Integrated Energy Exchange Scheduling for Multimicrogrid System With Electric Vehicles

Wang, Dai; Guan, Xiaohong; Wu, Jiang; Li, Pan; Zan, Peng; Xu, Hui

doi:10.1109/tsg.2015.2438852

Cited by 149 publications

(74 citation statements)

References 40 publications

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“…short planning horizons): as a consequence approximations or decompositions must be carried out so as to make the problem tractable. For example: in [20] linearization techniques are applied to reduce a mixedinteger nonlinear programming model to a mixed-integer linear programming: in [21] the charging problem is split into hierarchical subproblems to better handle complexity; in [22] a two-stage energy exchange scheduling strategy is presented where at the first stage the electricity cost of a microgrid is minimized and at the second stage the aggregate charging/discharging power is allocated to each EV. The openloop nature of these strategies arises from the formulation of the charging problem as an optimal control problem 'a la Pontryagin', involving open-loop control candidates.…”

Section: A Related Workmentioning

confidence: 99%

Adaptive Asymptotic Tracking Control of Uncertain Time-Driven Switched Linear Systems

Yuan

Schutter

2017

IEEE Trans. Automat. Contr.

117

107

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Abstract-Managing grid-connected charging stations for fleets of electric-vehicles leads to an optimal control problem where user preferences must be met with minimum energy costs (e.g. by exploiting lower electricity prices through the day, renewable energy production, stored energy of parked vehicles). Instead of state-of-the-art charging scheduling based on open-loop strategies that explicitly depend on initial operating conditions, this paper proposes an approximate dynamic programming feedback-based optimization method with continuous state space and action space, where the feedback action guarantees uniformity with respect to initial operating conditions, while price variations in the electricity and available solar energy are handled automatically in the optimization. The resulting control action is a multi-modal feedback which is shown to handle a wide range of operating regimes, via a set of controllers whose action that can be activated or deactivated depending on availability of solar energy and pricing model. Extensive simulations via a charging test case demonstrate the effectiveness of the approach.

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Section: A Related Workmentioning

confidence: 99%

Adaptive Asymptotic Tracking Control of Uncertain Time-Driven Switched Linear Systems

Yuan

Schutter

2017

IEEE Trans. Automat. Contr.

117

107

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“…Another interesting model which considers explicit cycling by counting state transition in the case of Hybrid Electric Vehicles (HEV), is presented in [16]. Quadratic explicit modeling is proposed in [17] to calculate battery degradation costs.…”

Section: Battery Cycling In Other Power Systems Applicationsmentioning

confidence: 99%

Stochastic operation of home energy management systems including battery cycling

2018

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The present work proposes a stochastic approach for Day-Ahead operation of Home Energy Management Systems when batteries, solar photovoltaic resources and Electric Water Heaters are considered. The optimization problem minimizes the operation costs formed by energy procurement in the wholesale market and the equivalent cycling aging cost of the batteries, and also includes the uncertainty of the PV production and the load. The complete two-stage stochastic formulation results in a Mixed-Integer Nonlinear Programming problem that is decomposed using a Competitive Swarm Optimizer to handle the calculation of the battery cycling aging cost. A Storage Disaggregation Algorithm based on Lagrangian relaxation is used to reduce the problem size and to allocate individual State of Charge for the batteries. In addition, the advantages of considering a stochastic approach are shown by means of the Value of the Stochastic Solution. This methodology has been developed in the context of the Horizon 2020 project SENSIBLE as part of the tasks related to a use case that considers an aggregator that participates in the electricity market with a portfolio of prosumers with active demand capability.

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“…The third category in the literature is associated with flexible demand-side resources, for instance, plug-in hybrid electric vehicles and demand side management solutions, specifically demand response [24][25][26]. Electric vehicles were taken into account as adaptable portable battery storages.…”

Section: Using Flexible Demand Side Resourcesmentioning

confidence: 99%

“…Electric vehicles were taken into account as adaptable portable battery storages. Moreover, a two-stage energy scheduling strategy for multiple micro grids was proposed [24]. A model of Plug-in vehicles was designed to discover a strategy to decrease the charging load peak by the considerable amount of 47% [26].…”

Section: Using Flexible Demand Side Resourcesmentioning

confidence: 99%

The Mutual Impact of Demand Response Programs and Renewable Energies: A Survey

et al. 2017

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Renewable energies as a solution for environmental issues have always been a key research area due to Demand Response Programs (DRPs). However, the intermittent nature of such energies may cause economic and technological challenges for Independent System Operators (ISOs) besides DRPs, since the acceptable effective solution may exceed the requirement of further investigations. Although, previous studies emphasized employing Demand Response and Renewable Energies in power systems, each problem was investigated independently, and there have been few studies which have investigated these problems simultaneously. In these recent studies, authors neither analyzed these problems simultaneously nor discussed which scientific and practical aspects of demand response and renewable energy injection were employed. Motivated by this requirement, this research has focused on a comprehensive review of recent research of these cases to provide a comprehensive reference for future works.

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Integrated Energy Exchange Scheduling for Multimicrogrid System With Electric Vehicles

Cited by 149 publications

References 40 publications

Adaptive Asymptotic Tracking Control of Uncertain Time-Driven Switched Linear Systems

Adaptive Asymptotic Tracking Control of Uncertain Time-Driven Switched Linear Systems

Stochastic operation of home energy management systems including battery cycling

The Mutual Impact of Demand Response Programs and Renewable Energies: A Survey

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