小型气球云水采样器的开发及其在北极高地的首次部署

J. Zinke, M. Salter, C. Leck, M. Lawler, G. Porter, M. Adams, I. Brooks, B. Murray, P. Zieger
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引用次数: 9

摘要

云水的化学成分可以用来推断形成云滴和冰晶的粒子的来源。为了获得用于分析原始北极高纬度云层化学成分的云水,气球载主动云水采样系统是最佳方法。然而,由于其重量和具有挑战性的环境条件,这种系统以前并不可行。我们利用电池技术的最新发展,开发了一种小型云水采样器,用于气球收集云水。我们的取样器是一个体积取样器,云滴截止直径约为8µm,估计收集效率为70%。采样器被加热以防止过度积冰,并且能够在北极高海拔地区遇到的极端条件下工作几个小时。2018年8月和9月,我们在靠近北极的高北极微生物-海洋-云耦合(MOCCHA)活动期间,在系绳气球上测试并部署了新的采样器。采样器能够成功地提取云水样本,并对其进行分析,以确定其化学成分以及冰核活性。鉴于在北极高纬度地区发现的原始条件,我们非常重视开发合适的清洁程序,以尽量减少采样器本身的本底污染。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The development of a miniaturised balloon-borne cloud water sampler and its first deployment in the high Arctic
Abstract The chemical composition of cloud water can be used to infer the sources of particles upon which cloud droplets and ice crystals have formed. In order to obtain cloud water for analysis of chemical composition for elevated clouds in the pristine high Arctic, balloon-borne active cloud water sampling systems are the optimal approach. However, such systems have not been feasible to deploy previously due to their weight and the challenging environmental conditions. We have taken advantage of recent developments in battery technology to develop a miniaturised cloud water sampler for balloon-borne collection of cloud water. Our sampler is a bulk sampler with a cloud drop cutoff diameter of approximately 8 µm and an estimated collection efficiency of 70%. The sampler was heated to prevent excessive ice accumulation and was able to operate for several hours under the extreme conditions encountered in the high Arctic. We have tested and deployed the new sampler on a tethered balloon during the Microbiology-Ocean-Cloud-Coupling in the High Arctic (MOCCHA) campaign in August and September 2018 close to the North pole. The sampler was able to successfully retrieve cloud water samples that were analysed to determine their chemical composition as well as their ice-nucleating activity. Given the pristine conditions found in the high Arctic we have placed significant emphasis on the development of a suitable cleaning procedure to minimise background contamination by the sampler itself.
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