Coordinated in-home charging of plug-in electric vehicles from a household smart microgrid

Davydova, Anastasia; Chakirov, Roustiam; Vagapov, Yuriy; Komenda, Taras; Lupin, Sergey

doi:10.1109/afrcon.2013.6757667

Cited by 10 publications

(4 citation statements)

References 5 publications

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“…At the same time, it will result in reducing the total energy purchase costs. Thus, improving the load factor by reducing or shifting the peak load is necessary in order to ensure the profitability of microgrid power systems [103]. In [97], power scheduling techniques are applied to a hybrid ferry microgrid.…”

Section: Load Factor Improvementmentioning

confidence: 99%

A Review of the Conceptualization and Operational Management of Seaport Microgrids on the Shore and Seaside

et al. 2021

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Seaports are well known as the medium that has evolved into the central link between sea and land for complex marine activities. The growth in maritime logistics particularly necessitates a large volume of energy supply in order to maintain the operation of sea trade, resulting in an imbalance between generation and demand sides. Future projections for three major concerns show an increase in load demand, cost of operation, and environmental issues. In order to overcome these problems, integrating microgrids as an innovative technology in the seaport power system appears to be a vital strategy. It is believed that microgrids enhance seaport operation by providing sustainable, environmentally friendly, and cost-effective energy. Although microgrids are well established and widely used in a variety of operations on land, their incorporation into the seaport is still limited. The involvement of a variety of heavy loads such as all-electric ships, cranes, cold ironing, and buildings infrastructure renders it a complicated arrangement task in several aspects, which necessitates further research and leaves space for improvement. In this paper, an overview of the seaport microgrids in terms of their concepts and operation management is presented. It provides the perspectives for integrating the microgrid concept into a seaport from both shore side and seaside as a smart initiative for the green port’s vision. Future research directions are discussed towards the development of a more efficient marine power system.

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Section: Load Factor Improvementmentioning

confidence: 99%

A Review of the Conceptualization and Operational Management of Seaport Microgrids on the Shore and Seaside

et al. 2021

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show abstract

“…At the same time, it will result in reducing the total energy purchase cost. Thus, improving the load factor by reducing or shifting the peak load is necessary to ensure the profitability of microgrid power systems [119]. In [113], power scheduling techniques are applied to a hybrid ferry microgrid.…”

Section: Load Factor Improvementmentioning

confidence: 99%

A Review of the Conceptualization and Operational Management of Seaport Microgrids on the Shore and Seaside

Bakar¹,

Guerrero²,

Vásquez³

et al. 2021

Preprint

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Seaports are well known as the medium that has evolved into the central link between sea and land for complex marine activities. The growth in maritime logistics especially necessitates a large volume of energy supply to maintain the operation of sea trade, resulting in an imbalance between the generation and demand sides. Future projections for three major concerns show an increase in load demand, cost of operation, and environmental issues. In order to overcome these problems, integrating microgrids as an innovative technology in the seaport power system appears to be a vital strategy. It is believed that microgrids enhance the seaport operation by providing sustainable, environmentally friendly, and cost-effective energy. Despite the fact that microgrids are well established and widely used in a variety of operations on land, their incorporation into the seaport is still limited. The involvement of a variety of heavy loads such as all-electric ships, cranes, cold ironing, and buildings infrastructure makes it a complicated arrangement task in several aspects, which necessitate further research and leave space for improvement. In this paper, an overview of the seaport microgrids in terms of their concepts, requirements, and operation management is presented. It provides the perspectives of integrating the microgrid concept into a seaport from both shore side and seaside as a smart initiative for the green ports vision. Future research directions are discussed towards the development of more efficient marine power system.

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“…They have become active participants in electrified transportation and renewable energy grids [103]. For instance, distributed batteries used in EVs and household storage have smart metering and fast responsive ability [104,105].…”

Section: Batteriesmentioning

confidence: 99%

“…Generally, EVs can be powered by a power system with aggregators [118], or they can be powered by batteries (such as solar panels and fuel cells). If an EV is equipped with battery devices, then it can select to charge or discharge just like a traditional storage option [104,105]. For plug-in EVs, they are charged by household sockets, taking about 4-11 hours.…”

Section: Electric Vehiclesmentioning

confidence: 99%

Optimal Management of Flexible Resources in Multi-Energy Systems

Xi¹

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Coordinated in-home charging of plug-in electric vehicles from a household smart microgrid

Cited by 10 publications

References 5 publications

A Review of the Conceptualization and Operational Management of Seaport Microgrids on the Shore and Seaside

A Review of the Conceptualization and Operational Management of Seaport Microgrids on the Shore and Seaside

A Review of the Conceptualization and Operational Management of Seaport Microgrids on the Shore and Seaside

Optimal Management of Flexible Resources in Multi-Energy Systems

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