We demonstrate that the power output from a PEM fuel cell can be directly regulated by limiting the hydrogen feed to the fuel cell. Regulation is accomplished by varying the internal resistance of the membrane–electrode assembly in a self-draining fuel cell with the effluents connected to water reservoirs. The fuel cell functionally operates as a dead-end design where no gas flows out of the cell and water is permitted to flow in and out of the gas flow channel. The variable water level in the flow channel regulates the internal resistance of the fuel cell. The hydrogen and oxygen (or air) feeds are set directly to stoichiometrically match the current, which then control the water level internal to the fuel cell. Standard PID feedback contr...
A robust control strategy which ensures optimum performance is crucial to proton exchange membrane (...
This paper presents the modelling and real time implementation of PEM (polymer electrolyte membrane)...
A metal hydride (MH) hydrogen storage can be charged directly using a proton exchange membrane (PEM)...
Polymer electrolyte membrane fuel cells (PEMFCs) are a type of fuel cell that converts the chemical ...
Abstract: A fully-integrated, self-regulated micro fuel cell (FC) system is reported to power implan...
This thesis deals with control of fuel cells, focusing on high-temperature proton-exchange-membrane ...
Efficient operation results from a proper control strategy. In the operation and performance of a Pr...
Gas and water management are key to achieving good performance from a PEM fuel cell stack. Previous ...
Prolonging membrane longevity as well as improving fuel economy are essential steps toward utilizati...
AbstractThe Proton Exchange Membrane Fuel Cell (PEMFC) has been a focus in many fuel cell studies fo...
Start-up and dynamic responses to changes in load are reported for a dry feed, autohumidified polyme...
Proton Exchange Membrane (PEM) fuel cell is a device that converts electrochemical energy to electri...
Proton Exchange Membrane (PEM) fuel cells are extensively used for mobile and portable applications....
Several methods to prevent fuel starvation in solid oxide fuel cells are developed and investigated....
Abstract—In this paper, the pressure difference between the anode and cathode compartments of a poly...
A robust control strategy which ensures optimum performance is crucial to proton exchange membrane (...
This paper presents the modelling and real time implementation of PEM (polymer electrolyte membrane)...
A metal hydride (MH) hydrogen storage can be charged directly using a proton exchange membrane (PEM)...
Polymer electrolyte membrane fuel cells (PEMFCs) are a type of fuel cell that converts the chemical ...
Abstract: A fully-integrated, self-regulated micro fuel cell (FC) system is reported to power implan...
This thesis deals with control of fuel cells, focusing on high-temperature proton-exchange-membrane ...
Efficient operation results from a proper control strategy. In the operation and performance of a Pr...
Gas and water management are key to achieving good performance from a PEM fuel cell stack. Previous ...
Prolonging membrane longevity as well as improving fuel economy are essential steps toward utilizati...
AbstractThe Proton Exchange Membrane Fuel Cell (PEMFC) has been a focus in many fuel cell studies fo...
Start-up and dynamic responses to changes in load are reported for a dry feed, autohumidified polyme...
Proton Exchange Membrane (PEM) fuel cell is a device that converts electrochemical energy to electri...
Proton Exchange Membrane (PEM) fuel cells are extensively used for mobile and portable applications....
Several methods to prevent fuel starvation in solid oxide fuel cells are developed and investigated....
Abstract—In this paper, the pressure difference between the anode and cathode compartments of a poly...
A robust control strategy which ensures optimum performance is crucial to proton exchange membrane (...
This paper presents the modelling and real time implementation of PEM (polymer electrolyte membrane)...
A metal hydride (MH) hydrogen storage can be charged directly using a proton exchange membrane (PEM)...