Hydrogen Storage and TRansport using Ammonia

HORIZON.2.4HORIZON-RIAID: 101058643
EC Contribution
€57,074
Consortium Size
18 orgs
Summary

Hydrogen is an important factor in the EU quest to drastically reduce GHG emissions and curb its use of fossil fuels. The storage and transport of hydrogen, however, faces important challenges which hinder its broad application as an alternative and zero emission fuel. Storage of hydrogen as a gas typically requires high-pressure tanks (up to 700 bar tank pressure); storage of hydrogen as a liquid requires cryogenic temperatures because the boiling point of hydrogen at one atmosphere pressure is -253C. Therefore, for several applications, ammonia rises as a rather prominent vector if it can be produced efficiently. The production is traditionally bound by the constraints of thermodynamics, which require high synthesis pressures, as well as temperatures. Thus, NH3 is produced centralised/large-scaled. HySTrAm builds on developing physical H2 storage materials, enabling short term storage (buffering renewables dynamics), as well as the 3 structural corner stones of flexible low pressure NH3: decreased Ru content catalysts, high temperature NH3 sorbents and induction-heated support granting (optimal) responsiveness. The project will demonstrate a compact containerised ammonia synthesis system which is based on two main consecutive stages:1) A short-term storage hydrogen vessel which will serve as a buffer to store and transport the hydrogen produced by electrolysis. Within the hydrogen vessel, new ultraporous material will be identified and optimised through machine learning technology 2) An ammonia synthesis reactor based on an improved the Haber-Bosch process where the stored hydrogen will react with nitrogen to form ammonia using the novel catalysts and sorbents developed in HySTrAm.

Consortium (18)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (14)
Thermocatalytic ammonia synthesis beyond conventional Haber-Bosch: Principles, advances, challenges and opportunities
Progress in Energy and Combustion Science· 2026DOI
Tianbao Gu; Matej Huš; Samuel Simon Araya; Blaž Likozar; Fausto Gallucci; Vincenzo Liso
"Recipe-based 1-D dynamic modeling of an integrated NH<mml:math xmlns:mml=""http://www.w3.org/1998/Math/MathML"" altimg=""si356.svg"" display=""inline"" id=""d1e3128""><mml:msub><mml:mrow/><mml:mrow><mml:mn>3</mml:mn></mml:mrow></mml:msub></mml:math>-synthesis-sorption reactor"
Chemical Engineering and Processing - Process Intensification· 2025DOI
C. Sengoba, M. Illner, J.-U. Repke
Assessing Cryogenic CO2 Capture and Green Ammonia Production as Key Technologies for Green Transition
· 2025DOI
null null, Hossein Asgharian
Development of a Dashboard for Simulation Workflow Visualization and Optimization of an Ammonia Synthesis Reactor in the HySTrAm Project (Horizon EU)
11th International Conference on Experiments / Process / System Modeling / Simulation / Optimization (11th IC-EpsMsO)· 2025DOI
Douvi Eleni, Douvi Dimitra, Tsahalis Jason, and Tsahalis Haralabos-Theodoros
Green ammonia production in Denmark: Assessing future potentials and challenges
Fuel· 2025DOI
Hossein Asgharian, Henrik Lund, Jakob Zinck Thellufsen, Florin Iov, Mads Pagh Nielsen, Vincenzo Liso
HySTrAm – Hydrogen Storage and Transport Using Ammonia: A Horizon Europe Funded Project
11th International Conference on Experiments / Process / System Modeling / Simulation / Optimization (11th IC-EpsMsO)· 2025DOI
Douvi, Dimitra, Douvi, Eleni, Tsahalis, Jason, Tsahalis, Haralabos Theodoros
Numerical investigation of sorption-enhanced ammonia synthesis for hydrogen storage: CFD modeling, experimental validation, and scale-up
International Journal of Hydrogen Energy· 2025DOI
Tianbao Gu, Elizaveta Taranets, Hossein Asgharian, Samuel Simon Araya, Fausto Gallucci, Vincenzo Liso
Sustainable urea production via CO2 capture from cement plants: A techno-economic analysis with focus on process heat integration and electrification
International Journal of Hydrogen Energy· 2025DOI
Hossein Asgharian; Albert Pujol Duran; Ali Yahyaee; Valeria Pignataro; Mads Pagh Nielsen; Florin Iov; Vincenzo Liso
A review of multiscale modelling approaches for understanding catalytic ammonia synthesis and decomposition
Journal of Catalysis· 2024DOI
Luka Skubic, Sašo Gyergyek, Matej Huš, Blaž Likozar
Catalytic Reactor-Utilized Ammonia Adsorption, Absorption, and Storage Materials: Mechanism, Nanostructure, and <i>Ab Initio</i> Design
ACS Sustainable Chemistry & Engineering· 2024DOI
Aleksandra Zamljen, Blaž Likozar
CFD Modeling of NH3 Synthesis on Ru-Based Catalyst for Hydrogen Storage and Transport
Springer Proceedings in Physics, Proceedings of the 10th Hydrogen Technology Convention, Volume 2· 2024DOI
Tianbao Gu, Samuel Simon Araya, Vincenzo Liso
Exceeding equilibrium limitations: Enhanced temperature control for sustainable decentralized green ammonia production − a techno-economic analysis
Energy Conversion and Management· 2024DOI
Hossein Asgharian, Valeria Pignataro, Florin Iov, Mads Pagh Nielsen, Vincenzo Liso
Techno-economic analysis of blue ammonia synthesis using cryogenic CO2 capture Process-A Danish case investigation
International Journal of Hydrogen Energy· 2024DOI
Hossein Asgharian, Larry Baxter, Florin Iov, Xiaoti Cui, Samuel Simon Araya, Mads Pagh Nielsen, Vincenzo Liso
Exploring decentralized ammonia synthesis for hydrogen storage and transport: A comprehensive CFD investigation with experimental validation and parametric study
Energy Conversion and Management· 2023DOI
Tianbao Gu; Samuel Simon Araya; Chungen Yin; Vincenzo Liso
Deliverables (1)
Other Results (1)
Periodic Reporting for period 1 - HySTrAm (Hydrogen Storage and TRansport using Ammonia)