A sensitivity analysis of the voyage adjustment for sailing in ice of the Carbon Intensity Indicator regulation

From National Research Council Canada

DOI	Resolve DOI: https://doi.org/10.1115/OMAE2024-121555
Author	Search for: Tran, Trung Tien ORCID identifier: https://orcid.org/0009-0002-8754-7166; Search for: Browne, Thomas¹ORCID identifier: https://orcid.org/0000-0003-4568-1252; Search for: Veitch, Brian ORCID identifier: https://orcid.org/0000-0001-5450-4587
Affiliation	National Research Council of Canada. Ocean, Coastal and River Engineering
Format	Text, Article
Conference	43rd International Conference on Ocean, Offshore and Arctic Engineering (OMAE 2024), June 9-14, 2024, Singapore, Singapore
Subject	carbon intensity indicator; CII; sailing in ice conditions; route optimization
Abstract	The Carbon Intensity Indicator (CII) regulation came into force in 2023 with the objective of reducing greenhouse gas emissions in the maritime industry. Ice-classed vessels sailing in ice have been granted a voyage adjustment in the CII regulation. The voyage adjustment allows ice-classed vessels to exclude from the calculation of CII the part of any voyage that constitutes sailing in ice. The current study examines a sensitivity analysis of definitions for sailing in ice conditions. Sailing in ice is defined in the current regulation as an ice-classed vessel operating in a sea area within the ice edge. Alternative definitions have been considered which are more specific in terms of concentration and thickness of the ice field where the vessel operates. We present a case study of a conventional diesel-powered bulk carrier with ice class IA Super on a voyage in the Canadian Arctic. Routing of the vessel is optimized based on an assumed rewards function, a routing algorithm, and a ship performance model. We compare the routes selected under different definitions of “sailing in ice conditions”. The results show that different definitions of sailing in ice conditions lead to different optimal routes for the vessel, some of which are more effective than others in meeting the IMO’s strategic objective of reducing emissions.
Publication date	2024-08-09
Publisher	American Society of Mechanical Engineers
In	Proceedings of the ASME 2024, 43rd International Conference on Ocean, Offshore and Arctic Engineering. Volume 6: Polar and Arctic Sciences and Technology; CFD, FSI, and AI, OMAE2024-121555, V006T07A002 (9 August 2024): 1–7.
Language	English
Peer reviewed	Yes
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Record identifier	104554d9-8035-48f3-8260-29c8de42ddec
Record created	2024-09-26
Record modified	2024-10-01

Date modified:: 2024-10-18