Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging
The number of Stationary Battery Systems (SBS) connected to various power distribution networks across the world has increased drastically. The increase in the integration of renewable energy sources is one of the major contributors to the increase in the number of SBS. SBS are also used in other ap...
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sg-ntu-dr.10356-837402021-01-13T06:52:17Z Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging Kandasamy, Nandha Badrinarayanan, Rajagopalan Kanamarlapudi, Venkata Tseng, King Soong, Boon Hee School of Electrical and Electronic Engineering Energy Research Institute @ NTU (ERI@N) charging/discharging profile; stationary battery systems The number of Stationary Battery Systems (SBS) connected to various power distribution networks across the world has increased drastically. The increase in the integration of renewable energy sources is one of the major contributors to the increase in the number of SBS. SBS are also used in other applications such as peak load management, load-shifting, voltage regulation and power quality improvement. Accurately modeling the charging/discharging characteristics of such SBS at various instances (charging/discharging profile) is vital for many applications. Capacity loss due to the aging of the batteries is an important factor to be considered for estimating the charging/discharging profile of SBS more accurately. Empirical modeling is a common approach used in the literature for estimating capacity loss, which is further used for estimating the charging/discharging profiles of SBS. However, in the case of SBS used for renewable integration and other grid related applications, machine-learning (ML) based models provide extreme flexibility and require minimal resources for implementation. The models can even leverage existing smart meter data to estimate the charging/discharging profile of SBS. In this paper, an analysis on the performance of different ML approaches that can be applied for lithium iron phosphate battery systems and vanadium redox flow battery systems used as SBS is presented for the scenarios where the aging of individual cells is non-uniform. Published version 2017-06-28T08:11:25Z 2019-12-06T15:31:02Z 2017-06-28T08:11:25Z 2019-12-06T15:31:02Z 2017 2017 Journal Article Kandasamy, N., Badrinarayanan, R., Kanamarlapudi, V., Tseng, K.,& Soong, B. H. (2017). Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging. Batteries, 3(2), 18-. 2313-0105 https://hdl.handle.net/10356/83740 http://hdl.handle.net/10220/42755 10.3390/batteries3020018 201960 en Batteries This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. (CC BY 4.0). 15 p. application/pdf |
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charging/discharging profile; stationary battery systems |
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charging/discharging profile; stationary battery systems Kandasamy, Nandha Badrinarayanan, Rajagopalan Kanamarlapudi, Venkata Tseng, King Soong, Boon Hee Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging |
| description |
The number of Stationary Battery Systems (SBS) connected to various power distribution networks across the world has increased drastically. The increase in the integration of renewable energy sources is one of the major contributors to the increase in the number of SBS. SBS are also used in other applications such as peak load management, load-shifting, voltage regulation and power quality improvement. Accurately modeling the charging/discharging characteristics of such SBS at various instances (charging/discharging profile) is vital for many applications. Capacity loss due to the aging of the batteries is an important factor to be considered for estimating the charging/discharging profile of SBS more accurately. Empirical modeling is a common approach used in the literature for estimating capacity loss, which is further used for estimating the charging/discharging profiles of SBS. However, in the case of SBS used for renewable integration and other grid related applications, machine-learning (ML) based models provide extreme flexibility and require minimal resources for implementation. The models can even leverage existing smart meter data to estimate the charging/discharging profile of SBS. In this paper, an analysis on the performance of different ML approaches that can be applied for lithium iron phosphate battery systems and vanadium redox flow battery systems used as SBS is presented for the scenarios where the aging of individual cells is non-uniform. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Kandasamy, Nandha Badrinarayanan, Rajagopalan Kanamarlapudi, Venkata Tseng, King Soong, Boon Hee |
| format |
Article |
| author |
Kandasamy, Nandha Badrinarayanan, Rajagopalan Kanamarlapudi, Venkata Tseng, King Soong, Boon Hee |
| author_sort |
Kandasamy, Nandha |
| title |
Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging |
| title_short |
Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging |
| title_full |
Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging |
| title_fullStr |
Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging |
| title_full_unstemmed |
Performance Analysis of Machine-Learning Approaches for Modeling the Charging/Discharging Profiles of Stationary Battery Systems with Non-Uniform Cell Aging |
| title_sort |
performance analysis of machine-learning approaches for modeling the charging/discharging profiles of stationary battery systems with non-uniform cell aging |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/83740 http://hdl.handle.net/10220/42755 |
| _version_ |
1690658357736636416 |