Webinar: Ensuring Safety in Green Hydrogen
This webinar features insights from the H2-Safety2 project, in which key industry players are collaborating to develop safety guidelines that ensure safe design, operation, and maintenance of electrolysis systems.
Enabling Safe Green Hydrogen Production on Industrial Scale – A Process Safety Study
This report dives deeper into the technical safety risks, scenarios and design implications for electrolysis using Alkaline Water Electrolysis (AWE) and Proton Exchange Membrane (PEM) technologies.
New electrical layout and converters for GW green hydrogen plant
The Institute for Sustainable Process Technology (ISPT), in cooperation with Hitachi Energy and consortium partners Equinor, HyCC, Ørsted, Port of Rotterdam, and Yara, has completed a feasibility study to explore...
Report on the EU Carbon Border Adjustment Mechanism (CBAM)
This Greenberg Traurig, LLP (“GT") Report sets out some possible implications of CBAM for the HyScaling Project.
Varieties of industrial policy: the case of upscaling electrolyser manufacturing in Flanders and Germany
This study examined the strategies and approaches to upscale electrolyser production in Flanders and Germany, and the lessons the Netherlands can draw from them.
The public perception of green hydrogen in the Netherlands
This report dives into the Dutch public’s perception of green hydrogen, offering key findings and actionable recommendations for stakeholders and practitioners.
Webinar: Economic and Public Aspects of Green Hydrogen Production
During this webinar we explored the economic and public aspects of green hydrogen production.
Next steps towards an autonomous large-scale hydrogen plant
Part of the HyScaling project is to develop an operating strategy for large-scale green hydrogen alkaline water electrolyzer plants. Given a greenfield situation and high labor costs for 24/7 chemical...
Webinar: Exploring technological developments in PEM and alkaline water electrolysis
During this webinar we take a deep dive into the technological hydrogen developments.
HyChain 4: Integral Hydrogen-Based Supply Chain Development
This reports showcases the findings of a three-year innovation project, and provides a deeper understanding of drivers and mechanisms that steer the development of new hydrogen value chains, with a...
A 1 gigawatt green hydrogen plant
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.
Executive Summary: Safety Aspects of Green Hydrogen Production on Industrial Scale
Download the executive summary of the Hydrogen Safety report here.
Safety Aspects of Green Hydrogen Production on Industrial Scale
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...
Progress 2nd year Hyscaling project
The Hyscaling project is about making hydrogen production from electricity on a GW-scale applicable.
Electrolysis as a potential solution for congestion management (Use Case Study)
Use Case Study of deployment of electrolysis for congestion management analyzed for legal feasibility, market potential and effect on congestion.
Next Level Solid Oxide Electrolysis
A feasibility study that has investigated the upscaling options of the SOEC technology in the industrial environment.
Trendreport: the Future of Sustainable Process Industry
Download your free copy of ISPT's report: The Future of Sustainable Process Industry.
Roadmap of the measuring requirements for green hydrogen production by electrolysis
This roadmap helps identifying and prioritizing the needs for measurements related to green hydrogen production (via PEM and Alkaline electrolysis).
Progress 1st year Hyscaling project
The Hyscaling project is about making hydrogen production from electricity on a GW-scale applicable.
Webinar: Deepdive in a 1 GW scale green hydrogen plant
This webinar takes a deep-dive into the design and costs of the 1GW green hydrogen plant that can be operational in 2030.
Methane to ethylene by pulsed compression
Pulsed compression is introduced for the conversion of methane, by pyrolysis, into ethylene.
1 GW green hydrogen plant: design and costs
We proudly present the design for an innovative and advanced green hydrogen plant at gigawatt scale, which can be operational in 2030.
Integration of Hydrohub GigaWatt Electrolysis Facilities in 5 Industrial Clusters in The Netherlands
This report delivers a competitive design with blueprints for GW green hydrogen plants in 5 industrial clusters in the Netherlands.
Integration of gigawatt scale electrolyses in 5 industrial clusters
The conclusion of this study is that GW scale green hydrogen facilities are possible in all 5 industrial clusters in the Netherlands.