Heat transfer in an electric car’s battery pack modeled in Q-Bat

⬇️ Please use this link instead of the download button: Download link ⬇️

Run battery_pack_96S1P.m and electric_car_livescript.mlx to get started

Please visit the Q-Bat and QuickerSim page to learn more about modeling heat transfer in 3-D systems.

This repository shows how to model heat transfer in an electric car’s battery pack in Q-Bat from QuickerSim. The model consists 96 lithium prismatic cells (96s1p), terminals, connectors, holders, casing and cooling plates and is connected to a reduced-order model (ROM) to model heat transfer in 3D geometry. Two cooling plates are used to maintain the optimum temperature range in the battery packs.

In this example, it is shown how to check for a mesh independent solution. Three meshes with the different numbers of elements are prepared and used in simulation to compare the results.

Name		Name	Last commit message	Last commit date
Latest commit History 9 Commits
data		data
images		images
msh		msh
msh_coarse		msh_coarse
msh_finer		msh_finer
src		src
Electric_car_use-case.pdf		Electric_car_use-case.pdf
README.md		README.md
electric_car_livescript.mlx		electric_car_livescript.mlx

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Heat transfer in an electric car’s battery pack modeled in Q-Bat

⬇️ Please use this link instead of the download button: Download link ⬇️

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Heat transfer in an electric car’s battery pack modeled in Q-Bat

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