To reach climate neutrality, Europe’s industry will need large quantities of carbon-neutral hydrogen in the future. Many European countries, including Germany, are planning large investments to develop and ramp up the hydrogen industry needed for this. Within the HyPat research project, a new study by RIFS Potsdam, Fraunhofer ISI and the German Energy Agency (dena) makes five recommendations to the EU and the Member States.
Green hydrogen will likely play a crucial role in the global energy transition. RIFS Fellow Beatriz Couto Ribeiro is assessing the opportunities for Latin American economies to enter green hydrogen value chains. In this interview, she explains her research.
Fossil fuel industries dominate the economies of Kazakhstan, Uzbekistan and Turkmenistan. However, interest in green technologies, renewable energy, and hydrogen is also gathering pace – albeit unevenly – in the three Central Asian states, according to a recent study by RIFS researcher Yana Zabanova
As countries get to grips with their climate-neutrality targets, hydrogen has assumed a key role in transitions in energy and industry around the world. A new series of discussion papers published by the Research Institute for Sustainability (RIFS) provides a detailed analysis of hydrogen strategies and policies in different countries and regions.
Hydrogen is widely viewed as a beacon of hope for the global energy transition. China is pursuing an ambitious agenda to strengthen its hydrogen sector. As a new RIFS Study of China's emerging hydrogen economy shows, its current efforts prioritize industrial development ahead of decarbonization and energy security concerns.
Why are Gulf oil and gas producers so keen to promote hydrogen energy? This question is addressed in a new discussion paper by Natalie Koch, political geographer and fellow at the Institute for Advanced Sustainability Studies (IASS). She concludes that for political and corporate leaders in the Gulf states, pivoting towards hydrogen serves to maintain the social, political, and economic status quo. Questions of energy justice are likely to remain, however.
Rising amounts of renewable energy coupled with an increase in decentralised power generation call for the modernisation and significant expansion of the European grids. The EU project SCARLET (“Superconducting cables for sustainable energy transition”) unites 15 partners from 7 countries around the goal of designing and industrially manufacturing superconducting cables to enable more efficient and less costly power transmission from renewable electricity generation sites.
Green hydrogen is set to make an important contribution to decarbonising industry, aviation and heavy transport. An IASS Discussion Paper presents a monitoring framework to systematically compile the most important trends and developments in the global hydrogen economy. Monitoring based on this framework could help to continuously review measures taken in the context of German and European hydrogen policy.
In February 2023, the EU presented the Green Deal Industrial Plan, in which it laid out its strategy for the green transition in industry and energy. Green hydrogen will be an essential cornerstone of this transition. The scale-up of renewable hydrogen production and its use in industry and transport has the potential to achieve decarbonization where direct electrification is not an option. Green hydrogen also offers opportunities to develop technological leadership and economic perspectives within a future net-zero economy.
The European continent dominated the global hydrogen race before 2022, with France, the Netherlands, Norway, Germany, Spain, Portugal, and the European Union all presenting ambitious hydrogen strategies by 2020 that outlined their major areas of action and objectives, along with key policy interventions to achieve those goals. Nonetheless, in the fall of 2022, the world's attention shifted to the United States. An initial draft of its long-awaited Clean Hydrogen Strategy and Roadmap was published by the US Department of Energy (DOE), and in the summer of 2023, the final version of the strategy was issued (U.S. National Clean Hydrogen Strategy and Roadmap, referred to hereafter as “the strategy”).
In their decarbonisation journey, European countries have so far focused on policies to dramatically increase the share of renewables and improve energy efficiency across diverse sectors, including industry, construction and housing. However, it has become clear that renewables alone will not enable the industrial sector to achieve its decarbonisation goals, as a large share of the carbon dioxide emissions from industry are emitted during manufacturing processes. Emerging technologies for carbon capture and storage (CCS) and carbon capture and utilisation (CCU) as well as hydrogen (H2) are currently being explored as the most promising solutions.
Green hydrogen (H2) is often portrayed as a key component for the green energy transition, since it is produced with renewable energy through electrolysis – the splitting up of freshwater into hydrogen and oxygen – and does not emit carbon dioxide when combusted. Not only does green hydrogen harbour huge potential for the decarbonization of hard-to-abate sectors (e.g. steelmaking and production of fertilizers) as well as maritime shipping and aviation, its use as an energy storage solution makes it particularly promising for remote and sparsely populated areas with an abundance of renewable energy resources.
The transition to renewable energy in Europe has evolved dynamically since the turn of the century. The share of renewable energy in the European Union more than doubled between 2004 and 2022. Nevertheless, renewable energy represents only 22 percent of overall energy consumption and 37 percent of electricity generation in the EU. In other words, Europe still has a long way to go, even when it comes to the relatively easy task of converting its electricity production to renewables.