Energy management analysis and design for a 5 kW PEMFC distributed power system

Abstract: The proton exchange membranes fuel cell (PEMFC) is known as a slow dynamic response application. The transient load power may bring damage to the stack and shorten lifetime of the fuel cell. In this paper, an energy management design, which consists of a bi-DC/DC converter and super capacitor, is introduced to compensate the slow dynamic response of the PEMFC power source. The energy management principle is analyzed. The controller and the filter design based on these analyses are given. The capacity of the au… Show more

“…Thus, a dynamic change in load is accompanied by a transition process from one stationary state to another. During this process, the PEMFC may suffer from partial overheating or excess air pressure, which will shorten the service life and lead to membrane degradation [25].…”

Investigation of PEM Fuel Cell Characteristics in Steady and Dynamic Operation Modes

“…Thus, a dynamic change in load is accompanied by a transition process from one stationary state to another. During this process, the PEMFC may suffer from partial overheating or excess air pressure, which will shorten the service life and lead to membrane degradation [25].…”

Investigation of PEM Fuel Cell Characteristics in Steady and Dynamic Operation Modes

Investigation to power conversion topology for fuel cell power generation system

Fuel cell UPS system without bulky DC electrolytic capacitors