Technical design and the associated total investment costs of a greenfield 1-GW green-hydrogen plant that would be built, and up and running by 2030.
Download the executive summary of the Hydrogen Safety report here.
This Hydrogen Safety report outlines crucial insights into ensuring the safe coexistence of hydrogen and oxygen within equipment. It aims to standardize risk assessments, addressing complexities and proposing essential methodologies...
Use Case Study of deployment of electrolysis for congestion management analyzed for legal feasibility, market potential and effect on congestion.
A feasibility study that has investigated the upscaling options of the SOEC technology in the industrial environment.
This roadmap helps identifying and prioritizing the needs for measurements related to green hydrogen production (via PEM and Alkaline electrolysis).
The Hyscaling project is about making hydrogen production from electricity on a GW-scale applicable.
We proudly present the design for an innovative and advanced green hydrogen plant at gigawatt scale, which can be operational in 2030.
This report delivers a competitive design with blueprints for GW green hydrogen plants in 5 industrial clusters in the Netherlands.
The conclusion of this study is that GW scale green hydrogen facilities are possible in all 5 industrial clusters in the Netherlands.
In this project we studied the storage of electricity in ammonia (NH3).
Research collected into 59 fact sheets on technologies for production, conversion, storage, transportation, and reconversion of hydrogen.
This report focusses specifically on the cost implications of importing renewable electricity, hydrogen and hydrogen carriers into the Netherlands.
This study explores the possible future role of hydrogen in different end-use sectors in the Netherlands with a focus on industrial demand.
Summary of 3 reports on how the hydrogen-based supply chains will come about and can play a role in the economy of the Netherlands.