This paper reports on an experimental investigation of a passive thermal coupling arrangement between a Proton Exchange Membrane (PEM) fuel cell and a Metal Hydride (MH) hydrogen storage canister using heat pipes for enhancing the release rate of hydrogen. The performance of this arrangement was measured by inserting the evaporator sections of the heat pipes into an aluminum plate mimicking one out of five cooling plates of a 500-W fuel cell (that is a 100 W section of the stack). Thermal pads were attached on both sides of the plate to represent the fuel cell heat to be supplied to a 660-sl MH canister. The results showed that the operating temperature of the fuel cell can be maintained in the desired range of 60-80 °C. A complementary exp...
International audienceThis paper presents a hydrogen storage system using metal hydrides for a Combi...
International audienceThis paper presents a hydrogen storage system using metal hydrides for a combi...
The successful and fast start-up of proton exchange membrane fuel cells (PEMFCs) at subfreezing temp...
This paper reports on an experimental investigation of a passive thermal coupling arrangement betwee...
Low hydrogen discharge rate of Metal Hydride (MH) hydrogen canisters is a common challenge for this ...
This paper presents a mathematical model to study opportunities for simultaneous passive thermal man...
In this paper, the hydrogen supply to an open-cathode PEM fuel cell (FC) by using metal hydride (MH)...
International audienceHydrogen has been identified as one of the main axes of the energy transition....
Prasad, Ajay K.Advani, Suresh G.Metal hydrides can store hydrogen at high volumetric efficiencies. A...
International audienceBeing produced from renewable energy, hydrogen is one of the most efficient en...
International audienceA fuel cell power system integrating proton-exchange-membrane fuel cell (PEMFC...
The performance of a hydrogen storage prototype loaded with AB5H6 hydride, whose equilibrium pressur...
International audienceThis paper presents a thermal coupling topology of a proton exchange membrane ...
Chemical processes offer untapped potential to increase overall system efficiencies by synergizing r...
Hydrogen is one of the energy carriers that has started to play a significant role in the clean ener...
International audienceThis paper presents a hydrogen storage system using metal hydrides for a Combi...
International audienceThis paper presents a hydrogen storage system using metal hydrides for a combi...
The successful and fast start-up of proton exchange membrane fuel cells (PEMFCs) at subfreezing temp...
This paper reports on an experimental investigation of a passive thermal coupling arrangement betwee...
Low hydrogen discharge rate of Metal Hydride (MH) hydrogen canisters is a common challenge for this ...
This paper presents a mathematical model to study opportunities for simultaneous passive thermal man...
In this paper, the hydrogen supply to an open-cathode PEM fuel cell (FC) by using metal hydride (MH)...
International audienceHydrogen has been identified as one of the main axes of the energy transition....
Prasad, Ajay K.Advani, Suresh G.Metal hydrides can store hydrogen at high volumetric efficiencies. A...
International audienceBeing produced from renewable energy, hydrogen is one of the most efficient en...
International audienceA fuel cell power system integrating proton-exchange-membrane fuel cell (PEMFC...
The performance of a hydrogen storage prototype loaded with AB5H6 hydride, whose equilibrium pressur...
International audienceThis paper presents a thermal coupling topology of a proton exchange membrane ...
Chemical processes offer untapped potential to increase overall system efficiencies by synergizing r...
Hydrogen is one of the energy carriers that has started to play a significant role in the clean ener...
International audienceThis paper presents a hydrogen storage system using metal hydrides for a Combi...
International audienceThis paper presents a hydrogen storage system using metal hydrides for a combi...
The successful and fast start-up of proton exchange membrane fuel cells (PEMFCs) at subfreezing temp...