Publication Type : Journal Article
Source : Energy Storage
Campus : Amritapuri
School : School of Engineering
Year : 2024
Abstract : Lithium-ion cell chemistries are favored in the automotive sector, as they enable electric vehicles (EVs) to compete with traditional gasoline-powered vehicles in terms of performance, range, and cost. The life and performance of these packs depend upon the Battery management system which monitors and controls the pack. The modeling, simulation, and analysis of a lithium-ion battery pack that closely resembles an actual automobile battery are the focus of this paper. Real cells that are commercially available and specifically developed for automotive applications are modeled in the simulation environment. The cell characterization and formation of pack topology with heat exchange are addressed. A commercial electric car's power train model and EV dynamics are used in the simulation environment to test the modeled battery pack over various drive cycles. The performance analysis is upscaled by considering different aspects like resistive forces while driving, ambient temperature, initial conditions while the vehicle starts, etc. The battery manufacturer can verify the battery's performance under different load conditions, with a high degree of similarity to real-world scenarios. The simulations are conducted on MATLAB/Simulink 2021b software.
Cite this Research Publication : Harikrishnan, Mannilputhiyaveedu RadhakrishnaPillai , Kanakasabapathy, Ponnusamy, Modeling and performance analysis of a lithium-ion battery pack with an electric vehicle power-train for different drive cycles and highway conditions., Energy Storage