Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing
The emergence and upswing of battery electric vehicles fuels discussion and research on the impact of those on the power system and how they can be used beneficially. On the other hand, the battery is very sensitive to different modes of operation and can age rapidly. This can lead to high losses...
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sg-ntu-dr.10356-881202020-11-01T04:53:19Z Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing Trippe, Annette Erika Markus-Christian Amann Interdisciplinary Graduate School (IGS) DRNTU::Engineering::Electrical and electronic engineering::Electric power The emergence and upswing of battery electric vehicles fuels discussion and research on the impact of those on the power system and how they can be used beneficially. On the other hand, the battery is very sensitive to different modes of operation and can age rapidly. This can lead to high losses in value of the electric vehicle because the battery accounts for a substantial share in the cost. In this work, an optimisation model is developed in order to generate intelligent charging strategies for battery electric vehicles. The model considers both electricity price and battery ageing and thereby allocates charging strategies representing the optimal trade-off between electricity price controlled charging and battery lifetime. A mobility model is elaborated to simulate the energy consumption of the respective vehicles as well as the driving and parking schedules of the users. The simulated travel schedules and energy consumption serve as input for the optimisation model of intelligent charging strategies. Experimental data of battery ageing tests, designed to mirror the operation of lithium-ion batteries in electric vehicles, are the basis for a comprehensive battery ageing model. Both cycle and calendar ageing are examined and the influence of the state of charge, charge rate, as well as range of operation on battery ageing is investigated. A calendar ageing function as well as a three-dimensional cycle ageing function are derived, modelling the battery ageing within the optimisation. The charging optimisation model minimises the total charging costs, consisting of charging electricity cost and battery ageing cost. The mathematical optimisation problem is initially formulated as a mixed-integer non-linear programme and transformed into a mixed-integer linear programme by means of piecewise linear approximation and other linearisation techniques. The charging optimisation model is applied to a sample of 300 battery electric vehicles and different scenarios are computed and analysed. The battery ageing cost accounts for 13% to 45% of the total charging costs for the different scenarios, underlining the importance of the inclusion of battery ageing into the optimisation of charging strategies. The optimal operating range lies between a battery state of charge of 10% to 50% in most cases. Charging times coincide with times of low electricity prices, usually correlated to valleys in the electricity demand. Almost no fast charging is applied, indicating that the higher battery ageing cost due to fast charging cannot be outweighed by a reduction in electricity cost when charging more energy during low-priced periods. Doctor of Philosophy 2018-08-23T07:17:16Z 2019-12-06T16:56:27Z 2018-08-23T07:17:16Z 2019-12-06T16:56:27Z 2018 Thesis Trippe, A. E. (2018). Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/88120 http://hdl.handle.net/10220/45666 10.32657/10220/45666 en 135 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Electric power Trippe, Annette Erika Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing |
| description |
The emergence and upswing of battery electric vehicles fuels discussion and
research on the impact of those on the power system and how they can be used
beneficially. On the other hand, the battery is very sensitive to different modes of
operation and can age rapidly. This can lead to high losses in value of the electric
vehicle because the battery accounts for a substantial share in the cost.
In this work, an optimisation model is developed in order to generate intelligent
charging strategies for battery electric vehicles. The model considers both electricity
price and battery ageing and thereby allocates charging strategies representing the
optimal trade-off between electricity price controlled charging and battery lifetime.
A mobility model is elaborated to simulate the energy consumption of the respective
vehicles as well as the driving and parking schedules of the users. The simulated
travel schedules and energy consumption serve as input for the optimisation model
of intelligent charging strategies.
Experimental data of battery ageing tests, designed to mirror the operation of
lithium-ion batteries in electric vehicles, are the basis for a comprehensive battery
ageing model. Both cycle and calendar ageing are examined and the influence of
the state of charge, charge rate, as well as range of operation on battery ageing is
investigated. A calendar ageing function as well as a three-dimensional cycle ageing
function are derived, modelling the battery ageing within the optimisation.
The charging optimisation model minimises the total charging costs, consisting
of charging electricity cost and battery ageing cost. The mathematical optimisation
problem is initially formulated as a mixed-integer non-linear programme and
transformed into a mixed-integer linear programme by means of piecewise linear
approximation and other linearisation techniques.
The charging optimisation model is applied to a sample of 300 battery electric
vehicles and different scenarios are computed and analysed. The battery ageing
cost accounts for 13% to 45% of the total charging costs for the different scenarios,
underlining the importance of the inclusion of battery ageing into the optimisation
of charging strategies. The optimal operating range lies between a battery state of
charge of 10% to 50% in most cases. Charging times coincide with times of low
electricity prices, usually correlated to valleys in the electricity demand. Almost no
fast charging is applied, indicating that the higher battery ageing cost due to fast
charging cannot be outweighed by a reduction in electricity cost when charging more
energy during low-priced periods. |
| author2 |
Markus-Christian Amann |
| author_facet |
Markus-Christian Amann Trippe, Annette Erika |
| format |
Theses and Dissertations |
| author |
Trippe, Annette Erika |
| author_sort |
Trippe, Annette Erika |
| title |
Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing |
| title_short |
Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing |
| title_full |
Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing |
| title_fullStr |
Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing |
| title_full_unstemmed |
Optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing |
| title_sort |
optimisation model of intelligent charging strategies for battery electric vehicles considering the power system and battery ageing |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/88120 http://hdl.handle.net/10220/45666 |
| _version_ |
1683493637990645760 |