An existing fuel cell hybrid distribution truck, built for demonstration purposes, is used as a case study to investigate the effect of stack (kW) and battery (kW, kWh) sizes on the hydrogen consumption of the vehicle. Three driving cycles, the NEDC for Low Power vehicles, CSC and JE05 cycle, define the driving requirements for the vehicle. The Equivalent Consumption Minimization Strategy (ECMS) is used for determining the control setpoint for the fuel cell and battery system. It closely approximates the global minimum in fuel consumption, set by Dynamic Programming (DP). Using DP the sizing problem can be solved but ECMS can also be implemented real-time. For the considered vehicle and hardware, all three driving cycles result in optimal s...
International audienceThis study aims at highlighting the impact of the sizing of a hybrid multi-sta...
International audienceThis paper presents a new Fuel Cell Fuel Consumption Minimization Strategy (FC...
The automotive industry is facing the challenge to realize the turn over to a climate-neutral mobili...
An existing fuel cell hybrid distribution truck, built for demonstration purposes, is used as a case...
An existing fuel cell hybrid distribution truck, built for demonstration purposes, is used as a case...
Hybrid vehicles are now more common in response to increasing global warming. The hybridization of e...
Hydrogen consumption is an important performance indicator of fuel cell hybrid vehicles (FCHVs). Pre...
The design of the optimal power distribution system (PDS or powertrain) for fuel cell-based vehicles...
The objective of an energy management strategy for fuel cell hybrid propulsion systems is to minimiz...
To decarbonize heavy-duty vehicles solely through electrification with batteries is challenging as l...
International audienceThis paper deals with the sizing and control of a fuel cell based hybrid power...
The fuel cell based vehicles powertrain is an extensive system that comprises a fuel cell (FC) as th...
The size of the fuel cell and battery of a Fuel Cell Hybrid Electric Vehicle (FCHEV) will heavily af...
Currently, battery electric vehicles are the most popular EV commercially available. However, there ...
International audienceThis study aims at highlighting the impact of the sizing of a hybrid multi-sta...
International audienceThis paper presents a new Fuel Cell Fuel Consumption Minimization Strategy (FC...
The automotive industry is facing the challenge to realize the turn over to a climate-neutral mobili...
An existing fuel cell hybrid distribution truck, built for demonstration purposes, is used as a case...
An existing fuel cell hybrid distribution truck, built for demonstration purposes, is used as a case...
Hybrid vehicles are now more common in response to increasing global warming. The hybridization of e...
Hydrogen consumption is an important performance indicator of fuel cell hybrid vehicles (FCHVs). Pre...
The design of the optimal power distribution system (PDS or powertrain) for fuel cell-based vehicles...
The objective of an energy management strategy for fuel cell hybrid propulsion systems is to minimiz...
To decarbonize heavy-duty vehicles solely through electrification with batteries is challenging as l...
International audienceThis paper deals with the sizing and control of a fuel cell based hybrid power...
The fuel cell based vehicles powertrain is an extensive system that comprises a fuel cell (FC) as th...
The size of the fuel cell and battery of a Fuel Cell Hybrid Electric Vehicle (FCHEV) will heavily af...
Currently, battery electric vehicles are the most popular EV commercially available. However, there ...
International audienceThis study aims at highlighting the impact of the sizing of a hybrid multi-sta...
International audienceThis paper presents a new Fuel Cell Fuel Consumption Minimization Strategy (FC...
The automotive industry is facing the challenge to realize the turn over to a climate-neutral mobili...