An Evaluation of Planing Boat Trim Measurements

Day 1 Wed, October 04, 2017 Pub Date : 2017-10-04 DOI:10.5957/attc-2017-0025

Carolyn Q. Judge, B. Beaver, John Zseleczk

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引用次数: 1

Abstract

The resistance of a planing hull is known to be highly dependent on trim angle. For several reasons, trim is difficult to measure to the level of accuracy normally attained with other towing tank measurements such as resistance or speed. In a recent study intended to validate CFD methods for planing hulls, 4’ and 8’ long geosim models of the Generic Prismatic Planing Hull (GPPH) were built and tested at USNA. Significant differences were found between the trim of the two models so a separate test program was conducted which focused specifically on the trim measurement of these two models in calm water. Five different trim measurement methods were used simultaneously on one model and then used again on the other model. Trim angles were compared between measurement methods and between models. Trim measurements with the same model agreed well and are the basis for an evaluation of measurement methods. The trim measured on the two different size models did not agree well even though the same instruments were used in most cases. The paper discusses reasons for the confirmed differences in calm water running trim of the two models and suggests ways to take advantage of this knowledge to make the best use of towing tank tests for planing boat performance prediction.

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刨船纵倾测量的评价

众所周知，船体的阻力高度依赖于纵倾角。由于几个原因，修剪是很难测量的精度水平通常达到其他拖曳箱测量，如阻力或速度。在最近的一项研究中，为了验证船体的CFD方法，在USNA建立了4 '和8 '长的通用棱柱形船体(GPPH)的geosim模型并进行了测试。在两种模型的内饰之间发现了显著的差异，因此进行了一个单独的测试程序，专门针对这两种模型在平静水中的内饰测量。在一个模型上同时使用五种不同的内饰测量方法，然后在另一个模型上再次使用。比较了不同测量方法和不同模型之间的修剪角。同一模型的内饰测量一致，是评估测量方法的基础。即使在大多数情况下使用相同的仪器，在两种不同尺寸的模型上测量的修剪也不太一致。本文讨论了两种模型在静水运行中存在差异的原因，并提出了利用这一知识的方法，以充分利用拖曳舱试验来预测刨船性能。

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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Day 1 Wed, October 04, 2017

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