Closed-loop Optimal Ageing-Aware Charging of Li-ion Batteries Using a Surrogate Model

Diego Locatelli; D.M. Raimondo; Zuan Khalik; Henk Jan Bergveld; M.C.F. (Tijs) Donkers

doi:10.1016/j.ifacol.2023.10.593

Closed-loop Optimal Ageing-Aware Charging of Li-ion Batteries Using a Surrogate Model

Diego Locatelli, D.M. Raimondo, Zuan Khalik, Henk Jan Bergveld, M.C.F. (Tijs) Donkers

Onderzoeksoutput: Bijdrage aan tijdschrift › Congresartikel › peer review

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Li-ion batteries offer the finest balance of performance, price, and longevity for efficient energy storage. One of the main features of the Battery Management System (BMS) is to yield the best trade-of between fast charging and ageing effects minimisation while meeting safety requirements. In this paper, we provide an online optimal-control-based strategy for ageing-aware charging. This is achieved by formulating a control problem where a surrogate model is exploited in the description of the battery behaviour, that minimizes the side reactions, while satisfying ageing-related and safety constraints. The surrogate model combines a static nonlinear model that depends on the state of charge with a black-box finite-dimensional linear-time-invariant model. The results are obtained in simulation with a DFN battery model considered as a real ”plant”. To close the loop, a Kalman Filter with a forgetting factor is employed to estimate the states. Finally, we will compare the Pareto-fronts obtained using the suggested optimal-control-based methodology with those obtained using an open-loop strategy.

Originele taal-2	Engels
Pagina's (van-tot)	7140-7146
Aantal pagina's	6
Tijdschrift	IFAC-PapersOnLine
Volume	56
Nummer van het tijdschrift	2
DOI's	https://doi.org/10.1016/j.ifacol.2023.10.593
Status	Gepubliceerd - 1 jul. 2023
Evenement	22nd World Congress of the International Federation of Automatic Control (IFAC 2023 World Congress) - Yokohama, Japan Duur: 9 jul. 2023 → 14 jul. 2023 Congresnummer: 22 https://www.ifac2023.org/

Financiering

This work received partial support from the Italian Ministry for Research (Grant no. 2017YKXYXJ), the Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA), and Regione Lombardia. Additionally, financial support was provided by the Dutch Ministry of Economic Affairs and Climate, under the grant 'R&D Mobility Sectors' carried out by the Dutch Enterprise Agency (RVO).

Financiers	Financiernummer
Rijksdienst voor Ondernemend Nederland (RVO) - opdrachtgever
Ministerie van Economische Zaken en Klimaat
Associazione Euratom (CNR/ENEA)

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title = "Closed-loop Optimal Ageing-Aware Charging of Li-ion Batteries Using a Surrogate Model",

abstract = "Li-ion batteries offer the finest balance of performance, price, and longevity for efficient energy storage. One of the main features of the Battery Management System (BMS) is to yield the best trade-of between fast charging and ageing effects minimisation while meeting safety requirements. In this paper, we provide an online optimal-control-based strategy for ageing-aware charging. This is achieved by formulating a control problem where a surrogate model is exploited in the description of the battery behaviour, that minimizes the side reactions, while satisfying ageing-related and safety constraints. The surrogate model combines a static nonlinear model that depends on the state of charge with a black-box finite-dimensional linear-time-invariant model. The results are obtained in simulation with a DFN battery model considered as a real ”plant”. To close the loop, a Kalman Filter with a forgetting factor is employed to estimate the states. Finally, we will compare the Pareto-fronts obtained using the suggested optimal-control-based methodology with those obtained using an open-loop strategy.",

keywords = "Battery management system, Li-ion Batteries, Predictive control, Systems modeling",

author = "Diego Locatelli and D.M. Raimondo and Zuan Khalik and Bergveld, \{Henk Jan\} and Donkers, \{M.C.F. (Tijs)\}",

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AU - Raimondo, D.M.

AU - Khalik, Zuan

AU - Bergveld, Henk Jan

AU - Donkers, M.C.F. (Tijs)

N1 - Conference code: 22

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N2 - Li-ion batteries offer the finest balance of performance, price, and longevity for efficient energy storage. One of the main features of the Battery Management System (BMS) is to yield the best trade-of between fast charging and ageing effects minimisation while meeting safety requirements. In this paper, we provide an online optimal-control-based strategy for ageing-aware charging. This is achieved by formulating a control problem where a surrogate model is exploited in the description of the battery behaviour, that minimizes the side reactions, while satisfying ageing-related and safety constraints. The surrogate model combines a static nonlinear model that depends on the state of charge with a black-box finite-dimensional linear-time-invariant model. The results are obtained in simulation with a DFN battery model considered as a real ”plant”. To close the loop, a Kalman Filter with a forgetting factor is employed to estimate the states. Finally, we will compare the Pareto-fronts obtained using the suggested optimal-control-based methodology with those obtained using an open-loop strategy.

AB - Li-ion batteries offer the finest balance of performance, price, and longevity for efficient energy storage. One of the main features of the Battery Management System (BMS) is to yield the best trade-of between fast charging and ageing effects minimisation while meeting safety requirements. In this paper, we provide an online optimal-control-based strategy for ageing-aware charging. This is achieved by formulating a control problem where a surrogate model is exploited in the description of the battery behaviour, that minimizes the side reactions, while satisfying ageing-related and safety constraints. The surrogate model combines a static nonlinear model that depends on the state of charge with a black-box finite-dimensional linear-time-invariant model. The results are obtained in simulation with a DFN battery model considered as a real ”plant”. To close the loop, a Kalman Filter with a forgetting factor is employed to estimate the states. Finally, we will compare the Pareto-fronts obtained using the suggested optimal-control-based methodology with those obtained using an open-loop strategy.

KW - Battery management system

KW - Li-ion Batteries

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KW - Systems modeling

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Closed-loop Optimal Ageing-Aware Charging of Li-ion Batteries Using a Surrogate Model

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