Outline: classical stability analysis, using recent soundings Bjerknes “slice” approach...
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![Page 1: Outline: classical stability analysis, using recent soundings Bjerknes “slice” approach conserved variable diagrams Thermodynamic Applications.](https://reader036.fdocuments.net/reader036/viewer/2022062409/56649f305503460f94c4b977/html5/thumbnails/1.jpg)
Outline:• classical stability analysis, using recent soundings• Bjerknes “slice” approach• conserved variable diagrams
Thermodynamic Applications
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Skew T - log-p diagram. Miami, 7 am local, Tuesday
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Surface parcel properties matter. Denver, 6 am LT
& 6 pm
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Miami eve, CAPE=942 J/kg
AM CAPE=235 J/kg
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Oklahoma City
Cape=1495 J/kg
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•Belief that storms are particularly sensitiveto parcel buoyancy and wind shear
• defines CAPE
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Parcel method does not account for reaction ofEnvironmental air to the intrusion of a cloud(s).
Bjerknes (1938) developed a “slice” method.“Saturated-adiabatic ascent of air throughDry-adiabatically descending environment.Quart. J. Roy. Meteor. Soc., 64, p. 325-330.
Helps explain the spacing in between clouds
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Lorenz, E. 1955: Available potential energy and themaintenance of the general circulation. Tellus, 7, 157-167.
APE = energy available for conversion into kineticEnergy (sum of potential, internal, and latent energies).
Assumes a closed system.
APE turns out to be True enthalphy = enthalpy of a reference state
Reference state is one with no conditional instability;All boundary layer air brought to its LNB
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Actual state vs. reference state
EQ NP EQ NP
Lorenz
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Successes of the parcel method:
• provides insight into conditions necessary forconvection, or lack thereof
• helps explain some general features of the atmosphere (inter-cloud spacing; general circulation)
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Drawbacks of parcel method stability analysis:
• ice not represented well• mixing not represented• sondes don’t measure liquid• environmental response not considered
Conserved variable diagrams examine mixingand air mass history.
Liquid is included
have mainly been applied to non-precipitatingconvection
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Adiabatic quantities form each coordinate axis;
•Plotted data can only change values through irreversible ordiabatic processes
• (linear) mixing shows up as a straight line
=> Useful for examing mixing processes in clouds
JAS,1979
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“Paluch diagrams”: total water mixing ratio rt vs equivalent potential temperature
rt = water vapor + liquid water m.r.
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Study concludes most cloud air hasmixed with environmental air Several km above cloud top.
Common in cumuli developing indry environments (downdraftsdevelop sufficient neg. buoyancy)
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“jump” criterion in both e and m.r.
Randall, 1980 & Deardorff, 1980
Similarly for stratocumulus breakup:
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Took Paluch’s analysis one step further:A Saturation Point is defined for each data
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Cloud water is a parcel property
Liquid water potential temperature ll = exp(-Lll/cpT))The lowest attainable through evaporating all water
Saturation point: LCL if unsaturated“sinking evaporation level” if saturated
Air parcel specified solely by its Tsl, psl, and psl - p
Allows for a treatment of negatively buoyant parcels
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Particularly elegant analysis of the impact ofCooling through evaporation of rain, and liquidWater loading of an air parcel
(Evaporation both cools and moistens; whether aMixture becomes positively or negatively buoyantDepends on l )
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If upper air is dry enough, becomes strongly cooled byEvaporation => downdraft.