Research Organization Hystar Secures Research and Development Funding from the Norwegian Research Council
Hystar's HYSTACK-II Project Aims to Advance Green Hydrogen Production
Hystar, a Norwegian company known for its efficient and cost-effective electrolyser stack technology, has received funding from the Norwegian Research Council for the HYSTACK-II project. This project aims to further develop Hystar's low-cost, high-efficiency PEM electrolyser stack.
The HYSTACK-II project is a significant step in Hystar's mission to reduce climate emissions. It focuses on energy efficiency and flexible energy use, with the primary goal of substantially decreasing the Capital Expenditure (CAPEX) of Hystar's electrolyser stack.
The project's primary focus is on cost reduction, specifically in the areas of catalysts, coatings, and crucial raw materials for Hystar's electrolyser stack. By finding alternatives to expensive components, Hystar hopes to lower the cost of their electrolyser stack, making green hydrogen production more affordable.
Hamid Zamanizadeh, an R&D Engineer at Hystar, is leading the HYSTACK-II project. The project is an ongoing R&D initiative by Hystar, with the aim of making their electrolyser stack more affordable through innovative solutions.
Green hydrogen, produced by splitting water using renewable electricity, is a key component in the transition towards a sustainable energy future. The HYSTACK-II project is expected to contribute significantly to this transition by improving the cost-effectiveness and efficiency of Hystar's electrolyser stack technology.
Over 17 MNOK has been awarded to Hystar for the HYSTACK-II project. This funding will enable Hystar to continue its research and development efforts, working towards a more sustainable future.
For precise, updated, and detailed project aims for HYSTACK-II, consulting Hystar’s official communications or the Norwegian Research Council publications would provide the most authoritative information.
The HYSTACK-II project, an ongoing R&D initiative by Hystar, is rooted in environmental-science, aiming to reduce climate-change emissions by improving the cost-effectiveness and efficiency of green hydrogen production through technology innovation. The project's primary focus is on finding alternatives to expensive components, with the goal of lowering the cost of Hystar's electrolyser stack, thereby making green hydrogen production more affordable, contributing significantly to a sustainable energy future.
