Increasing the Earth's albedo: the Köhler equation at sea

IF 2.8 Q3 ENVIRONMENTAL SCIENCES
J. I. Katz
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Abstract

Increasing marine haze and clouds has been considered as a possible means of increasing the Earth's albedo. This would reduce solar heating and global warming, counteracting the effects of the anthropogenic increase in greenhouse gases. One proposed method of doing so would inject small droplets of seawater or condensation nuclei into the marine boundary layer, creating artificial haze and cloud. The equilibrium size of such droplets is described by the Köhler equation that includes the vapor pressure reduction attributable to the solute according to Raoult's law and the vapor pressure increase of a small droplet as a result of surface tension according to Kelvin. Here we apply this classic result to small droplets in the marine boundary layer, where the partial pressure of water vapor is less than the equilibrium vapor pressure because it is in equilibrium with the saline ocean. We calculate the equilibrium size of a droplet containing dissolved ions and find that the radius of a droplet of seawater shrinks greatly before it achieves equilibrium.

Abstract Image

增加地球的反照率:海上的科勒方程
增加海洋雾霾和云层被认为是增加地球反照率的一种可能手段。这将减少太阳辐射热和全球变暖,抵消温室气体人为增加的影响。其中一种拟议的方法是向海洋边界层注入海水小液滴或凝结核,制造人造雾霾和云层。这种液滴的平衡大小由科勒方程描述,其中包括根据拉乌尔定律由溶质引起的蒸汽压降低和根据开尔文定律由表面张力引起的小液滴蒸汽压升高。在这里,我们将这一经典结果应用于海洋边界层中的小水滴,在海洋边界层中,水蒸气分压小于平衡水蒸气压,因为它与含盐海洋处于平衡状态。我们计算了含有溶解离子的水滴的平衡尺寸,发现海水水滴的半径在达到平衡之前会大大缩小。
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CiteScore
2.90
自引率
0.00%
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