Add to ORKGBipolar Plate design is one of the most active research fields in Polymer Electrolyte Membrane Fuel Cells (PEMFCs) development. Bipolar Plates are key components for ensuring an appropriate water management within the cell, preventing flooding and enhancing the cell operation at high current densities. This work presents a literature review covering bipolar plate designs based on nature or biological structures such as fractals, leaves or lungs. Biological inspiration comes from the fact that fluid distribution systems found in plants and animals such as leaves, blood vessels, or lungs perform their functions (mostly the same functions that are required for bipolar plates) with a remarkable efficiency, after millions of years of natural evo...
The flow channel design of bipolar plates plays a significant role in the proton exchange membrane f...
Although water is fed controllably into the flow channels in the bipolar plates surrounding the memb...
The research undertaken in this thesis is concerned with the design and development of Proton Exchan...
The flow field of a bipolar plate distributes hydrogen and oxygen for polymer electrolyte membrane (...
The flow field of a bipolar plate distributes reactants for polymer electrolyte membrane (PEM) fuel ...
Fuel cells have received an increasing amount of attention over the past decade for their power prod...
AbstractThe branching structure such as tree leaves, animal lungs and so on is universal and unique ...
In this thesis biomimetic design is applied to the redesign of a PEM fuel cell flow field. A number...
Flow field designs for the bipolar plates of the proton exchange membrane fuel cell are reviewed; in...
Bipolar plates (BPs) are one of the most important components in Proton Exchange Membrane Fuel Cells...
This work is part of a project whose final aim is the realization of an auxiliary power fuel cell g...
The performance of Polymer Electrolyte Membrane Fuel Cells (PEMFCs) is significantly impacted by flo...
Bio-inspired design, fabrication and testing of bipolar plates for PEM fuel cell
A generalized model developed by Wang was modified for flow field designs of the most common layout ...
Performance of proton exchange membrane (PEM) fuel cells is dependent of a set of complex physical a...
The flow channel design of bipolar plates plays a significant role in the proton exchange membrane f...
Although water is fed controllably into the flow channels in the bipolar plates surrounding the memb...
The research undertaken in this thesis is concerned with the design and development of Proton Exchan...
The flow field of a bipolar plate distributes hydrogen and oxygen for polymer electrolyte membrane (...
The flow field of a bipolar plate distributes reactants for polymer electrolyte membrane (PEM) fuel ...
Fuel cells have received an increasing amount of attention over the past decade for their power prod...
AbstractThe branching structure such as tree leaves, animal lungs and so on is universal and unique ...
In this thesis biomimetic design is applied to the redesign of a PEM fuel cell flow field. A number...
Flow field designs for the bipolar plates of the proton exchange membrane fuel cell are reviewed; in...
Bipolar plates (BPs) are one of the most important components in Proton Exchange Membrane Fuel Cells...
This work is part of a project whose final aim is the realization of an auxiliary power fuel cell g...
The performance of Polymer Electrolyte Membrane Fuel Cells (PEMFCs) is significantly impacted by flo...
Bio-inspired design, fabrication and testing of bipolar plates for PEM fuel cell
A generalized model developed by Wang was modified for flow field designs of the most common layout ...
Performance of proton exchange membrane (PEM) fuel cells is dependent of a set of complex physical a...
The flow channel design of bipolar plates plays a significant role in the proton exchange membrane f...
Although water is fed controllably into the flow channels in the bipolar plates surrounding the memb...
The research undertaken in this thesis is concerned with the design and development of Proton Exchan...