Battery 1P1S, Paper Numerical Validation, ANSYS Fluent
$180.00 $72.00 HPC
- This product numerically simulates a single Battery cell using ANSYS Fluent software.
- We design the 3-D model with the Design Modeler software.
- We mesh the model with ANSYS Meshing software.
- We use the Battery Model to define the discharge process of a battery.
- We use the Multi-Scale Multi-Domain (MSMD) solution method and the NTGK electrochemistry model.
- The present CFD work is Validated with a reference Article.
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Description
Description
In this project, we perform the CFD simulation of a “Battery cell” in ANSYS Fluent software.
We present this CFD product based on the simulation of a reference article, “Thermal analysis of phase change material encapsulated Li-ion battery pack using multi-scale multi-dimensional framework.” So, we compare the results of the present work with the reference article to validate the paper.
According to the reference paper, we implement paper validation in Three steps. In other words, we analyze the performance of the battery system in 3 different cases:
- 1st part: a single battery
- 2nd part: a single battery with PCM cover
- 3rd part: a battery pack
The present product is related to the First case of the battery system simulation: “a single Battery cell”. So, we analyze a pouch-type Li-ion battery, represented as “1P1S”.
Methodology
First, we model the computational domain geometry using “Design Modeler” software. So, we design a vertical pouch battery that consists of an active cell with positive and negative tabs.
Next, we mesh the model using “Ansys Meshing” software, and 166,502 elements are generated.
Finally, we simulate the present battery system using the “Battery Model” in Ansys Fluent software.
So, we use the Multi-Scale Multi-Domain (MSMD) solution method. The MSMD is a comprehensive method for modeling lithium-ion batteries, because it involves a multi-scale and multi-physical nature.
Then, we use the NTGK (Newman, Tiedemann, Gu, and Kim) electrochemistry sub-model. The NTGK model is a semi-empirical method for electrochemical computations.
We intend to analyze the battery discharge process at a 5 C-rate. The C-rate is the charging/discharging current to the battery’s nominal capacity. We set up battery modeling information according to the reference article, including materials, boundary conditions, battery parameters, etc.
Since the charging/discharging process in the battery system occurs over time, we run the calculation in an unsteady state (transient).
Conclusion
For the post-processing, we analyze the present battery system for approximately 13 min.
We obtain contours of the temperature distribution and the potential field distribution at the last time. According to the results, the cell voltage drops below the minimum voltage required to stop discharging. In addition, the temperature distribution shows that significant heat is generated due to electrochemical reactions occurring within the battery cell.
Finally, we compare the present results with the paper to achieve paper validation. Therefore, we present the cell voltage (potential) with respect to battery capacity.
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