Economic Analysis and the EEXI Reduction Potential of Parallel Hybrid Dual-Fuel Engine‒Fuel Cell Propulsion Systems for LNG Carriers

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Nader R. Ammar, Majid Almas, Qusai Nahas
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引用次数: 0

Abstract

Abstract One potential solution for reducing carbon dioxide emissions from ships and meeting the Energy Efficiency Existing Ship Index (EEXI) requirements is to use a hybrid propulsion system that combines liquid hydrogen and liquefied natural gas fuels. To improve energy efficiency for diesel-electric dual-fuel ship propulsion systems, an engine power limitation system can also be used. This paper examines the potential use of these systems with regard to several factors, including compliance with EEXI standards set by the International Maritime Organization, fuel ratio optimisation, installation requirements, and economic feasibility. As a case study, an LNG carrier is analysed, with dual-fuel diesel-electric and two hybrid systems adjusted to meet IMO-EEXI requirements with engine power limitation percentages of 25%, 0% (hybrid option 1), and 15% (hybrid option 2), respectively. From an economic standpoint, the liquid hydrogen-based system has competitive costs compared to the dual-fuel diesel-electric system, with costs of 2.1 and 2.5 dollars per kilogram for hybrid system options 1 and 2, respectively.
LNG运输船并联混合动力双燃料发动机-燃料电池推进系统的经济性分析及降低EEXI的潜力
减少船舶二氧化碳排放并满足现有船舶能效指数(EEXI)要求的一个潜在解决方案是使用结合液态氢和液化天然气燃料的混合动力推进系统。为了提高柴电双燃料船舶推进系统的能源效率,还可以采用发动机功率限制系统。本文从几个方面考察了这些系统的潜在用途,包括符合国际海事组织制定的EEXI标准、燃料比优化、安装要求和经济可行性。作为案例研究,LNG运输船进行了分析,双燃料柴油-电力和两个混合动力系统进行了调整,以满足IMO-EEXI要求,发动机功率限制百分比分别为25%,0%(混合动力选项1)和15%(混合动力选项2)。从经济角度来看,混合动力系统1和2的成本分别为每公斤2.1美元和2.5美元,与双燃料柴油-电力系统相比,液态氢系统具有竞争力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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