The diminution of fossil fuel due to substantial consumption has hastened the improvement of the electric vehicle. So, Plug‐in Hybrid Electric Vehicle (PHEV) is widely used for transportation system to lessen the fossil fuel utilization. This is recognized to be the finest short‐term solution to lessen greenhouse gas emission. In PHEV, the Energy Storage System (ESS) plays a key role. Even though some batteries supply both high power and high energy, they may overheat and their lifetime is short. Therefore, various power sources have to be implicated. Ultra‐capacitors, due to extended life cycle and instantaneous high power properties, are a prominent appendage for the energy storage system. An ultra‐capacitor is incorporated in hybrid energy storage system to provide instant high power to the vehicle. In this chapter, battery and ultra‐capacitors are modeled as a hybrid energy storage system of plug‐in hybrid electric vehicle and they have been simulated using MATLAB Simulink. Various cases such as acceleration and deceleration of the vehicle have been discussed and results are analyzed. Simulation result corroborates that peak power demand requisite for the vehicle is delivered by the ultra‐capacitor, thereby the main grid stress is reduced.
Energy Management of Hybrid Energy Storage System in PHEV With Various Driving Mode
2020-07-15
11 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
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