Pre- and post-swirl fins design for improved propulsive performances

IF 1.4 Q3 ENGINEERING, MARINE Ship Technology Research Pub Date : 2021-06-01 DOI:10.1080/09377255.2021.1934362
S. Gaggero, M. Martinelli
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引用次数: 2

Abstract

ABSTRACT Pre- and post-swirl fins-based energy-saving devices (ESD) are designed to improve the propulsive performances of a twin-screw ship. To this aim, BEM and RANSE calculations are employed. Depending on the application, a simple actuator disc model (post-swirl) with radially varying load or a combined BEM/RANSE method for self-propulsion prediction (pre-swirl) are required. Both the approaches are included in a framework for a design by optimization, where systematic variations of the ESD geometry are used to explore the design space and maximize the energy-saving effect of the devices. Considering the particularity of the case selected for the study, results show encouraging improvements that reach a promising 5% in the case of the combined action of both devices.
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涡流前和涡流后翅片设计可提高推进性能
摘要为了改善双螺旋桨船舶的推进性能,设计了基于前旋流和后旋流翅片的节能装置。为此,采用BEM和RANSE计算。根据应用情况,需要具有径向变化负载的简单致动器盘模型(后涡流)或用于自推进预测的BEM/RANSE组合方法(前涡流)。这两种方法都包含在优化设计的框架中,其中ESD几何形状的系统变化用于探索设计空间并最大限度地提高设备的节能效果。考虑到为研究选择的病例的特殊性,结果显示,在两种装置联合作用的情况下,令人鼓舞的改善达到了有希望的5%。
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来源期刊
Ship Technology Research
Ship Technology Research ENGINEERING, MARINE-
CiteScore
4.90
自引率
4.50%
发文量
10
期刊最新文献
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