New
SUNSOLr: Electrification of Chemical Conversions
The SUNSOLr project is dedicated to developing technologies for the direct electrification of chemical conversions, focusing on CO2 and H2O/H2 to produce chemicals like CO, CH4, olefins, and methanol.
New
GAMBA – Green Alloys Modelling Better Approaches
The GAMBA project seeks to reduce the carbon footprint of the iron and steel industry by transitioning from natural gas to hydrogen-based direct reduction (DRI) processes.
External event
Workshop innovatie in de industrie: CCU
TKI Energie en Industrie organiseert samen met TKI Groene Chemie en Circulariteit de workshop CCU. Wil jij meewerken aan de ontwikkeling van een nationale agenda voor CCU in Nederland?
White Paper: Advancing Circular Carbon in the Industry (Steel2Chemicals)
Learn how the Steel2Chemicals project advances circular carbon in the industry. Download the report for key findings and sustainable solutions.
Nitrogen fixation with renewable electricity
Is Plasma Catalysis an alternative for small-scale ammonia synthesis?
Trendreport: the Future of Sustainable Process Industry
Download your free copy of ISPT's report: The Future of Sustainable Process Industry.
PROVE IT
PROVE IT is all about the technical feasibility of the production of methanol from CO2 waste gas.
Completed
Carbon Transition Model
The Carbon Transition Model is a simulation model to explore ways to reduce emissions and increase carbon circularity.
Completed
Methanol, the LOGIC Choice!
The LOGIC project scales-up the Liquid-Out Gas-In Concept reactor for methanol synthesis from CO2 and sustainable hydrogen.
Completed
C2V – Carbon2Value
Innovative CO2 separation technology aims to reduce emissions in steel industry. This project revolves around an innovative technology with the potential to reduce CO2 emissions across the major energy intensive...
Completed
S2C – Steel2Chemicals
The project Steel2Chemicals develops a closed value chain in which CO from steel production is used as feedstock for the chemical industry.
Completed
COMPACT – Pulsed Compression II
The goal of this project was to produce ethylene from methane using pulsed compression technology and to determine the feasibility for industrial applications.