The numerical investigation of spindle torque for a controllable pitch propeller in feathering maneuver

IF 3.9 4区工程技术 Q1 ENGINEERING, MARINE

Brodogradnja Pub Date : 2023-04-01 DOI:10.21278/brod74205

A. Yurtseven, Kaan Aktay

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引用次数: 1

Abstract

Present paper studies the variation of the blade spindle torque in a controllable pitch propeller (CPP) during the feathering maneuver, which is one of the rare but most challenging propeller maneuvers in CPP operation. The knowledge of the spindle torque under different operating conditions is one of the key features for the CPP controller unit design. The aim of this study is determining the forces needed to be governed to control the blade motion of a CPP converted from a fixed pitch propeller and the scale effect on these forces. So as to obtain a realistic numerical setup, the time-dependent superposed motion of the main rotation of the propeller and the rotation of each blade around its axis is modeled using a hybrid overset/sliding mesh technique. The spindle torque values were calculated during the dynamical variation of the blade pitch in feathering maneuver, and a novel expression is recommended to non-dimensionalize the predicted spindle torque. The result revealed that the required torque values to rotate each blade during the propeller maneuver is rising up to a critical pitch angle. Further increment of the pitch angle results in lower spindle torque values. Furthermore, this critical pitch angle is inversely proportional to the propeller loading.

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可调螺距螺旋桨顺桨操纵时主轴转矩的数值研究

本文研究了可调螺距螺旋桨（CPP）在顺桨机动过程中叶片主轴转矩的变化，这是CPP操作中罕见但最具挑战性的螺旋桨机动之一。了解不同操作条件下的主轴扭矩是CPP控制器单元设计的关键特征之一。本研究的目的是确定控制由固定螺距螺旋桨转换而来的CPP叶片运动所需的力，以及对这些力的比例效应。为了获得真实的数值设置，使用混合重叠/滑动网格技术对螺旋桨的主旋转和每个叶片绕其轴线的旋转的时间相关叠加运动进行建模。在顺桨机动中，计算了叶片桨距动态变化过程中的主轴转矩值，并推荐了一种新的表达式来无量纲化预测的主轴转矩。结果表明，在螺旋桨操纵过程中，旋转每个叶片所需的扭矩值正在上升到临界桨距角。桨距角的进一步增加会导致主轴扭矩值降低。此外，这个临界桨距角与螺旋桨载荷成反比。

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

Brodogradnja ENGINEERING, MARINE-

CiteScore

4.30

自引率

38.90%

发文量

审稿时长

>12 weeks

期刊介绍： The journal is devoted to multidisciplinary researches in the fields of theoretical and experimental naval architecture and oceanology as well as to challenging problems in shipbuilding as well shipping, offshore and related shipbuilding industries worldwide. The aim of the journal is to integrate technical interests in shipbuilding, ocean engineering, sea and ocean shipping, inland navigation and intermodal transportation as well as environmental issues, overall safety, objects for wind, marine and hydrokinetic renewable energy production and sustainable transportation development at seas, oceans and inland waterways in relations to shipbuilding and naval architecture. The journal focuses on hydrodynamics, structures, reliability, materials, construction, design, optimization, production engineering, building and organization of building, project management, repair and maintenance planning, information systems in shipyards, quality assurance as well as outfitting, powering, autonomous marine vehicles, power plants and equipment onboard. Brodogradnja publishes original scientific papers, review papers, preliminary communications and important professional papers relevant in engineering and technology.

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