Subject 2 – Battery Pack Design & Simulation (CDP Powertrain)

Introduction to Cells

1
History of Battery
00:14:44
2
Types of energy storage system
00:22:16
3
Why Li-Ion Cells
00:10:23
4
Lithium Cells Working
00:09:13
5
Battery Terminologies
00:20:41
6
Lithium Chemistry
00:32:07
7
Cell Types – Form Factors
00:16:32
8
Lithium Cell Materials
00:16:21
9
Lithium Cell Failures
00:11:43

Equivalent Cell Model

1
OCV and SOC of Cell
00:39:05
2
Linear Polarization
00:52:02
3
Finding RC Values
00:10:39
4
Hysteresis Voltage
00:28:32
5
Enhanced Self Correcting Model
00:11:12
6
Cell Testing and Coulombic Efficiency
00:43:36
7
Temperature and OCV
00:34:27
8
Dynamic Testing
00:33:35
9
Model Simulation
00:41:13

Physics Based Model

1
Physics Based Modeling – Intro
00:09:02
2
Charge Continuity
00:41:02
3
Mass Continuity Eqn
00:48:31
4
Thermal Energy and Potential
00:20:27
5
Thermodynamics Law and Gibbs Free Energy
00:38:34
6
ElectroChemical Potential
00:26:01
7
Absolute Activity
00:18:06
8
Binary Elctrolyte Behaviour
00:19:42
9
Elecrolyte Mass Continuation Eqn Pt1
00:48:42
10
Elecrolyte Mass Continuation Eqn Pt2
00:35:39
11
Boundary Conditions
00:28:32

Battery Pack Design

1
Cell Operating Condition and Life
01:22:15
2
Improving Cell Life
01:12:03
3
Battery Calculation Basics
00:39:47
4
Energy Consumption Pt 01
00:44:50
5
Energy Consumption Pt 02
00:32:27
6
Energy Consumption – Drive Cycles
00:26:00
7
Average Consumption
01:00:00
8
Cell Arrangement
00:37:18
9
Cell Bonding
00:38:14
10
Cell Arrangement Pt 2
01:11:18

Battery Modelling

1
Introduction to Battery Pack Design
00:36:21 Hr
2
Cell Assemble Model
00:27:34
3
Battery Case Design Principle
00:10:03 Hr
4
Battery Modelling
00:15:25 Hr

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Lectures: 43
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