Investigating Fuel Injection Strategies to Enhance Ship Energy Efficiency in Wave Conditions

IF 2 3区工程技术 Q2 ENGINEERING, MARINE

Polish Maritime Research Pub Date : 2024-03-01 DOI:10.2478/pomr-2024-0009

Hossein Ghaemi, H. Zeraatgar, Mojtaba Barjasteh

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Abstract

The prediction of fuel consumption and resulting transportation costs is a crucial stage in ship design, particularly for conditions involving motion in waves. This study investigates the real-time fuel consumption of a container ship when sailing in waves. The overall ship performance is evaluated using a novel non-linear coupled hull-engine-propeller interaction model. A series of towing tank experiments for hull resistance in waves and propeller performance are conducted. The ship engine is mathematically modelled by a quasi-steady-state model equipped with a linear Proportional-Integrator (PI) governor. Various scenarios of shipping transportation are studied, and the resulting instantaneous fuel consumptions and their correlation to other dynamic particulars are demonstrated. Additionally, daily fuel consumption and fuel cost per voyage distance are presented. It is also shown that the controller can effectively adjust the fuel rate, resulting in minimum fuel consumption. The study concludes that there is no correlation between fuel consumption and the frequency of fuel rates. The present framework and mathematical model can also be employed for ship design and existing ships to predict the total required energy per voyage.

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研究在波浪条件下提高船舶能效的燃料喷射策略

预测燃料消耗和由此产生的运输成本是船舶设计的关键阶段，尤其是在波浪中航行的情况下。本研究调查了一艘集装箱船在波浪中航行时的实时油耗。使用新型非线性耦合船体-发动机-螺旋桨相互作用模型对船舶的整体性能进行了评估。对波浪中的船体阻力和螺旋桨性能进行了一系列拖曳试验。船体发动机通过配备线性比例积分器（PI）调速器的准稳态模型进行数学建模。研究了航运运输的各种情况，并展示了由此产生的瞬时油耗及其与其他动态特性的相关性。此外，还介绍了每航程的日耗油量和燃油成本。研究还表明，控制器可以有效地调整燃油率，从而将燃油消耗降至最低。研究得出结论，耗油量与燃油率频率之间没有相关性。本框架和数学模型还可用于船舶设计和现有船舶，以预测每次航行所需的总能量。

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

Polish Maritime Research 工程技术-工程：海洋

CiteScore

3.70

自引率

45.00%

发文量

审稿时长

>12 weeks

期刊介绍： The scope of the journal covers selected issues related to all phases of product lifecycle and corresponding technologies for offshore floating and fixed structures and their components. All researchers are invited to submit their original papers for peer review and publications related to methods of the design; production and manufacturing; maintenance and operational processes of such technical items as: all types of vessels and their equipment, fixed and floating offshore units and their components, autonomous underwater vehicle (AUV) and remotely operated vehicle (ROV). We welcome submissions from these fields in the following technical topics: ship hydrodynamics: buoyancy and stability; ship resistance and propulsion, etc., structural integrity of ship and offshore unit structures: materials; welding; fatigue and fracture, etc., marine equipment: ship and offshore unit power plants: overboarding equipment; etc.