Environment and Natural Resources

This study offers the first consistent attempt to identify how energy sector decarbonization policies have affected the energy mix over the past four decades across more than 100 developing countries. 

This report studies the role countries could play in future green hydrogen industrial markets, focusing on three key applications: ammonia, methanol, and steel production. To elucidate the impact of the transition to a low-carbon economy on energy value chains, Eicke and De Blasio propose an analytical framework to cluster countries into five groups based on the variables of resource endowment, existing industrial production, and economic relatedness.

The Model of International Green Hydrogen Trade (MIGHTY) is an optimization model to investigate renewable hydrogen production, consumption, and trade between countries. MIGHTY supports strategic analysis by policymakers and investors about the potential roles that countries and regions will play in future renewable hydrogen markets. This paper introduces the model and describes the model formulation.

This paper focuses on the market and geopolitical implications of renewable hydrogen adoption at scale in the European Union (EU). The authors analyze long-term strategies based on three reference scenarios in which the EU prioritizes a different strategic variable: energy independence, cost (optimization), or energy security. Developing competitive and secure hydrogen markets will require close coordination between policy, technology, capital, and society—and for EU countries to unite behind a shared long-term vision.

To accelerate the global transition to a low-carbon economy, all energy systems must be actively decarbonized. While hydrogen has been a staple in the energy and chemical industries for decades, clean hydrogen – defined as hydrogen produced from water electrolysis with zero-carbon electricity – has captured increasing political and business momentum as a versatile and sustainable energy carrier in the future carbon-free energy puzzle.

This paper analyzes clean hydrogen’s potential for driving emissions reductions in the mobility sector, focusing on road transportation, shipping, rail, and aviation. Overall, transportation is the second-largest producer of global CO2 emissions, after electricity and heat generation, and one of the hardest sectors to decarbonize due to its distributed nature and the advantages provided by fossil fuels in terms of high energy densities, ease of transportation and storage. 

Innovation will be critical in the transition to a low-carbon economy. Meeting the goals of the Paris Climate Agreement requires reworking our existing energy infrastructure, but it is easier said than done. Rethinking energy systems hinges on reconciling the interests of many existing stakeholders: investors, banks, governments, energy companies, and consumers. Developing and fostering new ideas is the first step toward illuminating the frontiers of what is possible.

This paper focuses on China and the potential role of renewable hydrogen in accelerating its transition to a low-carbon economy. Our research goal is to provide policymakers and other stakeholders the means to make informed decisions on technology innovation, policy instruments, and long-term investments in enabling infrastructure.

To accelerate the global transition to a low-carbon economy, all energy systems and sectors must be actively decarbonized. While hydrogen has been a staple in the energy and chemical industries for decades, renewable hydrogen is drawing increased attention today as a versatile and sustainable energy carrier with the potential to play an important piece in the carbon-free energy puzzle. Countries around the world are piloting new projects and policies, yet adopting hydrogen at scale will require innovating along the value chains; scaling technologies while significantly reducing costs; deploying enabling infrastructure; and defining appropriate national and international policies and market structures.

What are the general principles of how renewable hydrogen may reshape the structure of global energy markets? What are the likely geopolitical consequences such changes would cause? A deeper understanding of these nascent dynamics will allow policy makers and corporate investors to better navigate the challenges and maximize the opportunities that decarbonization will bring, without falling into the inefficient behaviors of the past.