CD Model Ice - Preliminary Observations on the Effect of Density on Tank Testing

Day 1 Thu, June 11, 1992 Pub Date : 1992-06-11 DOI:10.5957/attc-1992-032

D. Spencer

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Abstract

A brief description of the apparatus for producing controllable density (CD) model ice is given. Ice density is shown to affect nearly all aspects of ice tank testing. Some preliminary results are given for ice-propeller interaction, presawn ice resistance, rubble ice resistance and level ice resistance. The level of ice-propeller interaction is reduced using low density level ice primarily by increasing the minimum model speed before ice in ingested in to the propellers. This leads to a significant reduction in propeller milling at low speed. Rubble ice resistance is shown to be dominated by the ice buoyancy with an approximate 400% increase in resistance as ice density was reduced from 930 kg/m3 to 750 kg/m3. Presawn ice resistance has a buoyancy dependent component which is important at low speed. Ice buoyancy is seen to significantly increase this component. The effect of ice density on level ice resistance is quite insidious in that it can alter the icebreaking process significantly increasing the resistance of certain bow forms. The increased buoyancy of the broken ice cusps causes them to float higher as they are rotated by the advancing bow. These pieces may then have a higher incidence of jamming between the hull and the unbroken ice sheet leading to crushing events and large loads in the shoulder region.

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CD模型冰——密度对储罐试验影响的初步观察

简要介绍了一种制备可控密度模型冰的装置。冰的密度几乎影响到冰罐试验的所有方面。给出了冰-螺旋桨相互作用、现生冰阻力、碎石冰阻力和水平冰阻力的一些初步结果。使用低密度冰，主要通过增加冰进入螺旋桨之前的最小模型速度来降低冰-螺旋桨相互作用的水平。这导致在低速螺旋桨铣削显著减少。当冰密度从930 kg/m3减少到750 kg/m3时，碎石冰阻力主要由冰浮力决定，阻力增加了大约400%。现生冰阻力与浮力有关，这在低速时很重要。冰的浮力明显地增加了这个分量。冰密度对水平冰阻力的影响是相当隐蔽的，因为它可以显著改变破冰过程，增加某些弓形的阻力。破碎的冰尖的浮力增加，使它们在前进的船首的旋转下漂浮得更高。这些碎片可能会在船体和未破碎的冰盖之间产生更高的干扰发生率，从而导致压碎事件和肩部区域的大负荷。

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 Thu, June 11, 1992

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