The concept of the passive hybrid system is to develop a single-stage power conversion topology in which fuel cell and supercapacitor can be directly coupled, leading to low cost and compactness in the absence of DC/DC converters. The paper deals with the modelling and simulation of such a vehicle system. The powertrain component losses are modelled with a high level of detail, and they are functions of speed, torque and DC-link voltage. Different drive cycles divided into a low, middle, and high-speed category are used to evaluate the performance of the powertrain system. The wheel energy per distance and powertrain efficiency differs between the drive cycles due to the different speed and acceleration levels. Furthermore, the acceleration...
The automotive industry is facing the challenge to realize the turn over to a climate-neutral mobili...
Environmental concerns such as global warming and air pollution have increased mainly due to the hig...
This paper compares three optimal hybrid energy system configurations, namely full-active, semi-acti...
The electric vehicle with passive hybridization of fuel cells and supercapacitors leads to lower cos...
This paper presents the utilization of a supercapacitor (SC) as an auxiliary power source in an elec...
The powertrain simulations of electric, hybrid, and fuel cell hybrid vehicles for the determination ...
In order to meet the 2050 targets of an 80% reduction in greenhouse gas emissions, electrification o...
The fuel cell powered vehicle is one of the most attractive candidates for the future due to its hig...
Growing environmental concerns have led to a huge interest in renewable energy sources. Fuel cells h...
The fuel cell/supercapacitor passive configuration without using any DC/DC converters is promising i...
The paper focuses on the simulation of a hybrid vehicle with proton exchange membrane fuel cell as t...
The traditional method of assessing the performance of a hybrid electric power-train is to construct...
Hybrid electric propulsion systems are interesting solutions to increase the energy efficiency of th...
For electric vehicular propulsion the generation of electricity can be made using systems based on ...
Fuel cell (FC) hybrid vehicle powertrains are an attractive technology especially for automotive app...
The automotive industry is facing the challenge to realize the turn over to a climate-neutral mobili...
Environmental concerns such as global warming and air pollution have increased mainly due to the hig...
This paper compares three optimal hybrid energy system configurations, namely full-active, semi-acti...
The electric vehicle with passive hybridization of fuel cells and supercapacitors leads to lower cos...
This paper presents the utilization of a supercapacitor (SC) as an auxiliary power source in an elec...
The powertrain simulations of electric, hybrid, and fuel cell hybrid vehicles for the determination ...
In order to meet the 2050 targets of an 80% reduction in greenhouse gas emissions, electrification o...
The fuel cell powered vehicle is one of the most attractive candidates for the future due to its hig...
Growing environmental concerns have led to a huge interest in renewable energy sources. Fuel cells h...
The fuel cell/supercapacitor passive configuration without using any DC/DC converters is promising i...
The paper focuses on the simulation of a hybrid vehicle with proton exchange membrane fuel cell as t...
The traditional method of assessing the performance of a hybrid electric power-train is to construct...
Hybrid electric propulsion systems are interesting solutions to increase the energy efficiency of th...
For electric vehicular propulsion the generation of electricity can be made using systems based on ...
Fuel cell (FC) hybrid vehicle powertrains are an attractive technology especially for automotive app...
The automotive industry is facing the challenge to realize the turn over to a climate-neutral mobili...
Environmental concerns such as global warming and air pollution have increased mainly due to the hig...
This paper compares three optimal hybrid energy system configurations, namely full-active, semi-acti...