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The effects of slow steaming on the environmental performance in liner shipping

Author

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  • Jong-Kyun Woo
  • Daniel Seong-Hyeok Moon

Abstract

The environment issue is one of the significant challenges that the liner shipping industry has to face. The International Maritime Organization (IMO) has set a goal to reduce greenhouse gas (GHG) emissions from existing vessels by 20-50% by 2050 and develop the Energy Efficiency Operational Indicator (EEOI) as a measure for energy efficiency. To achieve this goal, IMO has suggested three basic approaches: the enlargement of vessel size, the reduction of voyage speed, and the application of new technologies. In recent times, liners have adopted slow steaming and decelerated the voyage speed to 15-18 knots on major routes. This is because slow steaming is helpful in reducing operating costs and GHG emissions. However, it also creates negative effects that influence the operating costs and the amount of GHG emissions at the same time.This study started with the basic question: Is it true that as voyage speed reduces, the operating costs and CO 2 emissions can be reduced at the same time? If this is true, liners will definitely decelerate their voyage speed themselves as much as possible so that they can increase their profits and improve the level of environmental performance. However, if this is not true, then liners will concentrate just on increasing their profits by not considering environmental factors. This led the authors to set out three objectives: (1) to analyze the relationship between voyage speed and the amount of CO 2 emissions and to estimate the changes by slow steaming in liner shipping; (2) to analyze the relationship between voyage speed and the operating costs on a loop; and (3) to find the optimal voyage speed as a solution to maximize the reduction of CO 2 emissions at the lowest operating cost, thus satisfying the reduction target of IMO.

Suggested Citation

  • Jong-Kyun Woo & Daniel Seong-Hyeok Moon, 2014. "The effects of slow steaming on the environmental performance in liner shipping," Maritime Policy & Management, Taylor & Francis Journals, vol. 41(2), pages 176-191, March.
    • Handle: RePEc:taf:marpmg:v:41:y:2014:i:2:p:176-191
    DOI: 10.1080/03088839.2013.819131
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    Citations

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    Cited by:

    1. Xiaoqiao Geng & Yuanqiao Wen & Chunhui Zhou & Changshi Xiao, 2017. "Establishment of the Sustainable Ecosystem for the Regional Shipping Industry Based on System Dynamics," Sustainability, MDPI, vol. 9(5), pages 1-18, May.
    2. Nguyen Khoi Tran & Hans-Dietrich Haasis & Tobias Buer, 2017. "Container shipping route design incorporating the costs of shipping, inland/feeder transport, inventory and CO2 emission," Maritime Economics & Logistics, Palgrave Macmillan;International Association of Maritime Economists (IAME), vol. 19(4), pages 667-694, December.
    3. Fan, Lixian & Gu, Bingmei & Luo, Meifeng, 2020. "A cost-benefit analysis of fuel-switching vs. hybrid scrubber installation: A container route through the Chinese SECA case," Transport Policy, Elsevier, vol. 99(C), pages 336-344.
    4. Zheng Wan & Jiawei Ge & Jihong Chen, 2018. "Energy-Saving Potential and an Economic Feasibility Analysis for an Arctic Route between Shanghai and Rotterdam: Case Study from China’s Largest Container Sea Freight Operator," Sustainability, MDPI, vol. 10(4), pages 1-13, March.
    5. Dan Zhuge & Shuaian Wang & Lu Zhen & Gilbert Laporte, 2021. "Subsidy design in a vessel speed reduction incentive program under government policies," Naval Research Logistics (NRL), John Wiley & Sons, vol. 68(3), pages 344-358, April.
    6. Peter Andersson & Pernilla Ivehammar, 2017. "Dynamic route planning in the Baltic Sea Region – A cost-benefit analysis based on AIS data," Maritime Economics & Logistics, Palgrave Macmillan;International Association of Maritime Economists (IAME), vol. 19(4), pages 631-649, December.
    7. Yi-Hui Liao & Hsuan-Shih Lee, 2023. "Using a Directional Distance Function to Measure the Environmental Efficiency of International Liner Shipping Companies and Assess Regulatory Impact," Sustainability, MDPI, vol. 15(4), pages 1-13, February.
    8. Jae-Ung Lee & Won-Ju Lee & Eun-Seok Jeong & Jung-Ho Noh & Jong-Sung Kim & Ji-Woong Lee, 2022. "Algorithm for Monitoring Emissions Based on Actual Speed of Ships Participating in the Korean Vessel Speed Reduction Program," Energies, MDPI, vol. 15(24), pages 1-24, December.
    9. Hui-Huang Tai & Yun-Hua Chang, 2022. "Reducing pollutant emissions from vessel maneuvering in port areas," Maritime Economics & Logistics, Palgrave Macmillan;International Association of Maritime Economists (IAME), vol. 24(3), pages 651-671, September.
    10. Riccardo Giusti & Daniele Manerba & Roberto Tadei, 2021. "Smart Steaming: A New Flexible Paradigm for Synchromodal Logistics," Sustainability, MDPI, vol. 13(9), pages 1-21, April.
    11. Patrizia Serra & Gianfranco Fancello, 2020. "Towards the IMO’s GHG Goals: A Critical Overview of the Perspectives and Challenges of the Main Options for Decarbonizing International Shipping," Sustainability, MDPI, vol. 12(8), pages 1-32, April.
    12. Finnsgård, Christian & Kalantari, Joakim & Roso, Violeta & Woxenius, Johan, 2020. "The Shipper's perspective on slow steaming - Study of Six Swedish companies," Transport Policy, Elsevier, vol. 86(C), pages 44-49.
    13. Wu, Wei-Ming, 2020. "The optimal speed in container shipping: Theory and empirical evidence," Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 136(C).
    14. Mansouri, S. Afshin & Lee, Habin & Aluko, Oluwakayode, 2015. "Multi-objective decision support to enhance environmental sustainability in maritime shipping: A review and future directions," Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 78(C), pages 3-18.

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