AN EXPLORATORY STUDY ON THE WORKING PRINCIPLES OF ENERGY SAVING DEVICES (ESDS) - PIV, CFD INVESTIGATIONS AND ESD DESIGN GUIDELINES

机译：节能设备工作原理（ESDS） - PIV，CFD调查和ESD设计指南的探索性研究

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The Maritime Research Institute Netherlands (MARIN) has recently started a Joint Industry Project (JIP) called ESD-JILI, investigating the working principles of energy saving devices (ESDs). Within the framework of this JIP, three ESDs have been selected and thoroughly investigated. They are a Pre-Duct with an inner Stator (PDS), a Pre-Swirl Stator (PSS) with asymmetric blade design and Hub Fins (HFs). The investigations have been carried out by using dedicated force and moment sensors to measure all the components of the ESDs independently during the propulsion tests, by using Particle Image Velocimetry (PIV) to measure the flow before, in-plane and behind the propeller and the ESDs, and by using Smart Ship Model technology (Wijngaarden 2011) to simulate the full-scale wake field during the model tests to gain insights on scale effects of the ESDs. At the same time, computational fluid dynamics (CFD) calculations are also carried out in order to further deepen the understanding of the working principles of the selected ESDs, and to assist the ESDs designs under certain guidelines. Some of the results of the study have been published to the Greenship'2011 Conference (Dang et al 2011). The flow details around the propulsion system with the PDS, which were obtained by both PIV measurements and CFD calculations, and the energy balance of the ship-propulsion system with a PDS are further investigated and reported here. Based on the results of the studies, the principle guidelines for ESD designs for single screw merchant ships have been proposed.

机译：海事研究所荷兰（Marin）最近启动了一个名为ESD-Jili的联合行业项目（JIP），调查了节能设备的工作原则（ESDS）。在此JIP的框架内，已选择并彻底调查了三个ESD。它们是具有内定子（PDS）的预防管，具有不对称叶片设计和轮毂鳍（HFS）的预旋流定子（PSS）。通过使用粒子图像Velocimetry（PIV）在推进试验期间使用专用力和时刻传感器来测量ESDS的所有组分来进行调查，以使用粒子图像VELOCIMETRY（PIV）以测量之前，面内和螺旋桨后面的流动ESDS，通过使用智能船型技术（Wijgaarden 2011）来模拟模型测试期间的全尺寸唤醒字段，以获得对ESDS规模效应的见解。同时，还执行计算流体动力学（CFD）计算，以进一步加深对所选ESD的工作原理的理解，并在某些指南下协助ESDS设计。该研究的一些结果已发表于Greenship'2011会议（Dang等，2011年）。通过PIV测量和CFD计算的PDS围绕推进系统的流动细节以及通过PDS的船舶推进系统的能量平衡进行进一步研究并在此报告。根据研究结果，提出了单螺杆商船的ESD设计原则指导。

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《ASME international conference on ocean, offshore and arctic engineering》|2012年||共10页
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作者
Jie Dang; Guoxiang Dong; Hao Chen;
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正文语种
中图分类海洋工程;
关键词
Energy Saving Devices; Propulsion; Efficiency; PIV; CFD;

机译：节能装置;推进;效率;PIV;CFD;

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2. Hydrodynamic working principles of Energy Saving Devices in ship propulsion systems [J] . Schuiling Bart, van Terwisga Tom International Shipbuilding Progress . 2017,第3a4期

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3. Compact Equivalent-Circuit Model for Snap-Back Phenomena in Ultra-Thin SOI MOSFET's and Practical Guideline for ESD-Protection Device Design [J] . Yoichi SHIWAYA, Yasuhisa OMURA Technology Reports of Kansai University . 2007,第49期

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5. AN EXPLORATORY STUDY ON THE WORKING PRINCIPLES OF ENERGY SAVING DEVICES (ESDS) - PIV, CFD INVESTIGATIONS AND ESD DESIGN GUIDELINES [C] . Jie Dang, Guoxiang Dong, Hao Chen ASME international conference on ocean, offshore and arctic engineering . 2012

机译：节能设备（ESD）工作原理的探索性研究-PIV，CFD调查和ESD设计指南
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AN EXPLORATORY STUDY ON THE WORKING PRINCIPLES OF ENERGY SAVING DEVICES (ESDS) - PIV, CFD INVESTIGATIONS AND ESD DESIGN GUIDELINES

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