is one category of clean hydrogen and is defined as hydrogen that is produced via electrolysis, powered by renewable energy, such as solar, wind, hydroelectric or geothermal, to split water into hydrogen and oxygen.
According to the IEA’s 2023 Global Hydrogen Review, to meet climate ambitions, there is a need to switch hydrogen used in existing applications, like refining and in the chemical and fertilizer industries, to low-emission hydrogen and to expand the use to new applications in heavy industry or long-distance transport. Green hydrogen is one of the most useful tools to decarbonize such hard-to-abate sectors and reach net zero targets.
Despite the great promise of green hydrogen, as well as the announcement of more than 1,000 large-scale green hydrogen projects (with expected investments of over $320 billion through 2030), only a few projects have reached final investment decision. High costs and challenges related to offtake and the regulatory environment are the primary barriers to financing. Governments, donors, and multilateral organizations are working to ensure appropriate incentives and regulatory frameworks are in place to support this nascent industry and accelerate the development of green hydrogen projects.
Recognizing the rising interest in green hydrogen, IFC is working closely with the World Bank and MIGA to support the sector. As of December 2023, IFC has become involved in nearly a dozen green hydrogen projects worldwide, with potential investments exceeding $10 billion. Green hydrogen holds great potential for greening the steel sector, but also the broader mining sector, including transport solutions.
IFC is committed to supporting the development of green hydrogen as part of its effort to combat climate change, create jobs and capture new opportunities for growth in emerging markets. IFC is helping fund feasibility studies and co-develop pilot projects, advising companies on bankability issues, raising concessional financing, and providing equity and debt financing for green hydrogen projects in Latin America, Africa, Europe, the Middle East, and Asia. We also offer industry-leading expertise to develop infrastructure projects that provide essential services in partnership with the private sector.