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The inclusion of water with the injected aerosol reduces the simulated effectiveness of marine cloud brightening

机译：注入的气溶胶中含有水会降低海洋云增亮的模拟效果

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Sea-salt aerosols proposed for injection in marine cloud brightening geoengineering would likely result from evaporation of sea-water droplets. Previous simulations have omitted this mechanism. Using the WRF/Chem model (Weather Research and Forecasting model coupled with Chemistry) in large-eddy simulation mode, we find that droplet evaporation creates cold pools, suppressing initial aerosol plume heights by up to 30% (40 m). This lessens cloud albedo increases from 94.1 to 88.5% in our weakly-precipitating case and from 4.3 to 1.4% for daytime injection into our nonprecipitating case (cloud albedo differences of 0.012 and 0.009, respectively). Inclusion of this effect in future modelling would allow increasingly realistic effectiveness estimates.

机译：提议注入海洋云以增亮地球工程的海盐气溶胶可能是由于水滴的蒸发所致。先前的模拟已省略了此机制。在大涡模拟模式下，使用WRF / Chem模型（天气研究和天气预报模型与化学结合），我们发现液滴蒸发会形成冷池，从而将初始气溶胶羽流高度抑制多达30％（40μm）。在我们的弱降水案例中，这减少了云的反照率，从94.1增至88.5％，而在非降水案例中，白天注入的云反照率从4.3％增至1.4％（云反照率差异分别为0.012和0.009）。在将来的建模中包含此影响将允许越来越现实的有效性估计。

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Jenkins AKL; Forster PM;
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年度 2013
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1. The inclusion of water with the injected aerosol reduces the simulated effectiveness of marine cloud brightening [J] . A. K. L. Jenkins, P. M. Forster Atmospheric science letters . 2013 ,第3期

机译：注入的气溶胶中包含水会降低模拟海洋云增亮的有效性
2. Comment on "Reduced efficacy of marine cloud brightening geoengineering due to in-plume aerosol coagulation: parameterization and global implications" by Stuart et al. (2013) [J] . Anand S., Mayya Y. S. Atmospheric chemistry and physics . 2015 ,第2期

机译：Stuart等人评论“由于在管内气溶胶凝结导致海洋云增亮地球工程的功效降低：参数化和全球影响”。（2013年）
3. Comment on "Reduced efficacy of marine cloud brightening geoengineering due to in-plume aerosol coagulation: parameterization and global implications" by Stuart et al. (2013) [J] . S.Anand, Y. S.Mayya Atmospheric chemistry and physics . 2015 ,第2期

机译：Stuart等人评论“由于在管内气溶胶凝结导致海洋云增亮地球工程的功效降低：参数化和全球影响”。（2013年）
4. Sub-micrometer salt aerosol production: Marine Cloud Brightening [C] . Neukermans Armand, Cooper Gary, Foster Jack, International Conference and Expo on Emerging Technologies for a Smarter World . 2013

机译：亚微米盐雾剂生产：海洋云增白
5. Investigations of Atmospheric Aerosols and Clouds in Marine Environments [D] . ?Braun, Rachel Anne 2020

机译：大气气溶胶的调查和云海洋环境
6. Preliminary results for salt aerosol production intended for marine cloud brightening using effervescent spray atomization [O] . Gary Cooper, Jack Foster, Lee Galbraith, -1

机译：使用泡腾喷雾雾化法生产的盐气溶胶的初步结果旨在用于海洋云的增亮
7. Comment on "Reduced efficacy of marine cloud brightening geoengineering due to in-plume aerosol coagulation: parameterization and global implications" by Stuart et al. (2013) [O] . Anand S., Mayya Y. S. 2015

机译：Stuart等人评论“由于在管内气溶胶凝结导致海洋云增亮地球工程的功效降低：参数化和全球影响”。（2013年）

The inclusion of water with the injected aerosol reduces the simulated effectiveness of marine cloud brightening

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