不同类型船舶碳捕集与封存系统的热经济与环境性能分析

IF 4.6 3区工程技术 Q2 ENERGY & FUELS

International Journal of Greenhouse Gas Control Pub Date : 2025-06-12 DOI:10.1016/j.ijggc.2025.104415

Engin Güler , Selma Ergin

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引用次数: 0

摘要

航运业面临着越来越多的减少环境足迹的需求。国际海事组织针对这一需求制定了严格的规定，并将在不久的将来生效。这就需要采用创新的解决方案来减少船上的二氧化碳排放。碳捕获和储存（CCS）系统可以在陆地设施中减少超过90%的二氧化碳，对于船舶来说也很有希望。通过考虑本研究中船舶的操作概况和具体情况，对不同类型船舶的CCS系统进行了热经济和环境性能分析。结果表明，如果仅利用废热进行CO2再生，不同船型的CCS系统可以捕获30-55%的CO2。根据船型的不同，CCS系统的生命周期成本在79.2-344美元/吨二氧化碳之间，液化天然气运输船被确定为最可行的船型。通过降低CCS系统设计中的最大归一化发动机负载值，可能会降低17.9%的成本，而kamsarmax型散货船则需要减少3.45%的二氧化碳排放。

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Thermo-economic and environmental performance analysis of Carbon capture and storage systems for different types of ships

The shipping industry faces increasing demands to decrease its environmental footprint. The International Maritime Organization has introduced strict regulations regarding this demand, which will come into force in the near future. This requires the adoption of innovative solutions to mitigate CO₂ emissions on board. The carbon capture and storage (CCS) system, which provides CO₂ reduction that can exceed 90% in land facilities, may also be promising for ships. Thermo-economic and environmental performance analyses of CCS systems for different types of ships have been carried out by considering the operational profiles and particulars of the vessels in this study. Results show that the CCS systems for different ship types can capture between 30-55% CO₂ if only waste heat is used in CO₂ regeneration. The life cycle cost of the CCS system varies between 79.2-344 $/ton CO₂ depending on the ship type, and liquefied natural gas carriers have been determined to be the most feasible ship type. By reducing the maximum normalized engine load value in the design of the CCS system, it is probable to decrease costs by 17.9% against a 3.45% CO₂ reduction penalty for a Kamsarmax-type bulk carrier ship.

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来源期刊

International Journal of Greenhouse Gas Control 环境科学-工程：环境

CiteScore

9.20

自引率

10.30%

发文量

199

审稿时长

4.8 months

期刊介绍： The International Journal of Greenhouse Gas Control is a peer reviewed journal focusing on scientific and engineering developments in greenhouse gas control through capture and storage at large stationary emitters in the power sector and in other major resource, manufacturing and production industries. The Journal covers all greenhouse gas emissions within the power and industrial sectors, and comprises both technical and non-technical related literature in one volume. Original research, review and comments papers are included.