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A Case Study of Decoupling in Stratocumulus Xue Zheng MPO, RSMAS 03/26/2008.

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Presentation on theme: "A Case Study of Decoupling in Stratocumulus Xue Zheng MPO, RSMAS 03/26/2008."— Presentation transcript:

1 A Case Study of Decoupling in Stratocumulus Xue Zheng MPO, RSMAS 03/26/2008

2 Outline Motivation Observation Numerical simulation Summary and future work

3 Synoptic History January 25 th, 2008 A cold front passed this region before. Dominated by high pressure SST~25-25.5 o C www-angler.larc.nasa.gov

4 Flight Plan Two soundings Six levels at constant pressure surface: above inversion level, cloud top, cloud layer, cloud base, mixed layer, near the surface Each level has 10-minute observation

5 Soundings Data Temperature is cooler at most part of BL after about 1 hour Inversion level rises about 100m Two mixed layers on the second sounding Decoupling process between 600m and 800m UTC 16:55-17:05 UTC 18:17-18:27 Mean values Decoupling layer

6 Liquid Water Content and Relative Humidity Two separated layers with liquid water content A relative dry region between those indicates the discontinuous feature is building up Probably due to the specifically location of this sounding

7 Surface Wind and Wind Shear 30m 1550m

8 Buoyancy Flux and Turbulence Momentum Flux Negative buoyancy flux within the decoupling layer Near-surface buoyancy flux Vertical velocity variance decreases within cloud layer Strong turbulence near the surface Six layers

9 Large Eddy Simulation System of Atmospheric Modeling (SAM6.6.5a, Khairoutdinov) –Initial Soundings –Vertical profiles of large scale U, V, W (NCEP) –SST, latent heat flux, sensible heat flux, and surface drag (Fairall, et al 1996) –128X128X96 (∆x=100m) –3-Hour simulation with 0.5s time step Numerical Experiment –The influence of surface fluxes –The influence of large scale tendencies

10 Preliminary Results Low level warms up (~0.2K/2hours) Inversion level rises Simulated cloud layer extends to 1500m level From simulated cloud base TKE increases and reaches maximum within the could layer (K) Cloud liquid water (g/kg) model Obs TKE (m 2 /s 2 )

11 Summary Observation: –A stratocumulus case with strong wind and turbulence near the surface –Decoupling at sub-cloud layer Numerical simulation ignoring large scale tendencies: –Decoupling at sub-cloud layer is not simulated –Lower level is warming –Thicker cloud layer is simulated –TKE increases within cloud layer instead of decreasing

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