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edhill |
1.1 |
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% function [LCL] = calc_LCL(L0,T0,Q0) |
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% |
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% Computes the pressure level LCL where |
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% a parcel lifted adiabtically from L0 |
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% reaches saturation. |
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% |
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% L0 = initial level of teh parcel (1<L0<40) |
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% T0 = parcel temperature (in K) at L = L0 |
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% Q0 = parcel specific humidity (in kg/kg) at L = L0 |
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% |
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% NB: LCL is an interval, meaning the actual |
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% LCL is in between the calculated pressure levels. |
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% |
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% Algorithm: raise the parcel by DP along a dry adiabat; |
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% computes its new vapor pressure ef and temperature Tf. |
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% loop until ef>= esat |
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function [LCL] = calc_LCL(L0,T0,Q0) |
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path('/u/u0/czaja/MATLAB',path); |
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% Constants |
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mb = 100; |
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EPS = 0.622; %Rv/Rd |
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% Pressure grid |
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DP = 25; %model vertical resolution (in mb) |
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P = [987.5:-25:0]; %model pressure levels (in mb) |
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Pref = 1000; %ref. pressure (in mb) but not used... |
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% Dry adiabat |
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TDA = dry_adiabat(T0); %dry adiabatic temperature profile |
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% Loop on vertical levels |
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w = Q0 / (1-Q0); %mixing ratio |
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ef = P(L0) * w / (w + EPS); %vapor pressure in mb |
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Tf = T0; |
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[esat,xx] = saturation_humidity(T0,Pref); |
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if ef >= esat, |
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LCL = L0; |
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return; |
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else |
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L = L0; |
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while ef<esat |
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L = L + 1; |
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ef = ef - DP * w / (w+EPS); |
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Tf = TDA(L); |
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[esat,xx] = saturation_humidity(Tf,Pref); |
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end |
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LCL = [L-1 L]; |
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end |
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