Experimental Study on Freezing of Saltwater Droplets on Typical Marine Metal Surfaces

doi:10.19423/j.cnki.31-1561/u.2024.154

Ship & Boat ›› 2025, Vol. 36 ›› Issue (01): 46-54.DOI: 10.19423/j.cnki.31-1561/u.2024.154

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Experimental Study on Freezing of Saltwater Droplets on Typical Marine Metal Surfaces

WANG Yongkui, WANG Qing^*, LEI Wang, YAO Mengtao, ZHANG Shujie

College of Shipbuilding Engineering, Harbin Engineering University, Harbin 150001, China

Received:2024-09-20 Revised:2024-11-13 Online:2025-02-25 Published:2025-03-06

典型船用金属表面盐水滴冻结过程实验研究

王永魁, 王庆^*, 雷旺, 姚梦涛, 张淑杰

哈尔滨工程大学船舶工程学院哈尔滨 150001

通讯作者: 王庆（1972-）,男,博士,教授/博士生导师。研究方向：极地船舶装备与技术。雷旺（2002-）,男,硕士研究生。研究方向：船舶上层建筑结冰试验与数值模拟。姚梦涛（1999-）,男,硕士研究生。研究方向：极地船舶航行安全与防除冰。张淑杰（1969-）,女,硕士,工程师/硕士生导师。研究方向：极地船舶装备与技术。
作者简介:王永魁（1993-）,男,博士,助理研究员。研究方向：船舶上层建筑结冰与防除冰技术、气液两相流。
基金资助:
国家自然科学基金资助项目（52401319,52192690,52192695）

Abstract

Abstract: Ships are prone to icing when navigating in polar low-temperature environments. Excessive ice accumulation can affect ship stability, operational safety, and operability of deck equipment, posing a serious threat to crew safety and hindering the rational development and utilization of polar regions. Ship icing is mainly caused by the splashing of waves, and its physical process can be regarded as the freezing process of a large number of saltwater droplets on a cold surface. Experimental research on the freezing process of a single saltwater droplet is essential for deeper understanding of the mechanism of ship superstructure icing at the mesoscale. For this, experiments are conducted on the freezing and melting of freshwater droplets on cold surfaces, the progress of the phase interface during the freezing process of freshwater droplets, the shape changes of water droplets after freezing, the freezing and melting time are recorded, and the influencing factors of the freezing process of freshwater droplets are analyzed. A saltwater droplet freezing experiment with a 3.5% mass fraction is also conducted, the shape changes, freezing and melting times after freezing are recorded, and the impact of droplet volume and cold surface temperature on the freezing process of the saltwater droplets are analyzed and discussed. The influence of salinity is analyzed and compared by comparing the freezing and melting experimental results of saltwater with those of freshwater droplets. The research outcome can provide data support for the validation of ship icing prediction models and scientific guidance for the development of anti-icing and deicing technologies on structural surfaces.

Key words: polar vessels, superstructure, freeze, saltwater droplets, freezing experiment

摘要： 船舶在极地低温环境中航行时容易发生结冰现象,积冰量过多会影响船舶稳性、运行安全性和甲板设备可操作性等,严重时会威胁船员安全,阻碍正常工作的开展。船舶结冰主要以海浪飞溅结冰为主,其物理过程可视为大量盐水滴在冷表面的冻结过程,对单个盐水滴冻结过程的实验研究是深入理解细观尺度船舶上层建筑结冰机理的必要过程。为此,该文开展了冷表面淡水滴冻结与融化实验,记录淡水滴冻结过程中固-液界面的推进过程、冻结完成后水滴的形状变化、冻结与融化所需时间,并完成淡水滴冻结过程影响因素分析;开展了质量分数为3.5%的盐水滴冻结实验,记录其冻结完成后的形状变化、冻结与融化所需时间,并分析讨论了水滴体积和冷表面温度对盐水滴冻结过程的影响规律;通过对比盐水滴与淡水滴冻结与融化实验结果,分析了盐度的影响。相关成果可为船舶结冰预报模型的验证提供数据支撑,并为结构表面防除冰技术的开发提供科学指导。

关键词: 极地船舶, 上层建筑, 结冰, 盐水滴, 冻结实验

CLC Number:

U668.1

WANG Yongkui, WANG Qing, LEI Wang, YAO Mengtao, ZHANG Shujie. Experimental Study on Freezing of Saltwater Droplets on Typical Marine Metal Surfaces[J]. Ship & Boat, 2025, 36(01): 46-54.

王永魁, 王庆, 雷旺, 姚梦涛, 张淑杰. 典型船用金属表面盐水滴冻结过程实验研究[J]. 船舶, 2025, 36(01): 46-54.

References

[1] 谢强,陈海龙,章继峰. 极地航行船舶及海洋平台防冰和除冰技术研究进展[J]. 中国舰船研究,2017,12(1):45-53.
[2] 刘鑫,张旋,闵敬春. 壁面静止水滴冻结过程形状变化[J]. 工程热物理学报,2020,41(3):704-708.
[3] HINDMARSH J P,RUSSELL A B,CHEN X D.Experimental and numerical analysis of the temperature transition of a freezing food solution droplet[J]. Chemical Engineering Science,2004,59(12):2503-2515.
[4] HINDMARSH J P,RUSSELL A B,CHEN X D.Experimental and numerical analysis of the temperature transition of a suspended freezing water droplet[J]. International Journal of Heat and Mass Transfer,2003,46(7):1199-1213.
[5] STRUB M,JABBOUR O,STRUB F,et al.Experimental study and modelling of the crystallization of a water droplet[J]. International Journal of Refrigeration,2003,26(1):59-68.
[6] CHAUDHARY G,LI R.Freezing of water droplets on solid surfaces:an experimental and numerical study[J]. Experimental Thermal and Fluid Science,2014,57:86-93.
[7] ALIZADEH A,YAMADA M,LI R,et al.Dynamics of ice nucleation on water repellent surfaces[J]. Langmuir,2012,28(6):3180-3186.
[8] 吴晓敏,许旺发,王维城,等. 冷面上过冷水珠冻结的实验研究[J]. 工程热物理学报,2005,26(1):104-106.
[9] 黄玲艳,刘中良,刘耀民,等. 低温环境下水平铜表面液滴冻结的实验研究[J]. 工程热物理学报,2010,31(4):647-650.
[10] 吴晓敏,单小丰,王维城,等. 冷表面结霜的微细观可视化研究[J]. 清华大学学报(自然科学版),2003,43(10):1437-1440.
[11] 李玉杰,罗振兵. 水滴结冰结霜及合成双射流除霜除冰实验研究[J]. 实验流体力学,2016,30(3):27-32.
[12] ZHANG X,WU X M,MIN J C.Freezing and melting of a sessile water droplet on a horizontal cold plate[J]. Experimental Thermal and Fluid Science,2017,88:1-7.

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Experimental Study on Freezing of Saltwater Droplets on Typical Marine Metal Surfaces

典型船用金属表面盐水滴冻结过程实验研究

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