Multi-lateral ocean voyage optimization for cargo vessels as a decarbonization method

Inkyung Sung; Haris Zografakis; Peter Nielsen

doi:10.1016/j.trd.2022.103407

Multi-lateral ocean voyage optimization for cargo vessels as a decarbonization method

Inkyung Sung^*, Haris Zografakis, Peter Nielsen

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

18 Citations (Scopus)

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Abstract

To address the operational inefficiency in maritime cargo transport caused by the traditional Sail Fast Then Wait (SFTW) practice, we propose a systemic optimization approach that organizes vessels sailing towards the same port so that their arrival at the anchorage is synchronized with the capacity of the port to receive vessels at berth from the anchorage. A solution procedure with a quadratic program is implemented and tested using a sample of about 14,000 voyages from Automatic Identification System (AIS) data in 2018. From the analysis, the proposed approach produces 9% of fuel savings per voyage, on average, while minimizing the demand–supply imbalance levels at the ports. The proposed approach also keeps the arrival order of vessels at ports as if they had sailed with SFTW practice, which is necessary so as to encourage agreement on the proposed approach from the stakeholders in the maritime industry.

Original language	English
Article number	103407
Journal	Transportation Research Part D: Transport and Environment
Volume	110
ISSN	1361-9209
DOIs	https://doi.org/10.1016/j.trd.2022.103407
Publication status	Published - Sept 2022

Keywords

Decarbonization
Just-in-Time
Maritime shipping
Multi-lateral voyage optimization
System optimization
Virtual Arrival

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title = "Multi-lateral ocean voyage optimization for cargo vessels as a decarbonization method",

abstract = "To address the operational inefficiency in maritime cargo transport caused by the traditional Sail Fast Then Wait (SFTW) practice, we propose a systemic optimization approach that organizes vessels sailing towards the same port so that their arrival at the anchorage is synchronized with the capacity of the port to receive vessels at berth from the anchorage. A solution procedure with a quadratic program is implemented and tested using a sample of about 14,000 voyages from Automatic Identification System (AIS) data in 2018. From the analysis, the proposed approach produces 9% of fuel savings per voyage, on average, while minimizing the demand–supply imbalance levels at the ports. The proposed approach also keeps the arrival order of vessels at ports as if they had sailed with SFTW practice, which is necessary so as to encourage agreement on the proposed approach from the stakeholders in the maritime industry.",

keywords = "Decarbonization, Just-in-Time, Maritime shipping, Multi-lateral voyage optimization, System optimization, Virtual Arrival",

author = "Inkyung Sung and Haris Zografakis and Peter Nielsen",

year = "2022",

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doi = "10.1016/j.trd.2022.103407",

language = "English",

volume = "110",

journal = "Transportation Research Part D: Transport and Environment",

issn = "1361-9209",

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T1 - Multi-lateral ocean voyage optimization for cargo vessels as a decarbonization method

AU - Sung, Inkyung

AU - Zografakis, Haris

AU - Nielsen, Peter

PY - 2022/9

Y1 - 2022/9

N2 - To address the operational inefficiency in maritime cargo transport caused by the traditional Sail Fast Then Wait (SFTW) practice, we propose a systemic optimization approach that organizes vessels sailing towards the same port so that their arrival at the anchorage is synchronized with the capacity of the port to receive vessels at berth from the anchorage. A solution procedure with a quadratic program is implemented and tested using a sample of about 14,000 voyages from Automatic Identification System (AIS) data in 2018. From the analysis, the proposed approach produces 9% of fuel savings per voyage, on average, while minimizing the demand–supply imbalance levels at the ports. The proposed approach also keeps the arrival order of vessels at ports as if they had sailed with SFTW practice, which is necessary so as to encourage agreement on the proposed approach from the stakeholders in the maritime industry.

AB - To address the operational inefficiency in maritime cargo transport caused by the traditional Sail Fast Then Wait (SFTW) practice, we propose a systemic optimization approach that organizes vessels sailing towards the same port so that their arrival at the anchorage is synchronized with the capacity of the port to receive vessels at berth from the anchorage. A solution procedure with a quadratic program is implemented and tested using a sample of about 14,000 voyages from Automatic Identification System (AIS) data in 2018. From the analysis, the proposed approach produces 9% of fuel savings per voyage, on average, while minimizing the demand–supply imbalance levels at the ports. The proposed approach also keeps the arrival order of vessels at ports as if they had sailed with SFTW practice, which is necessary so as to encourage agreement on the proposed approach from the stakeholders in the maritime industry.

KW - Decarbonization

KW - Just-in-Time

KW - Maritime shipping

KW - Multi-lateral voyage optimization

KW - System optimization

KW - Virtual Arrival

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U2 - 10.1016/j.trd.2022.103407

DO - 10.1016/j.trd.2022.103407

M3 - Journal article

SN - 1361-9209

VL - 110

JO - Transportation Research Part D: Transport and Environment

JF - Transportation Research Part D: Transport and Environment

M1 - 103407

ER -

Multi-lateral ocean voyage optimization for cargo vessels as a decarbonization method

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Keywords

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