Ammonia and MOF Based Hydrogen storagE for euRope - AMBHER

Find Similar History 12 Claim Ownership Request Data Change Add Favourite

Title
Ammonia and MOF Based Hydrogen storagE for euRope - AMBHER

CoPED ID
3469f9d3-c033-463a-805d-f47e9bfe0abf

Status
Active


Value
£1,484,235

Start Date
May 31, 2022

End Date
May 31, 2026

Description

More Like This


AMBHER (Ammonia and MOF based Hydrogen for Europe) is a European project providing a holistic approach to tackle the short and long term energy storage challenges raised by the high degree of electrification our society is aiming for. Firstly, AMBHER is addressing the main societal, economic and technological questions coming together with the use of green ammonia as seasonal renewable energy storage. Simultaneously, AMBHER is developing and demonstrating innovative and cheaper compressed hydrogen storage potentially solving the gap toward local and economically relevant power-to-hydrogen hub. AMBHER will thus increase the number of applications in the energy and transport sectors and the possibilities for success and industrial adoption by key players. For short-term hydrogen storage, novel nanoporous MOFs (Metal Organic Frameworks) of high surface area (>2.500 m2/g) and low cost synthesis will be developed following an original shaping process (3D printing). Furthermore, AMBHER will develop a conformable cryo-vessel that can accommodate stacks of MOF bodies of tailored-made shape. A capacity of 40g/L of usable space at 100 bar is achieved at competitive cost with respect to current high pressure cylinders (600-1.000 euros/kg H2). For long-term storage, advanced materials (both catalysts and membranes) and their combination in an intensified 3D-printed intensified periodic open cell structured reactor will be developed to allow hydrogen storage in the form of ammonia (NH3) in a cost-efficient and resource-effective process at lower temperatures and pressures compared to conventional systems. AMBHER project is validating both short-term and long term solutions at TRL 5 addressing the positioning of the solutions developed in relevant business cases. The project is built around 16 industry and academic leaders in Europe, from 7 different countries. Track record of AMBHER partners proves the synergies and fruitful collaborative nature among all members.

JOHNSON MATTHEY PLC LEAD_ORG
JOHNSON MATTHEY PLC PARTICIPANT_ORG

Subjects by relevance
  1. Hydrogen
  2. Warehousing
  3. Renewable energy sources
  4. Projects
  5. Europe
  6. Enterprises
  7. Energy technology
  8. Development (active)

Extracted key phrases
  1. MOF Based Hydrogen storagE
  2. Long term energy storage challenge
  3. AMBHER project
  4. Term hydrogen storage
  5. AMBHER partner
  6. Ammonia
  7. Cheap compressed hydrogen storage
  8. Seasonal renewable energy storage
  9. Term storage
  10. Long term solution
  11. MOF body
  12. Current high pressure cylinder
  13. Low cost synthesis
  14. European project
  15. Hydrogen hub

Related Pages

UKRI project entry

UK Project Locations