concept
DESCRIPTION
Assessing the WRF model with the CAM5 physics suite (WRF-CAM5): model implementation, evaluation, and resolution sensitivity. Po-Lun Ma , Philip J. Rasch , Jerome D. Fast , Richard C. Easter , William I. Gustafson, Jr., Xiaohong Liu , Steven J. Ghan , Balwinder Singh - PowerPoint PPT PresentationTRANSCRIPT
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June 27, 2013
Assessing the WRF model with the CAM5 physics suite (WRF-CAM5): model implementation, evaluation, and resolution sensitivity
Po-Lun Ma, Philip J. Rasch, Jerome D. Fast, Richard C. Easter, William I. Gustafson, Jr., Xiaohong Liu, Steven J. Ghan, Balwinder Singh
Pacific Northwest National Laboratory
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Concept
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Macrophysics
• Cloud fraction• Large-scale condensation and evaporation• Aerosol activation and re-suspension• Detrainment of liquid and ice condensate (mass+number) from convections (treated in
physics_addtendc)
dt
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Code implementation
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ARCTAS/ARCPAC/ISDAC (April, 2008)
Convair, B-200, DC-8, P3-B
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Meteorology
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Clouds
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Vertical profile of BC
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Vertical BC Distributions
9
Complex layers produced by Dx = 10km simulation
Simulated peak concentrations factor of ~2 too low
Dx = 160 kmDx = 80 kmDx = 40 kmDx = 20 kmDx = 10 km
Simulated BC Concentration Along DC-8 Flight Path mg m-3
observed Dx = 160 km, 80 km, 40 km, 20 km, 10 km
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PSAP surface measurement of BC
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Resolution dependence of BC transport
CAM5 WRF 160 km WRF 80 km
WRF 40 km WRF 20 km WRF 10 km
CAM5 WRF 160 km WRF 80 km
WRF 40 km WRF 20 km WRF 10 km
Clo
ud
Fra
ctio
nB
lack
Car
bo
n
CAM5 0.3160 km 3.480 km 34.040 km 46.920 km 54.310 km 51.6
Barrow (ng/kg)
domain average = 0.2 for all
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Cloud susceptibility to aerosol forcing
Implication: aerosol indirect forcing decreases with increasing resolution
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AOT over Barrow and Bonanza Creek (AERONET sites)
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LWC at Barrow (ARM-NSA)
Observed mean Observed max Observed min CAM5
CAM5 80 km CAM5 40 km CAM5 20 km CAM5 10 km
MESO 80 km MESO 40 km MESO 20 km MESO 10 km
1.23e-3 0.15e-30.37e-34.23e-3
2.11e-3 3.02e-33.28e-31.98e-3
0.87e-3 1.35e-31.27e-31.25e-3
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IWC at Barrow (ARM-NSA)
Observed mean Observed max Observed min CAM5
CAM5 80 km CAM5 40 km CAM5 20 km CAM5 10 km
MESO 80 km MESO 40 km MESO 20 km MESO 10 km
0.018 0.0260.0070.041
0.011 0.0100.0110.014
0.003 0.0030.0030.003
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Summary
• CAM5 physics suite (aerosol, cloud, deep and shallow convections, turbulence) has been implemented in WRF (and WRF-Chem)
• CAM5 physics show some resolution dependency on long-range aerosols transport and aerosol-cloud interactions, but large bias still remains
• WRF with a typical set of WRF physics does not reduce the model bias when the model is driven by the same initial and boundary conditions
• Allowing fractional clouds produces more clouds—results better-agreed with observations
• WRF-CAM5 (Ma et al) has been applied to study pollutions in Mexico (Fast et al), marine stratocumulus clouds off the coast of South America (Burrows et al), clouds and precipitation in the continental US (Gustafson et al), aerosol effects on convections (Lim et al), long-range transport of aerosols (Fast et al), etc., and we welcome collaborations!!