Closed

Demonstration of scalable ammonia cracking technology

HORIZON JU Innovation Actions

Basic Information

Identifier: HORIZON-JU-CLEANH2-2025-02-03
Programme: HORIZON-JU-CLEANH2-2025
Programme Period: 2021 - 2027
Status: Closed (31094503)
Opening Date: January 30, 2025
Deadline: April 23, 2025
Deadline Model: single-stage
Budget: €184,500,000
Min Grant Amount: €1,000,000
Max Grant Amount: €1,000,000
Expected Number of Grants: 1
Keywords: HORIZON-JU-CLEANH2-2025-02-03HORIZON-JU-CLEANH2-2025Hydrogen

Description

Expected Outcome:

Ammonia is an essential global commodity. Today, around 85% of all ammonia is used to produce synthetic nitrogen fertilisers and is responsible for around 45% of global hydrogen consumption, or around 33 Mt of hydrogen in 2020. Hydrogen production by ammonia cracking has received growing attention in recent years for several reasons: i) an established and complete supply chain with considerable growth due to the high supply and demand ammonia for several sectors, ii) ammonia cracking emits only nitrogen as a byproduct, iii) ammonia has attractive gravimetric and volumetric densities for hydrogen storage applications, allowing an easy transport with reduced cost.

While several projects have developed novel concepts for ammonia cracking technologies in recent years, the feasibility of up-scaling these technologies in terms of reactor design and hydrogen production rate to match industrial demand at various scales needs to be validated. This includes optimisation of thermal management, for instance, by considering integrating the cracking plant in a use-case scenario and implementing a modular approach to the cracking technology for rapid scale-up and deployment in various sectors.

The topic addresses the value chain from ammonia molecules to purified hydrogen for delivery in downstream applications. Hence, it addresses system design optimisation to reduce the energy consumption of cracking reactions and integrate it with purification/separation processes.

To bring ammonia cracking technology to the next stage of maturity, project results are expected to contribute to all the following expected outcomes:

Provide breakthrough and game-changing technologies for hydrogen production by ammonia cracking;
Contribute to replicability and modular scalability of new ammonia cracking technology to enable future commercial applications at different scales;
Improve the efficiency of the ammonia conversion process also integrating purification of produced hydrogen;
Contribute to European technology leadership in ammonia cracking technology, integration of high-efficiency heat management, and hydrogen purification;
Improve and develop new business models of hydrogen production by ammonia cracking for various scales of production;
Contribute to the understanding of Europe's needs in terms of infrastructure and regulation for managing the ammonia supply chain for hydrogen production;
Contribute to the sustainability of the European materials supply chain, strengthening the recyclability of CSRM (Critical and Strategic Raw Materials).

Project results are expected to contribute to all the following objectives:

Total Cost of Ownership: <1.5 €/kgH2 delivered^[1];
Ammonia dehydrogenation unit CAPEX <1000k€/(tonnesH2.day)
Demonstrate high tunability and a wide range of dynamic operations (30-100%) for several user cases;
The availability of the system should be no less than 90%;
Recovery rate of hydrogen should be > 80%^[2].

Scope:

The topic focuses on developing a highly efficient, modular and scalable cracking technology to convert ammonia into high-purity hydrogen to the specifications needed for specific applications and scales. The modular and scalable technology will enable cost-competitive and safe use of hydrogen in industrial and market sectors such as hard-to-decarbonise and off-grid power generation applications. The primary outcomes should be an innovative, low-cost, and compact technology enabling dynamic operations for energy-efficient hydrogen production, contributing to the overall objectives of the Clean Hydrogen JU SRIA to reduce hydrogen production and transport costs. The scope of this topic is to design, manufacture and demonstrate in an operational environment a system prototype for efficient ammonia cracking for at least 100 kg/day production.

The topic should cover the following elements:

Design, fabrication and testing of a system (also modular) that enables process intensification and improved electrical and thermal integration to produce high-purity hydrogen that is compliant with the application it plans to address;
Novel catalyst and/or reactor design to improve efficiency and manufacturing, including if necessary, integrating novel separation processes to produce dry hydrogen, as well as potentially novel principles of the cracking/reforming process;
Ammonia cracking scale-up and efficient integration for power/heat generation and/or hydrogen utilisation;
Assess the integrity of materials exposed to ammonia with respect to corrosion and mechanical failure;
Design the cracking reactor and Balance of Plant components to ensure flexible operation of the system and for optimising economic energy usage;
Perform a safety assessment of the system and contribute to establishing a robust background and roadmap for standardisation;
Present a demonstration system running for at least 5000 hours and producing ≥100 kg H2/day;
Demonstrate the potential scalability of the developed technology into a plant size of up to 10 tonnes of H2/day, enhancements of the total process efficiency through techno-economic and life-cycle assessment and social analysis of the proposed technology (e.g. Techno-Economic Assessment (TEA), Life Cycle Assessment (LCA), Life-Cycle Cost Assessment (LCCA), Life-Cycle and Sustainability Assessment (LCSA));
Provide a sustainability analysis establishing the impact of CSRM usage and path forward for its potential reduction.

Proposals are encouraged to seek synergies and complement ongoing projects producing renewable ammonia (including within the Innovation Fund^[3]) with a view to demonstrating the production of renewable hydrogen.

Proposals are expected to collaborate with the activites of EURAMET concerning metrology for ammonia^[4] and in particular with the successful project under the the topic “Metrology to support ammonia use in emerging applications” under the European Partnership on Metrology call for proposals 2024^[5].

Potential synergies can be explored with P4P (Partnership for Planet), including envisaging work for ammonia as hydrogen carriers.

Proposals are expected to demonstrate the contribution to EU competitiveness and industrial leadership of the activities to be funded including but not limited to the origin of the equipment and components as well infrastructure purchased and built during the project. These aspects will be evaluated and monitored during the project implementation.

Proposals should provide a preliminary draft on ‘hydrogen safety planning and management’ at the project level, which will be further updated during project implementation.

For additional elements applicable to all topics please refer to section 2.2.3.2.

Activities are expected to start at TRL 5 and achieve TRL 7 by the end of the project - see General Annex B.

At least one partner in the consortium must be a member of either Hydrogen Europe or Hydrogen Europe Research.

The maximum Clean Hydrogen JU contribution that may be requested is EUR 6.00 million – proposals requesting Clean Hydrogen JU contributions above this amount will not be evaluated.

The conditions related to this topic are provided in the chapter 2.2.3.2 of the Clean Hydrogen JU 2025 Annual Work Plan and in the General Annexes to the Horizon Europe Work Programme 2023–2025 which apply mutatis mutandis.

[1] Not including NH3 cost production and transport. H2 output at 30 bar(g) and in compliance with ISO 14687. The TCO includes Energy + Capex+ Operating cost + depreciation.

[2] The recovery rate is calculated from NH3 molecule (liquid form sub cooled) to gaseous hydrogen at 30 bar delivered to a pipeline. The efficiency includes: the NH3 needs to heat up the reactor, the NH3 as feed, all recirculation and purification modules, all utilities associated (in the top of the NH3 for the heater) and GH2 if needed.

[3] https://climate.ec.europa.eu/eu-action/eu-funding-climate-action/innovation-fund/innovation-fund-projects_en

[4] E.g MetroHyVe https://www.euramet.org/european-metrology-networks/energy-gases/activities-impact/projects/project-details/project/metrology-for-hydrogen-vehicles-2 and Met4H2 https://www.euramet.org/european-metrology-networks/energy-gases/activities-impact/projects/project-details/project/metrology-for-the-hydrogen-supply-chain

[5] https://metpart.eu/green-deal-call-2024-s2 and https://metpart.eu/component/edocman/call-2024-srt-v16/download.html?Itemid=0

View on EU Portal →

Eligibility & Conditions

General conditions

1. Admissibility Conditions: Proposal page limit and layout

For all Innovation Actions the page limit of the application is 70 pages.

described in Annex A and Annex E of the Horizon Europe Work Programme General Annexes.

Proposal page limits and layout: described in Part B of the Application Form available in the Submission System.

Page limit for Innovation Actions: For all Innovation Actions the page limit of the applications are 70 pages.

2. Eligible Countries

described in Annex B of the Work Programme General Annexes.

A number of non-EU/non-Associated Countries that are not automatically eligible for funding have made specific provisions for making funding available for their participants in Horizon Europe projects. See the information in the Horizon Europe Programme Guide.

3. Other Eligibility Conditions

The following additional eligibility criteria apply: At least one partner in the consortium must be a member of either Hydrogen Europe or Hydrogen Europe Research.

The maximum Clean Hydrogen JU contribution that may be requested is EUR 6.00 million – proposals requesting Clean Hydrogen JU contributions above this amount will not be evaluated.

described in Annex B of the Work Programme General Annexes.

Additional eligibility condition: Maximum contribution per topic

For some topics, in line with the Clean Hydrogen JU SRIA, an additional eligibility criterion has been introduced to limit the Clean Hydrogen JU requested contribution mostly for actions performed at high TRL level, including demonstration in real operational environment and with important involvement from industrial stakeholders and/or end users such as public authorities. Such actions are expected to leverage co-funding as commitment from stakeholders. It is of added value that such leverage is shown through the private investment in these specific topics. Therefore, proposals requesting contributions above the amounts specified per each topic below will not be evaluated:

- HORIZON-JU-CLEANH2-2025-01-04: The maximum Clean Hydrogen JU contribution that may be requested is EUR 6.00 million

- HORIZON-JU-CLEANH2-2025-01-06: The maximum Clean Hydrogen JU contribution that may be requested is EUR 8.00 million

- HORIZON-JU-CLEANH2-2025-02-03: The maximum Clean Hydrogen JU contribution that may be requested is EUR 6.00 million

- HORIZON-JU-CLEANH2-2025-04-01: The maximum Clean Hydrogen JU contribution that may be requested is EUR 5.00 million

- HORIZON-JU-CLEANH2-2025-06-01: The maximum Clean Hydrogen JU contribution that may be requested is EUR 20.00 million

- HORIZON-JU-CLEANH2-2025-06-02: The maximum Clean Hydrogen JU contribution that may be requested is EUR 9.00 million

Additional eligibility condition: Membership to Hydrogen Europe / Hydrogen Europe Research

For the topics listed below, in line with the Clean Hydrogen JU SRIA, an additional eligibility criterion has been introduced to ensure that one partner in the consortium is a member of either Hydrogen Europe or Hydrogen Europe Research. This concerns topics targeting actions for large-scale demonstrations, flagship projects and strategic research actions, where the industrial and research partners of the Clean Hydrogen JU are considered to play a key role in accelerating the commercialisation of hydrogen technologies by being closely linked to the Clean Hydrogen JU constituency, which could further ensure full alignment with the SRIA of the JU. This approach shall also ensure the continuity of the work performed within projects funded through the H2020 and FP7, by building up on their experience and consolidating the EU value-chain. In the Call 2025 this applies to: demonstration of efficient electrolysis coupling with variable renewable electricity and/or heat integration, demonstration of innovative hydrogen and solid carbon production from renewable gases/biogenic waste processes, demonstration of scalable ammonia cracking technology, and demonstration of stationary fuel cells in renewable energy communities. This will also apply to the Hydrogen Valley (flagship) topics as they are considered of strategic importance for the European Union ambitions to double the number of Hydrogen Valleys by 2025. For the Hydrogen Valleys topics a large amount of co-investment/cofunding of project participants/beneficiaries including national and regional programmes is expected.

- HORIZON-JU-CLEANH2-2025-01-04

- HORIZON-JU-CLEANH2-2025-01-06

- HORIZON-JU-CLEANH2-2025-02-03

- HORIZON-JU-CLEANH2-2025-04-01

- HORIZON-JU-CLEANH2-2025-06-01

- HORIZON-JU-CLEANH2-2025-06-02

4. Financial and operational capacity and exclusion

described in Annex C of the Work Programme General Annexes.

5a. Evaluation and award: Award criteria, scoring and thresholds

are described in Annex D of the Work Programme General Annexes.

5b. Evaluation and award: Submission and evaluation processes

are described in Annex F of the Work Programme General Annexes and the Online Manual.

STEP (Sovereignty) Seal

For the topics below topics the STEP Seal (so called “Sovereignty Seal” under the STEP Regulation) will be awarded to proposals exceeding all of the evaluation thresholds set out in this Annual Work Programme. The STEP Seal is a label, which aims to increase the visibility of quality projects available for funding and help attract alternative and cumulative funding for quality projects, and simultaneously to provide a potential project pipeline for regional and national programmes

- HORIZON-JU-CLEANH2-2025-01-04

- HORIZON-JU-CLEANH2-2025-01-06

- HORIZON-JU-CLEANH2-2025-02-03

- HORIZON-JU-CLEANH2-2025-04-01

- HORIZON-JU-CLEANH2-2025-06-01

- HORIZON-JU-CLEANH2-2025-06-02

5c. Evaluation and award: Indicative timeline for evaluation and grant agreement

described in Annex F of the Work Programme General Annexes.

6. Legal and financial set-up of the grants

Purchases of equipment, infrastructure or other assets used for the action must be declared as depreciation costs. However, for the following equipment, infrastructure or other assets purchased specifically for the action (or developed as part of the action tasks): ammonia cracking system including tis BoP, costs may exceptionally be declared as full capitalised costs.

Eligible costs will take the form of a lump sum as defined in the Decision of 7 July 2021 authorising the use of lump sum contributions under the Horizon Europe Programme – the Framework Programme for Research and Innovation (2021-2027) – and in actions under the Research and Training Programme of the European Atomic Energy Community (2021-2025) [[This decision is available on the Funding and Tenders Portal, in the reference documents section for Horizon Europe, under ‘Simplified costs decisions’ or through this link: https://ec.europa.eu/info/funding-tenders/opportunities/docs/2021-2027/horizon/guidance/ls-decision_he_en.pdf]].

described in Annex G of the Work Programme General Annexes.

In addition to the standard provisions, the following specific provisions in the model grant agreement will apply:

1. Lump Sum

This year’s call for proposals will take the form of lump sums as defined in the Decision of 7 July 2021 authorising the use of lump sum contributions under the Horizon Europe Programme – the Framework Programme for Research and Innovation (2021- 2027) – and in actions under the Research and Training Programme of the European Atomic Energy Community (2021-2025).

Lump sums will be used across all topics in the Call 2025.

2. Full capitalised costs for purchases of equipment, infrastructure or other assets purchased specifically for the action

For some topics, in line with the Clean Hydrogen JU SRIA, mostly large-scale demonstrators or flagship projects specific equipment, infrastructure or other assets purchased specifically for the action (or developed as part of the action tasks) can exceptionally be declared as full capitalised costs. This concerns the topics below:

- HORIZON-JU-CLEANH2-2025-01-04

- HORIZON-JU-CLEANH2-2025-01-06

- HORIZON-JU-CLEANH2-2025-02-03

- HORIZON-JU-CLEANH2-2025-04-01

- HORIZON-JU-CLEANH2-2025-06-01

- HORIZON-JU-CLEANH2-2025-06-02

3. Subcontracting

For all topics: an additional obligation regarding subcontracting has been introduced, namely that subcontracted work may only be performed in target countries set out in the call conditions.

The beneficiaries must ensure that the subcontracted work is performed in the countries set out in the call conditions.

The target countries are all Member States of the European Union and all Associated Countries.

4. Intellectual Property Rights (IPR), background and results, access rights and rights of use (article 16 and Annex 5 of the Model Grant Agreement (MGA))

An additional information obligation has been introduced for topics including standardisation activities: ‘Beneficiaries must, up to 4 years after the end of the action, inform the granting authority if the results could reasonably be expected to contribute to European or international standards’. These concerns the topics below:

- HORIZON-JU-CLEANH2-2025-02-01

Specific conditions

described in the chapter 2.2.3.2 of the Clean Hydrogen JU 2025 Annual Work Programme

Application and evaluation forms and model grant agreement (MGA):

Application form templates

Application form - Part B (HE CleanH2 RIA, IA)

Application form - Part B (HE CleanH2 CSA)

Evaluation form templates

Standard evaluation form (HE RIA, IA)

Standard evaluation form (HE CSA)

Guidance

HE Programme Guide

Model Grant Agreements (MGA)

Lump Sum MGA

Call-specific instructions

Detailed budget table (HE LS)

Clean Hydrogen JU - Annual Work Programme 2025 (AWP 2025)

- AWP 2025

Clean Hydrogen JU - Strategic Research and Innovation Agenda (SRIA)

- SRIA Clean Hydrogen JU

Lump Sums Guidance

- Guidance: "Lump sums - what do I need to know?"

- Comprehensive information on lump sum funding in Horizon Europe

Additional documents:

HE Main Work Programme 2023–2025 – 1. General Introduction

HE Main Work Programme 2023–2025 – 13. General Annexes

HE Programme Guide

HE Framework Programme 2021/695

HE Specific Programme Decision 2021/764

EU Financial Regulation 2024/2509

Rules for Legal Entity Validation, LEAR Appointment and Financial Capacity Assessment

EU Grants AGA — Annotated Model Grant Agreement

Funding & Tenders Portal Online Manual

Funding & Tenders Portal Terms and Conditions

Funding & Tenders Portal Privacy Statement

Support & Resources

Online Manual is your guide on the procedures from proposal submission to managing your grant.

Horizon Europe Programme Guide contains the detailed guidance to the structure, budget and political priorities of Horizon Europe.

Funding & Tenders Portal FAQ – find the answers to most frequently asked questions on submission of proposals, evaluation and grant management.

Research Enquiry Service – ask questions about any aspect of European research in general and the EU Research Framework Programmes in particular.

National Contact Points (NCPs) – get guidance, practical information and assistance on participation in Horizon Europe. There are also NCPs in many non-EU and non-associated countries (‘third-countries’).

Enterprise Europe Network – contact your EEN national contact for advice to businesses with special focus on SMEs. The support includes guidance on the EU research funding.

IT Helpdesk – contact the Funding & Tenders Portal IT helpdesk for questions such as forgotten passwords, access rights and roles, technical aspects of submission of proposals, etc.

European IPR Helpdesk assists you on intellectual property issues.

CEN-CENELEC Research Helpdesk and ETSI Research Helpdesk – the European Standards Organisations advise you how to tackle standardisation in your project proposal.

The European Charter for Researchers and the Code of Conduct for their recruitment – consult the general principles and requirements specifying the roles, responsibilities and entitlements of researchers, employers and funders of researchers.

Partner Search help you find a partner organisation for your proposal.

Latest Updates

Last Changed: August 8, 2025

CALL UPDATE:

An overview of the evaluation results for the call HORIZON-JU-CLEANH2-2025 is now available. More information can be found in this document: FLASH EVALUATION RESULTS

Last Changed: April 24, 2025

CALL UPDATE: PROPOSAL NUMBERS

Call HORIZON-JU-CLEANH2-2025 has closed on the 23/04/2025.

212 proposals have been submitted.

The breakdown per topic is:

RENEWABLE HYDROGEN PRODUCTION

-HORIZON-JU-CLEANH2-2025-01-01: 21 proposals

-HORIZON-JU-CLEANH2-2025-01-02: 10 proposals

-HORIZON-JU-CLEANH2-2025-01-03: 11 proposals

-HORIZON-JU-CLEANH2-2025-01-04: 9 proposals

-HORIZON-JU-CLEANH2-2025-01-05: 8 proposals

-HORIZON-JU-CLEANH2-2025-01-06: 14 proposals

-HORIZON-JU-CLEANH2-2025-01-07: 15 proposals

HYDROGEN STORAGE AND DISTRIBUTION

-HORIZON-JU-CLEANH2-2025-02-01: 9 proposals

-HORIZON-JU-CLEANH2-2025-02-02: 10 proposals

-HORIZON-JU-CLEANH2-2025-02-03: 7 proposals

HYDROGEN END USES: TRANSPORT APPLICATIONS

-HORIZON-JU-CLEANH2-2025-03-01: 9 proposals

-HORIZON-JU-CLEANH2-2025-03-02: 7 proposals

-HORIZON-JU-CLEANH2-2025-03-03: 7 proposals

HYDROGEN END USES: CLEAN HEAT AND POWER

-HORIZON-JU-CLEANH2-2025-04-01: 19 proposals

CROSS-CUTTING

-HORIZON-JU-CLEANH2-2025-05-01: 7 proposals

-HORIZON-JU-CLEANH2-2025-05-02: 8 proposals

-HORIZON-JU-CLEANH2-2025-05-03: 6 proposals

HYDROGEN VALLEYS

-HORIZON-JU-CLEANH2-2025-06-01: 16 proposals

-HORIZON-JU-CLEANH2-2025-06-02: 19 proposals

Evaluation results are expected to be communicated in August 2025.

Last Changed: April 15, 2025

Notice to Applicants (15/04/2025)

Please note that we will no longer be accepting questions regarding the current call for proposals HORIZON-JU-CLEANH2-2025. We appreciate your interest and encourage you to refer to the published documentation for any remaining clarifications.

Last Changed: April 15, 2025

Errata Notice - Topic HORIZON-JU-CLEANH2-2025-01-05

The correct text for topic HORIZON-JU-CLEANH2-2025-01-05 stipulates:

"Furthermore, project results are expected to contribute to the following KPIs, targeted at co-electrolyser scale, specific for three high temperature co-electrolysis technologies: Oxide and Proton conductive Solid Oxide electrolysers (SOEL, PCCEL) and Molten Carbonate Electrolyser (MCE):

Oxide conductive Solid Oxide electrolysers (SOEL)

Power to syngas efficiency: 0.9 kWLHV /kWe
Degradation in operating conditions: 0.8 %/1000h @1A/cm²
Unit cost: 500 €/kW

Proton Conductive Ceramic electrolysers (PCCEL)

Power to syngas efficiency: 0.9 kWLHV/ kWe
Degradation in operating conditions: 0.8 %/1000h @0.75A/cm²
Unit cost: 500 €/kW

Molten Carbonate electrolysers (MCE)

Power to syngas efficiency: 0.93 kWLHV/ kWe
Degradation in operating conditions: 0.5 %/1000h @0.5A/cm²
Unit cost: 500 €/kW

KPIs are defined for the main high temperature co-electrolysis techniques, derived from the SRIA and from results of previous EU funded projects."

Last Changed: April 3, 2025

Errata Notice – Topic Conditions

We appreciate your attention to this information. Please be advised that the Topic Conditions are provided below, as they were not displayed correctly under each topic. These conditions apply to all topics across the entire call.

We kindly ask you to refer to the information below and in the AWP2025 to ensure compliance with the applicable requirements.