Conjugate active and reactive power management in a smart distribution network through electric vehicles: A mixed integer-linear programming model

Electrical Vehicles (EVs) have a growing penetration rate in many countries aimed at the reduction of fossil fuel consumption and declining environmental issues. The high penetration rate of EVs, as new electrical energy demands, can cause operational problems for distribution networks. Therefore, d...

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Published in:	Sustainable Energy, Grids and Networks Vol. 22; p. 100344
Main Authors:	Pirouzi, Sasan, Latify, Mohammad Amin, Yousefi, G. Reza
Format:	Journal Article
Language:	English
Published:	Elsevier Ltd 01.06.2020
Subjects:	Conjugate active and reactive power management Electric vehicles Mixed-integer linear programming Smart distribution network operation Electric vehicles Conjugate active and reactive power management Smart distribution network operation Mixed-integer linear programming
ISSN:	2352-4677, 2352-4677
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Abstract	Electrical Vehicles (EVs) have a growing penetration rate in many countries aimed at the reduction of fossil fuel consumption and declining environmental issues. The high penetration rate of EVs, as new electrical energy demands, can cause operational problems for distribution networks. Therefore, designing and implementation of monitoring and management mechanisms for EVs charging is a necessity. EVs are equipped with power electronic-based chargers, bringing them a high degree of flexibility in conjugate active and reactive power control. This capability can be employed not only to reduce the adverse impacts of the high penetration rate of EVs on distribution networks operation but also to support the active and reactive management in distribution networks. In this paper, to employ EVs conjugate active and reactive power control capability, a model for central active and reactive power management in a smart distribution network is proposed. The proposed model is an optimization problem in which the objective function consists of two terms, namely, “minimizing the cost of energy” and “improving the voltage profile”, over the operation planning horizon. The constraints of the optimization problem include distribution network operation constraints and charging and discharging constraints related to the EVs batteries and chargers. This problem is modelled as a Mixed Integer Linear Programming (MILP) problem and is implemented on the 33-bus, 69-bus, and 133-bus distribution networks. The results show that the proposed model can obtain the lowest energy cost and energy loss and the best operational voltage profile in a completely acceptable calculation time. Moreover, by using the proposed model, supplying the required energy for EVs during their plugin time interval is guaranteed and, increasing the penetration rate of EVs into the network is facilitated.
AbstractList	Electrical Vehicles (EVs) have a growing penetration rate in many countries aimed at the reduction of fossil fuel consumption and declining environmental issues. The high penetration rate of EVs, as new electrical energy demands, can cause operational problems for distribution networks. Therefore, designing and implementation of monitoring and management mechanisms for EVs charging is a necessity. EVs are equipped with power electronic-based chargers, bringing them a high degree of flexibility in conjugate active and reactive power control. This capability can be employed not only to reduce the adverse impacts of the high penetration rate of EVs on distribution networks operation but also to support the active and reactive management in distribution networks. In this paper, to employ EVs conjugate active and reactive power control capability, a model for central active and reactive power management in a smart distribution network is proposed. The proposed model is an optimization problem in which the objective function consists of two terms, namely, “minimizing the cost of energy” and “improving the voltage profile”, over the operation planning horizon. The constraints of the optimization problem include distribution network operation constraints and charging and discharging constraints related to the EVs batteries and chargers. This problem is modelled as a Mixed Integer Linear Programming (MILP) problem and is implemented on the 33-bus, 69-bus, and 133-bus distribution networks. The results show that the proposed model can obtain the lowest energy cost and energy loss and the best operational voltage profile in a completely acceptable calculation time. Moreover, by using the proposed model, supplying the required energy for EVs during their plugin time interval is guaranteed and, increasing the penetration rate of EVs into the network is facilitated.
ArticleNumber	100344
Author	Latify, Mohammad Amin Yousefi, G. Reza Pirouzi, Sasan
Author_xml	– sequence: 1 givenname: Sasan surname: Pirouzi fullname: Pirouzi, Sasan – sequence: 2 givenname: Mohammad Amin surname: Latify fullname: Latify, Mohammad Amin email: latify@iut.ac.ir – sequence: 3 givenname: G. Reza surname: Yousefi fullname: Yousefi, G. Reza
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Snippet	Electrical Vehicles (EVs) have a growing penetration rate in many countries aimed at the reduction of fossil fuel consumption and declining environmental...
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SubjectTerms	Conjugate active and reactive power management Electric vehicles Mixed-integer linear programming Smart distribution network operation
Title	Conjugate active and reactive power management in a smart distribution network through electric vehicles: A mixed integer-linear programming model
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