Atmospheric parameters affecting sea ice losses in the context of gravity desalination

• Published in: Theoretical and applied climatology Vol. 121; no. 3-4; pp. 685 - 693
• Main Authors: Li, Ying, Gu, Wei, Chao, Jinlong, Li, Lantao, Liu, Chengyu, Xu, Yinjun, Chang, Zhiyun, Wu, Linhong, Chen, Jie
• Format: Journal Article
• Language: English
• Published: Vienna Springer Vienna 01.08.2015; Springer; Springer Nature B.V
• Subjects: Aquatic Pollution; Aquatic resources; Atmospheric Protection/Air Quality Control/Air Pollution; Atmospheric Sciences; Climatology; Desalination; Earth and Environmental Science; Earth Sciences; Evaporation; Freshwater ice; Freshwater resources; Ice; Original Paper; Relative humidity; Saline water conversion; Sea ice; Sublimation; Waste Water Technology; Water Management; Water Pollution Control; Wind speed; INW, Bohai Sea, Bohai Bay; China, People's Rep; INW, Bohai Sea; Average Winter Temperature; Freshwater Resource; Wind Speed; Atmospheric Parameter; Evaporation Amount
• ISSN: 0177-798X; 1434-4483
• DOI: 10.1007/s00704-014-1264-2

Gravity desalination is an important method for obtaining fresh water from sea ice; however, the large amount of ice that is exposed to air for long periods of time sublimates and evaporates, which results in a reduction of the freshwater resource. This paper describes a study of sea ice sublimation and evaporation performed during the winter of 2013 at the western shore of Bohai Bay, China, to determine the relationship between the amount of sublimation and evaporation and the atmospheric parameters. Substantial amounts of the Bohai sea ice sublimated and evaporated, ranging from 15 to 35 % of the total. The sublimation and evaporation amount was significantly different between the day and night and was greater in the daytime because of the relative humidity difference. Sublimation and evaporation is primarily affected by atmospheric parameters, and the amount of sublimation and evaporation exhibits a good linear relationship with the relative humidity and the wind speed; a comprehensive parameters formula was determined for the Bohai Rim in China. A 10 % increase of daily relative humidity will reduce approximately 1.5 kg/m 2 /day of the sublimation and evaporation, and the amount of sublimation and evaporation increases by 1.76 kg/m 2 /day when the daily wind speed increases by 1 m/s. To reduce the sublimation and evaporation and maximize the amount of this freshwater resource, gravity desalination sites should be selected where the wind speed is low and the relative humidity is high, i.e., the sea ice should be configured to reduce the adverse effects of sunlight, low humidity, and air turbulence.