Flexible Voyage Scheduling and Coordinated Energy Management Strategy of All-Electric Ships and Seaport Microgrid

Yuechuan Tao; Jing Qiu; Shuying Lai; Xianzhuo Sun; Junhua Zhao

doi:10.1109/TITS.2022.3226449

Flexible Voyage Scheduling and Coordinated Energy Management Strategy of All-Electric Ships and Seaport Microgrid

Yuechuan Tao, Jing Qiu^*, Shuying Lai, Xianzhuo Sun, Junhua Zhao^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

25 Citations (Scopus)

Abstract

Maritime transportation takes a major responsibility in public travel between islands while producing a large quantity of greenhouse gas (GHG) emissions. All-electric ships (AESs) can be applied to mitigate GHG emissions through energy storage systems (ESS), renewable integration, and cold ironing. In this paper, we propose a flexible voyage scheduling strategy for AESs based on the temporal-spatial dynamics (TSD) to satisfy the transportation demand while mitigating the burden of the AESs on the power grids during charging. The interaction between the AESs and island-based microgrids is modeled. Furthermore, the AESs are utilized to enhance the resilience of the power grids. The AESs can be dispatched to realize the load restoration under contingencies. The proposed methodology is verified on a three-island system. It can be concluded that under normal operation, the proposed voyage scheduling can reduce the total energy consumption cost of the AESs and the islands. Besides, the voltage violation can be improved. Under the emergency, the proposed method can help the grids restore more critical and normal loads. © 2022 IEEE.

Original language	English
Pages (from-to)	3211-3222
Journal	IEEE Transactions on Intelligent Transportation Systems
Volume	24
Issue number	3
Online published	12 Dec 2022
DOIs	https://doi.org/10.1109/TITS.2022.3226449
Publication status	Published - Mar 2023
Externally published	Yes

Research Keywords

All-electric ships
flexible voyage scheduling
load restoration
power resilience
temporal-spatial dynamics

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/TITS.2022.3226449

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@article{6017095680b9420eb1390eb069f2f19f,

title = "Flexible Voyage Scheduling and Coordinated Energy Management Strategy of All-Electric Ships and Seaport Microgrid",

abstract = "Maritime transportation takes a major responsibility in public travel between islands while producing a large quantity of greenhouse gas (GHG) emissions. All-electric ships (AESs) can be applied to mitigate GHG emissions through energy storage systems (ESS), renewable integration, and cold ironing. In this paper, we propose a flexible voyage scheduling strategy for AESs based on the temporal-spatial dynamics (TSD) to satisfy the transportation demand while mitigating the burden of the AESs on the power grids during charging. The interaction between the AESs and island-based microgrids is modeled. Furthermore, the AESs are utilized to enhance the resilience of the power grids. The AESs can be dispatched to realize the load restoration under contingencies. The proposed methodology is verified on a three-island system. It can be concluded that under normal operation, the proposed voyage scheduling can reduce the total energy consumption cost of the AESs and the islands. Besides, the voltage violation can be improved. Under the emergency, the proposed method can help the grids restore more critical and normal loads. {\textcopyright} 2022 IEEE.",

keywords = "All-electric ships, flexible voyage scheduling, load restoration, power resilience, temporal-spatial dynamics",

author = "Yuechuan Tao and Jing Qiu and Shuying Lai and Xianzhuo Sun and Junhua Zhao",

year = "2023",

month = mar,

doi = "10.1109/TITS.2022.3226449",

language = "English",

volume = "24",

pages = "3211--3222",

journal = "IEEE Transactions on Intelligent Transportation Systems",

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}

Flexible Voyage Scheduling and Coordinated Energy Management Strategy of All-Electric Ships and Seaport Microgrid. / Tao, Yuechuan; Qiu, Jing; Lai, Shuying et al.
In: IEEE Transactions on Intelligent Transportation Systems, Vol. 24, No. 3, 03.2023, p. 3211-3222.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

TY - JOUR

T1 - Flexible Voyage Scheduling and Coordinated Energy Management Strategy of All-Electric Ships and Seaport Microgrid

AU - Tao, Yuechuan

AU - Qiu, Jing

AU - Lai, Shuying

AU - Sun, Xianzhuo

AU - Zhao, Junhua

PY - 2023/3

Y1 - 2023/3

N2 - Maritime transportation takes a major responsibility in public travel between islands while producing a large quantity of greenhouse gas (GHG) emissions. All-electric ships (AESs) can be applied to mitigate GHG emissions through energy storage systems (ESS), renewable integration, and cold ironing. In this paper, we propose a flexible voyage scheduling strategy for AESs based on the temporal-spatial dynamics (TSD) to satisfy the transportation demand while mitigating the burden of the AESs on the power grids during charging. The interaction between the AESs and island-based microgrids is modeled. Furthermore, the AESs are utilized to enhance the resilience of the power grids. The AESs can be dispatched to realize the load restoration under contingencies. The proposed methodology is verified on a three-island system. It can be concluded that under normal operation, the proposed voyage scheduling can reduce the total energy consumption cost of the AESs and the islands. Besides, the voltage violation can be improved. Under the emergency, the proposed method can help the grids restore more critical and normal loads. © 2022 IEEE.

AB - Maritime transportation takes a major responsibility in public travel between islands while producing a large quantity of greenhouse gas (GHG) emissions. All-electric ships (AESs) can be applied to mitigate GHG emissions through energy storage systems (ESS), renewable integration, and cold ironing. In this paper, we propose a flexible voyage scheduling strategy for AESs based on the temporal-spatial dynamics (TSD) to satisfy the transportation demand while mitigating the burden of the AESs on the power grids during charging. The interaction between the AESs and island-based microgrids is modeled. Furthermore, the AESs are utilized to enhance the resilience of the power grids. The AESs can be dispatched to realize the load restoration under contingencies. The proposed methodology is verified on a three-island system. It can be concluded that under normal operation, the proposed voyage scheduling can reduce the total energy consumption cost of the AESs and the islands. Besides, the voltage violation can be improved. Under the emergency, the proposed method can help the grids restore more critical and normal loads. © 2022 IEEE.

KW - All-electric ships

KW - flexible voyage scheduling

KW - load restoration

KW - power resilience

KW - temporal-spatial dynamics

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DO - 10.1109/TITS.2022.3226449

M3 - RGC 21 - Publication in refereed journal

SN - 1524-9050

VL - 24

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EP - 3222

JO - IEEE Transactions on Intelligent Transportation Systems

JF - IEEE Transactions on Intelligent Transportation Systems

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ER -

Flexible Voyage Scheduling and Coordinated Energy Management Strategy of All-Electric Ships and Seaport Microgrid

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Research Keywords

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