Despite the advantages of flywheel energy storage, including low cost, a long life-cycle, and high reliability, the flywheel hybrid vehicle (FHV) has not yet been mass-produced because it usually uses two transmissions, one for the engine and the other for the flywheel, which leads to cost, packaging, and complexity concerns. In this paper, a novel power-split flywheel hybrid powertrain (PS-FHV) that uses only one transmission is proposed to mitigate these issues. The proposed PS-FHV includes one continuously variable transmission (CVT) and three planetary gear-sets integrated with a flywheel, to provide full hybrid functionality at any speed, which leads to high fuel economy and fast acceleration performance. To prove and verify the PS-FHV...
The purpose of this study is to analyze and to design for the hybrid power systems with variable ine...
Battery electric vehicles are crucial for moving towards a zero emission transport system. Though ba...
In this paper, various alternative hybrid vehicle powertrains that are being considered by auto comp...
The last couple of decades have seen the rise of the hybrid electric vehicle as a compromise between...
The last couple of decades have seen the rise of the hybrid electric vehicle as a compromise between...
Flywheels have the possibility of providing high turnaround efficiency and high specific power outpu...
Mechanical hybrid powertrains have the potential to improve the fuel economy of passenger vehicles a...
This paper presents a new design of a low-cost mechanical-hybrid powertrain with large fuel savings....
Hybrid vehicles of different configurations and utilizing different energy storage systems have exis...
This paper presents the modeling and design of an optimal Energy Management Strategy (EMS) for a fly...
Abstract — This paper presents the modeling and design of an optimal Energy Management Strategy (EMS...
This paper presents a new design of a low-cost hybrid powertrain with large fuel savings. The hybrid...
This paper presents a systematic design methodology for split hybrid vehicles using a single planeta...
In hybrid electric vehicles with power-split configurations, the engine can be decoupled from the wh...
The purpose of this study is to analyze and to design for the hybrid power systems with variable ine...
Battery electric vehicles are crucial for moving towards a zero emission transport system. Though ba...
In this paper, various alternative hybrid vehicle powertrains that are being considered by auto comp...
The last couple of decades have seen the rise of the hybrid electric vehicle as a compromise between...
The last couple of decades have seen the rise of the hybrid electric vehicle as a compromise between...
Flywheels have the possibility of providing high turnaround efficiency and high specific power outpu...
Mechanical hybrid powertrains have the potential to improve the fuel economy of passenger vehicles a...
This paper presents a new design of a low-cost mechanical-hybrid powertrain with large fuel savings....
Hybrid vehicles of different configurations and utilizing different energy storage systems have exis...
This paper presents the modeling and design of an optimal Energy Management Strategy (EMS) for a fly...
Abstract — This paper presents the modeling and design of an optimal Energy Management Strategy (EMS...
This paper presents a new design of a low-cost hybrid powertrain with large fuel savings. The hybrid...
This paper presents a systematic design methodology for split hybrid vehicles using a single planeta...
In hybrid electric vehicles with power-split configurations, the engine can be decoupled from the wh...
The purpose of this study is to analyze and to design for the hybrid power systems with variable ine...
Battery electric vehicles are crucial for moving towards a zero emission transport system. Though ba...
In this paper, various alternative hybrid vehicle powertrains that are being considered by auto comp...