Exploring the Potential of Hydrogen and Nuclear Energy in the Energy Transition
Key Ideas
  • Discussion at IPE Real Assets Conference in Munich emphasized the strategic importance of hydrogen infrastructure in supporting renewable energy integration.
  • Sizewell C nuclear power project in the UK aims to reduce waste heat by exploring hydrogen production, DAC, clean fuels, district heating, and data center applications.
  • Gasunie Energy Development plans to invest €8bn in energy transition infrastructure, with a significant focus on hydrogen in the Netherlands and Germany.
  • CPP Investments' Sustainable Energies Group is investing in early-stage hydrogen technologies, prioritizing existing users of gray hydrogen and adopting a platform approach for risk mitigation.
The IPE Real Assets Infrastructure & Natural Capital Global Conference in Munich shed light on the potential of hydrogen and nuclear energy in the energy transition. Hans Jonk from Gasunie Energy Development, Art Pithayachariyakul from CPP Investments, and Joseph Rippon from Sizewell C discussed the critical role of hydrogen infrastructure in integrating renewable energy. Rippon highlighted the Sizewell C nuclear project's plans to utilize waste heat for hydrogen production, DAC, clean fuels, and more. Gasunie aims to invest €8bn in energy transition infrastructure, emphasizing a shift to hydrogen in the Netherlands and Germany. Pithayachariyakul discussed CPP Investments' early-stage investments in the hydrogen economy, focusing on gray hydrogen users for risk mitigation. The platform approach adopted by CPP Investments seeks to de-risk investments in hydrogen assets. Overall, the sentiment towards hydrogen in the article is positive, highlighting its potential for decarbonization and energy transition.
ADVANCEH2

Our vision is to be the world's leading online platform for advancing the use of hydrogen as a critical piece needed to deliver net-zero initiatives and the promise of a clean H2 energy future.

© 2024 AdvanceH2, LLC. All rights reserved.