Dense metallic membranes for high-density hydrogen production from different feedstocks for PEM fuel cells power generation.

Shehu, Habiba; Orakwe, Ifeyinwa; Abunomah, Ofasa; Ogunlude, Priscilla; Ramalan, Muktar; Williamwest, Tamunotonye; Igbagara, Woyintonye; Ogoun, Evans; Hashim, Idris; Aisueni, Florence; Gobina, Edward

Dense metallic membranes for high-density hydrogen production from different feedstocks for PEM fuel cells power generation.

Shehu, Habiba; Orakwe, Ifeyinwa; Abunomah, Ofasa; Ogunlude, Priscilla; Ramalan, Muktar; Williamwest, Tamunotonye; Igbagara, Woyintonye; Ogoun, Evans; Hashim, Idris; Aisueni, Florence; Gobina, Edward

Authors

Habiba Shehu

Ifeyinwa Orakwe

Ofasa Abunomah

Priscilla Ogunlude

MUKTAR RAMALAN m.ramalan@rgu.ac.uk
Research Student

Tamunotonye Williamwest

WOYINTONYE IGBAGARA w.igbagara@rgu.ac.uk
Research Student

EVANS OGOUN e.ogoun@rgu.ac.uk
Research Student

IDRIS HASHIM i.hashim@rgu.ac.uk
Completed Research Student

FLORENCE AISUENI f.a.aisueni@rgu.ac.uk
Completed Research Student

Edward Gobina

Contributors

Ibrahim Dincer
Editor

Tahir A.H. Ratlamwala
Editor

Khurram Kamal
Editor

Abstract

The International Electrotechnical Commission (IEC), through Technical Committee 105 Fuel Cell Technologies, prepares international standards regarding fuel cell technologies for all fuel types and various associated applications, such as: stationary fuel cell power systems for distributed power generators, and combined heat and power systems; fuel cells for transportation such as propulsion systems, range extenders, auxiliary power units and portable power systems; micro power systems; reverse operating power systems; and general electrochemical flow systems and processes. The aim of this research is to develop a more compact design for hydrogen production from a variety of feedstocks to offer a viable means for the supply of high-density hydrogen for polymer electrolyte membrane fuel cells (PEMFC). Importantly, we will present results demonstrating our world-class expertise in membrane development in hydrogen transport through metallic membranes.

Citation

SHEHU, H., ORAKWE, I., ABUNOMAH, O., OGUNLUDE, P., RAMALAN, M., WILLIAMWEST, T., IGBAGARA, W., OGOUN, E., HASHIM, I., AISUENI, F. and GOBINA, E. 2022. Dense metallic membranes for high-density hydrogen production from different feedstocks for PEM fuel cells power generation. In Dincer, I., Ratlamwala, T.A.H. and Kamal, K. (eds.) Proceedings of the 13th International conference on hydrogen production (ICH2P 2022): hydrogen for a green future, 11-14 December 2022, [virtual event]. Hosted on ICH2P [online], pages 203-205. Available from: http://www.ich2p.org/wp-content/uploads/2023/01/Conference-Proceedings.pdf

Presentation Conference Type	Conference Paper (unpublished)
Conference Name	13th International conference on hydrogen production (ICH2P 2022): hydrogen for a green future
Start Date	Dec 11, 2022
End Date	Dec 14, 2022
Deposit Date	Aug 5, 2024
Publicly Available Date	Aug 5, 2024
Peer Reviewed	Peer Reviewed
Keywords	Hydrogen; Membranes; Polymer electrolyte membranes; Fuel cells
Public URL	https://rgu-repository.worktribe.com/output/1840002
Publisher URL	http://www.ich2p.org/wp-content/uploads/2023/01/Conference-Proceedings.pdf