Novel trends in proton exchange membrane fuel cells

Abdul Ghani Olabi; Tabbi Wilberforce; Abdulrahman Alanazi; Parag Vichare; Enas Taha Sayed; Hussein M. Maghrabie; Khaled Elsaid; Mohammad Ali Abdelkareem

doi:10.3390/en15144949

Novel trends in proton exchange membrane fuel cells

Abdul Ghani Olabi^*, Tabbi Wilberforce^*, Abdulrahman Alanazi, Parag Vichare, Enas Taha Sayed, Hussein M. Maghrabie, Khaled Elsaid, Mohammad Ali Abdelkareem^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

18 Citations (Scopus)

127 Downloads (Pure)

Abstract

Fuel cells (FCs) have received huge attention for development from lab and pilot scales to full commercial scale. This is mainly due to their inherent advantage of direct conversion of chemical energy to electrical energy as a high-quality energy supply and, hence, higher conversion efficiency. Additionally, FCs have been produced at a wide range of capacities with high flexibility due to modularity characteristics. Using the right materials and efficient manufacturing processes is directly proportional to the total production cost. This work explored the different components of proton exchange membrane fuel cells (PEMFCs) and their manufacturing processes. The challenges associated with these manufacturing processes were critically analyzed, and possible mitigation strategies were proposed. The PEMFC is a relatively new and developing technology so there is a need for a thorough analysis to comprehend the current state of fuel cell operational characteristics and discover new areas for development. It is hoped that the view discussed in this paper will be a means for improved fuel cell development.

Original language	English
Article number	4949
Number of pages	35
Journal	Energies
Volume	15
Issue number	14
DOIs	https://doi.org/10.3390/en15144949
Publication status	Published - 6 Jul 2022

Keywords

clean energy
fuel cells’ materials
gas diffusion layer (GDL)
hydrogen energy
manufacturing
metallic bipolar plate
PEMFC

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3390/en15144949Licence: CC BY 4.0

2022 06 22 Olabi et al Novel finalFinal published version, 5.34 MBLicence: CC BY 4.0

Cite this

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title = "Novel trends in proton exchange membrane fuel cells",

abstract = "Fuel cells (FCs) have received huge attention for development from lab and pilot scales to full commercial scale. This is mainly due to their inherent advantage of direct conversion of chemical energy to electrical energy as a high-quality energy supply and, hence, higher conversion efficiency. Additionally, FCs have been produced at a wide range of capacities with high flexibility due to modularity characteristics. Using the right materials and efficient manufacturing processes is directly proportional to the total production cost. This work explored the different components of proton exchange membrane fuel cells (PEMFCs) and their manufacturing processes. The challenges associated with these manufacturing processes were critically analyzed, and possible mitigation strategies were proposed. The PEMFC is a relatively new and developing technology so there is a need for a thorough analysis to comprehend the current state of fuel cell operational characteristics and discover new areas for development. It is hoped that the view discussed in this paper will be a means for improved fuel cell development.",

keywords = "clean energy, fuel cells{\textquoteright} materials, gas diffusion layer (GDL), hydrogen energy, manufacturing, metallic bipolar plate, PEMFC",

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AU - Olabi, Abdul Ghani

AU - Wilberforce, Tabbi

AU - Alanazi, Abdulrahman

AU - Vichare, Parag

AU - Sayed, Enas Taha

AU - Maghrabie, Hussein M.

AU - Elsaid, Khaled

AU - Abdelkareem, Mohammad Ali

PY - 2022/7/6

Y1 - 2022/7/6

N2 - Fuel cells (FCs) have received huge attention for development from lab and pilot scales to full commercial scale. This is mainly due to their inherent advantage of direct conversion of chemical energy to electrical energy as a high-quality energy supply and, hence, higher conversion efficiency. Additionally, FCs have been produced at a wide range of capacities with high flexibility due to modularity characteristics. Using the right materials and efficient manufacturing processes is directly proportional to the total production cost. This work explored the different components of proton exchange membrane fuel cells (PEMFCs) and their manufacturing processes. The challenges associated with these manufacturing processes were critically analyzed, and possible mitigation strategies were proposed. The PEMFC is a relatively new and developing technology so there is a need for a thorough analysis to comprehend the current state of fuel cell operational characteristics and discover new areas for development. It is hoped that the view discussed in this paper will be a means for improved fuel cell development.

AB - Fuel cells (FCs) have received huge attention for development from lab and pilot scales to full commercial scale. This is mainly due to their inherent advantage of direct conversion of chemical energy to electrical energy as a high-quality energy supply and, hence, higher conversion efficiency. Additionally, FCs have been produced at a wide range of capacities with high flexibility due to modularity characteristics. Using the right materials and efficient manufacturing processes is directly proportional to the total production cost. This work explored the different components of proton exchange membrane fuel cells (PEMFCs) and their manufacturing processes. The challenges associated with these manufacturing processes were critically analyzed, and possible mitigation strategies were proposed. The PEMFC is a relatively new and developing technology so there is a need for a thorough analysis to comprehend the current state of fuel cell operational characteristics and discover new areas for development. It is hoped that the view discussed in this paper will be a means for improved fuel cell development.

KW - clean energy

KW - fuel cells’ materials

KW - gas diffusion layer (GDL)

KW - hydrogen energy

KW - manufacturing

KW - metallic bipolar plate

KW - PEMFC

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DO - 10.3390/en15144949

M3 - Review article

AN - SCOPUS:85134049833

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VL - 15

JO - Energies

JF - Energies

IS - 14

M1 - 4949

ER -

Novel trends in proton exchange membrane fuel cells

Abstract

Keywords

UN SDGs

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