H2Retake is TOPSOE™'s commercially proven and highly energy-efficient ammonia cracking solution. It allows energy producers worldwide the ability to convert ammonia back into high-purity hydrogen efficiently and with the lowest levelized cost.
Profit form decades of industrial experience in large-scale industrial ammonia cracking.
Release the energy potential in ammonia through a solution that's efficient, flexible, and proven.
Meet 96% energy efficiency
Are you in the market for the best conversion efficiency? H2RetakeTM stands out among other ammonia cracking technologies due to its market-leading energy efficiency of 96%
Within the H2RetakeTM process, energy input in the side-fired ammonia cracker is efficiently utilized to drive the decomposition reaction and effectively preheat and evaporate the raw feed with minimal wastage. The efficiency is achieved through a streamlined ammonia cracking design, optimized heat and off stream integration and careful selection of a catalyst.
The cost of the ammonia feed is the dominating cost of hydrogen from ammonia cracking. The optimized energy and hydrogen efficiency of H2RetakeTM will ensure the best possible business case for the ammonia cracking plant.
The optimized heat integration in H2RetakeTM has eliminated the need for any cooling or stream generating system which further reduces the total investment needed to realize the plant.
A flexible and scalable solution
The application of ammonia cracking is versatile. It can be centralized and implemented on large to mega-scale, with the production hydrogen then transported to its end-use location via a comprehensive hydrogen grid, as currently planned in Europe.
Alternatively, it can be deployed in a decentralized, large-scale manner, located near major hydrogen consumers, potentially through local hydrogen grids.
H2Retake™ provides a versatile approach in its scale and deployment, allowing companies flexibility regarding ammonia cracking capabilities. So, from decentralized off-take dedicated ammonia crackers to largescale centralized ammonia crackers feeding hydrogen grids, our ammonia cracking set-up can be adapted to feed your requirements.
Proven large-scale ammonia cracking
We have the only industrially proven ammonia cracking technology available and optimized to perform exceptionally well under ammonia cracking conditions.
Largest reference plant: Arroyito, argentina
Our largest plant in Arroyito, Argentina, with a capacity of up to 2 X 2,400 MTPD in two parallel lines, is a testament to our proven technology.
The core components of H2RetakeTM, catalyst technology, and supporting solutions put us in a unique market position to deliver process and catalyst guarantees.
Delve into the H2RETAKE process
The core H2Retake builds on our established side-fired cracking technology. Despite overall similarities in the design with conventional steam methane reformers, H2Retake primarily differs in the choice of equipment materials, as these must tolerate harsh nitridation conditions in the ammonia cracker, and of course the catalyst.
H2Retake improves the overall ammonia cracking performance with high conversion rates, energy optimization, catalyst selection, process integration, and advanced technologies to ensure the most efficient pathway to a cost-efficient, large-scale clean hydrogen supply.
Beyond the basics of the H2Retake process
Delve deeper into the process...
Cracking on with a proven catalyst
Our long track record of developing and supplying industrially proven ammonia cracking catalysts means our products are operationally proven and outperform competitors in real-world industrial settings.
For H2RetakeTM, we recommend base metal catalysts, including the superior TOPSOE™ proprietary iron-cobalt catalyst with unsurpassed performance and stability (DNK-2R).
Adding tailored nickel-based catalyst to our portfolio of ammonia cracking catalysts offers techno-economic optimization of the H2RetakeTM solution (DNK-20 and DNK-30).
Thanks to the meticulous selection of structural and electronic promoters, our catalytic technology effectively mitigates the impact of water presence and ensures long term stable and efficient ammonia decomposition.
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