研究高压水射流除冰参数的影响

IF 3.8 2区工程技术 Q1 ENGINEERING, CIVIL

Cold Regions Science and Technology Pub Date : 2024-07-20 DOI:10.1016/j.coldregions.2024.104277

Emmanuel Junior Arhin , Yuri Muzychka , Baafour Nyantekyi-Kwakye

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引用次数: 0

摘要

在冬季或极端寒冷的气候条件下，甲板、舱壁和近海结构上的积冰会影响海上作业。在大多数情况下，海上船舶除冰的传统方法是人力作业，这需要付出巨大的努力和漫长的时间，但效果却不尽如人意，尤其是在冰附着强度较高的情况下。本研究通过实验研究了操作参数对切割冰块的深度和宽度的综合影响，这些参数包括工作泵压力、喷嘴几何形状、水射流温度、间距和切割时间。与其他参数相比，喷嘴几何形状对切割宽度和深度的影响更为显著，R 方值分别为 85% 和 62%。增加切割深度和宽度有利于铝模上冰的分层和分解。这表明在海运船舶上喷水除冰是有效的，从而实现了本研究的目标。通过对操作参数的优化，制定了适用于不同厚度的船舶积冰的可切割性图表。

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Investigating the effect of deicing parameters using high-pressure water jet

Maritime operations are impacted by ice accretion on decks, bulkheads, and offshore structures during the winter or in extremely frigid climates. In most cases, the traditional method of deicing maritime vessels is human labor, which requires enormous effort and lengthy hours for unsatisfactory results, particularly when the ice adhesion strength is high. This study experimentally examined combined effects of operational parameters, including operating pump pressure, nozzle geometry, water jet temperature, standoff distance, and time of cut, on the depth and width of a cut through an ice block. In comparison to other parameters, the influence of nozzle geometry on both the width and depth of cut was found to be more significant, with R-squared values of 85% and 62% respectively. Increasing the depth and width of the cut facilitated the delamination and disintegration of ice from an aluminum mold. This indicates that water jet deicing on maritime vessels could be effective, therefore achieving the objective of this study. The optimization of operational parameters is used to develop a cuttability chart for various thicknesses of accumulated ice on marine vessels.

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来源期刊

Cold Regions Science and Technology 工程技术-地球科学综合

CiteScore

7.40

自引率

12.20%

发文量

209

审稿时长

4.9 months

期刊介绍： Cold Regions Science and Technology is an international journal dealing with the science and technical problems of cold environments in both the polar regions and more temperate locations. It includes fundamental aspects of cryospheric sciences which have applications for cold regions problems as well as engineering topics which relate to the cryosphere. Emphasis is given to applied science with broad coverage of the physical and mechanical aspects of ice (including glaciers and sea ice), snow and snow avalanches, ice-water systems, ice-bonded soils and permafrost. Relevant aspects of Earth science, materials science, offshore and river ice engineering are also of primary interest. These include icing of ships and structures as well as trafficability in cold environments. Technological advances for cold regions in research, development, and engineering practice are relevant to the journal. Theoretical papers must include a detailed discussion of the potential application of the theory to address cold regions problems. The journal serves a wide range of specialists, providing a medium for interdisciplinary communication and a convenient source of reference.