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Cloud formation

Cloud-Aerosol-climate feedback. Cloud formation. Two processes, acting together or individually, can lead to air becoming saturated: cooling the air or adding water vapor to the air. But without cloud nuclei, clouds would not form. without cloud nuclei. with cloud nuclei.

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Cloud formation

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  1. Cloud-Aerosol-climate feedback Cloud formation Two processes, acting together or individually, can lead to air becoming saturated: cooling the air or adding water vapor to the air. But without cloud nuclei, clouds would not form. without cloud nuclei with cloud nuclei

  2. How precipitation forms Frictional force Frictional force = Gravitational force Terminal velocity Gravitational force

  3. Supercooled water: To make the transition from a liquid to the lattice structure of ice, some foreign particles, ice nuclei, are needed to initiate freezing. Until the nuclei form, liquid water can exist far below the freezing point. In fact, pure water droplets can remain in liquid form near -40F. Mixed phase clouds Bergeron Process Ice crystal: molecules more organized, difficult to escape Supercooled droplet: molecules less organized, easy to escape evaporate condensate At a certain condition, cloudy air is unsaturated to supercooled water droplet, but is saturated to ice crystal, leading to evaporation of supercooled water droplet and growth of ice crystal.

  4. Collision-Coalescence Process (a) Collision -Larger drops fall faster than smaller drops, so as the drops fall, the larger drops overtake the smaller drops to form larger drops until rain drops are formed. -In a cloud with cloud droplets that are tiny and uniform in size: -The droplets fall at a similar speed and do not Collide. -The droplets have a strong surface tension and never combine even if they collide.

  5. Impact of clouds on climate Cooling effect Warming effect

  6. Satellite View of Clouds Polar orbit satellite Geostationary Satellites

  7. NASA: The Earth Radiation Budget Experiment (ERBE) It measures the energy budget at the top of the atmosphere. Energy budget at the top of atmosphere (TOA) Incoming solar radiation 340 W/m2 Incoming solar radiation 340 W/m2 Reflected SW radiation Q1= 50 W/m2 Reflected SW radiation Q= 100 W/m2 Fictitious climate system Present climate system shortwave cloud forcing dQ=Q1-Q=-50 W/m2 (cooling) Emitted LW radiation F1= 270 W/m2 Emitted LW radiation F= 240 W/m2 with clouds No clouds longwave cloud forcing dF=F1-F=30 W/m2 (warming)

  8. SW cloud forcing = clear-sky SW radiation – full-sky SW radiation LW cloud forcing = clear-sky LW radiation – full-sky LW radiation Net cloud forcing (CRF) = SW cloud forcing + LW cloud forcing Current climate: CRF = -20 W/m2 (cooling) But this does not mean clouds will damp global warming! The impact of clouds on global warming depends on how the net cloud forcing changes as climate changes. Direct radiative forcing due to doubled CO2, G = 4 W/m2

  9. e.g. If the net cloud forcing changes from -20 W/m2 to -16 W/m2 due to doubling CO2, the change of net cloud forcing will add to the direct CO2 forcing. The global warming will be amplified by a fact of 2. Cloud radiative effects depend on cloud distribution, height, and optical properties. Low cloud High cloud SW cloud forcing dominates LW cloud forcing dominates

  10. St & Sc Cu St & Sc subsidence Trade wind inversion Stratus and stratocumulus Transition Trade cumulus Intertropiccal Convergence Zone (ITCZ)

  11. In GCMs, clouds are not resolved and have to be parameterized empirically in terms of resolved variables. water vapor (WV) cloud surface albedo lapse rate (LR) WV+LR ALL

  12. Aerosol feedback Direct aerosol effect: scattering, reflecting, and absorbing solar radiation by particles. Primary indirect aerosol effect (Primary Twomey effect): cloud reflectivity is enhanced due to the increased concentrations of cloud droplets caused by anthropogenic cloud condensation nuclei (CNN). Secondary indirect aerosol effect (Second Twomey effect): 1. Greater concentrations of smaller droplets in polluted clouds reduce cloud precipitation efficiency by restricting coalescence and result in increased cloud cover, thicknesses, and lifetime.

  13. 2. Changed precipitation pattern could further affect CCN distribution and the coupling between diabatic processes and cloud dynamics.

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