This chapter delves into evolving policy and regulatory dimensions shaping the emergence of hydrogen in the Latin American energy landscape. With a focus on three regional leaders – Chile, Colombia and Brazil – it explores the distinct strategic paths these countries are charting as they seek to position themselves in the burgeoning hydrogen economy. Chile, Colombia and Brazil, aiming to capitalize on their abundant (renewable) resources, have moved swiftly to outline ambitious hydrogen strategies and legislation. Despite this progress, as the chapter reveals, important regulatory challenges still limit their ability to fully tap the hydrogen well. Even as these obstacles persist, interest in hydrogen projects continues to soar, as exemplified by the numerous developed or in-development pilot projects pragmatically leveraging the existing frameworks. Ultimately, while clean hydrogen promises to usher in an era of sustainable development for Latin America, regulatory efforts matching policy ambitions will continue to be needed to successfully transition from promise to actual production.

The United States federal government is stimulating private investment in the hydrogen sector with the goal of producing and using 10 million metric tonnes (MMT) of clean hydrogen by 2030 and 50 MMT by 2050. Recent measures include $8 billion in grants for ‘hydrogen hubs’, $1.5 billion in research funding, and tax credits (uncapped) for qualifying investments or production. The response from industry, communities, and state and local governments to the grant program has been strong. However, implementation delays and regulatory uncertainty may delay infrastructure development and create risks for early investors. Thus, the outlook for success is still uncertain.

The global push for economy-wide decarbonization is fueling intense interest in the potential of hydrogen as a zero-carbon resource. Long coveted as a fuel of the future, hydrogen already is being used in a variety of applications to cut carbon emissions across the globe. This chapter details a case study from Mitsubishi Power in use of hydrogen in gas turbines to produce electricity. Currently, Mitsubishi Power’s largest and most advanced gas turbines make use of a dry low-NOx (DLN) combustion system that allows operation with up to 30% hydrogen in baseline configuration. Going forward, increasing the use of hydrogen as a percentage of a power station’s fuel mix – from a mixture of around 30% hydrogen all the way up to 100% hydrogen as an energy source – requires the need for innovative equipment modifications, such as a multi-cluster combustor.

The global push for economy-wide decarbonization is fueling intense interest in the potential of hydrogen as a zero-carbon resource. Long coveted as a fuel of the future, hydrogen already is being used in a variety of applications to cut carbon emissions across the globe. This chapter details a case study from Mitsubishi Power in use of hydrogen in gas turbines to produce electricity. Currently, Mitsubishi Power’s largest and most advanced gas turbines make use of a dry low-NOx (DLN) combustion system that allows operation with up to 30% hydrogen in baseline configuration. Going forward, increasing the use of hydrogen as a percentage of a power station’s fuel mix – from a mixture of around 30% hydrogen all the way up to 100% hydrogen as an energy source – requires the need for innovative equipment modifications, such as a multi-cluster combustor.