Difference between revisions of "Category:Final Year Projects"
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Battery degradation shows the capacity of battery and its life time. But the mechanisms are complex and interacting. Engineerings build real-time estimation model to solve it but there are to many limitation. Off-line estimation model fine out the general equations of battery life. In actual use the data are dynamics. this tool box can dynamically simulate the equations. | Battery degradation shows the capacity of battery and its life time. But the mechanisms are complex and interacting. Engineerings build real-time estimation model to solve it but there are to many limitation. Off-line estimation model fine out the general equations of battery life. In actual use the data are dynamics. this tool box can dynamically simulate the equations. | ||
== Introduction == | == Introduction == | ||
| Line 8: | Line 8: | ||
=== Project team === | === Project team === | ||
==== Project students ==== | ==== Project students ==== | ||
| − | * | + | * Yuanli Chen |
==== Supervisors ==== | ==== Supervisors ==== | ||
| − | * | + | * Ali Pourmousavi Kani |
| − | * | + | * Said Al-Sarawi |
==== Advisors ==== | ==== Advisors ==== | ||
| Line 20: | Line 20: | ||
=== Objectives === | === Objectives === | ||
this poject will build two function based to two models into the toolbox. | this poject will build two function based to two models into the toolbox. | ||
| + | |||
these two models are provided in these two article: | these two models are provided in these two article: | ||
| + | |||
"A Multi-Factor Battery Cycle Life Prediction Methodology for Optimal Battery Management" | "A Multi-Factor Battery Cycle Life Prediction Methodology for Optimal Battery Management" | ||
| + | |||
"Modeling of Lithium-Ion Battery Degradation for Cell Life Assessment" | "Modeling of Lithium-Ion Battery Degradation for Cell Life Assessment" | ||
== Background == | == Background == | ||
=== model 1 === | === model 1 === | ||
| − | [[File:flowchart of model 1. | + | [[File:flowchart of model 1.png|1000px]] |
| + | |||
== Method == | == Method == | ||
Latest revision as of 23:56, 23 September 2019
Battery degradation shows the capacity of battery and its life time. But the mechanisms are complex and interacting. Engineerings build real-time estimation model to solve it but there are to many limitation. Off-line estimation model fine out the general equations of battery life. In actual use the data are dynamics. this tool box can dynamically simulate the equations.
Contents
Introduction
this project will build a toolbox in MATLAB. users can call the functions in toolbox to get the degeadation of Li-ion battery.
Project team
Project students
- Yuanli Chen
Supervisors
- Ali Pourmousavi Kani
- Said Al-Sarawi
Advisors
Objectives
this poject will build two function based to two models into the toolbox.
these two models are provided in these two article:
"A Multi-Factor Battery Cycle Life Prediction Methodology for Optimal Battery Management"
"Modeling of Lithium-Ion Battery Degradation for Cell Life Assessment"
Background
model 1
Method
Results
Conclusion
References
[1] V. Muenzel, J. D. Hoog, M. Brazil, A. Vishwanath, S. Kalyanaraman, "A multi-factor battery cycle life prediction methodology for optimal battery management", Proc. e-Energy, pp. 57-66, Jul. 2015. [2] Xu, B, Oudalov, A, Ulbig, A, Andersson, G & Kirschen, DS 2018, ‘Modeling of Lithium-Ion Battery Degradation for Cell Life Assessment’, IEEE Transactions on Smart Grid, vol. 9, no. 2, pp. 1131–1140. [3] Lee, Yung-Li & Tjhung, Tana 2012, ‘Rainflow Cycle Counting Techniques-Chapter 3’, in Metal Fatigue Analysis Handbook, pp. 89–114. [4] Aiping Wang, Sanket Kadam, Hong Li, Siqi Shi & Yue Qi 2018, ‘Review on modeling of the anode solid electrolyte interphase (SEI) for lithium-ion batteries’, Npj Computational Materials, vol. 4, no. 1, pp. 1–26.
Pages in category "Final Year Projects"
The following 115 pages are in this category, out of 115 total.
2
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- Projects:2019s2-25202 Electricity Consumers' Greenness: A Measure to Quantify Electricity Consumers' Sustainability and Efficiency
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- Projects:2021s1-13111 Novel 3D printing antennas for Internet of Things (IoT)
- Projects:2021s1-13113 Miniaturised metasurface antennas
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- Projects:2021s1-13252 Feral Animal Recognition Using Thermal and Depth Sensing
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- Projects:2021s1-13332 Artificial General Intelligence in fully autonomous systems
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- Projects:2021s1-13434 Can we teach a machine to be a cardiologist?
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- Projects:2021s2-63531 Utility-scale vanadium flow battery in South Australia: System, data and performance analysis
