For Blanchard Boundary Layer* Information Prediction for Soaring Potential Over Time Blipspot for 48.61 -122.40

from TJ's RASP forecasts BLIPSPOT for 27 Nov 2009 -- Blanchard (BLANCHARD region) w2 gridpt= 17,9 Lat,Lon= 48.610, -122.400
VALID.TIME0800PST 0900PST 1000PST 1100PST 1200PST 1300PST 1400PST 1500PST 1600PST 1700PST 1800PST 1900PST 2000PST VALID.TIME
ForecastPd10.0h11.0h12.0h13.0h14.0h15.0h16.0h17.0h18.0h19.0h20.0h21.0h--hForecastPd
Sfc_W_Dir350316307279278262227215148106122138-Sfc_W_Dir
Sfc_Wind_Sp_Kt434554431444-Sfc_Wind_Sp_Kt
10M_Wind_Sp_Kt213444420422-10M_Wind_Sp_Kt
Up_Velocity fpm001161301571982201450000-Up_Velocity fpm
Max_Converg-50104-4612100-601-Max_Converg
MaxSoar1.1m/s539539539539539539539539539539539539-MaxSoar1.1m/s
MaxSoar_AGL000000000000-MaxSoar_AGL
MaxSoar_clds539539539539539539539539539539539539-MaxSoar_clds
Bouy/Shr_Ratio002346630000-Bouy/Shr_Ratio
BL_Top_TI=0559559129416971742211720771830559559559559-BL_Top_TI=0
BL_Depth_AGL20207551158120415781538129120202020-BL_Depth_AGL
Avg_BLWindSpd214443440322-Avg_BLWindSpd
Avg_BlWindDir3322843293012862352181991007590113-Avg_BlWindDir
Wind_Shear004323130000-Wind_Shear
BLTop_WdSp215223450322-BLTop_WdSp
BLTopWDir3322843473403112082312091007590113-BLTopWDir
CAPE_TSpoten000113510000-CAPE_TSpoten
CUbase_LCL103010351490169018521885195421141845123411921213-CUbase_LCL
ODpot_if_cu-1901-1663-517-160-495-59-3454-3810-2087-1073-1054-1291-ODpot_if_cu
ODbase_allclds246022221811185722382176553156402646163216121850-ODbase_allclds
BL_Cloud_%7307477691007736060061-BL_Cloud_%
Sfc_Heating-5-3252239608528-2-9-6-7-Sfc_Heating
Temp@2m39.340.142.742.943.043.243.342.641.239.538.537.8-Temp@2m
DewPt@2m38.539.138.638.137.537.336.936.038.037.837.436.7-DewPt@2m
msl_pressure101810201021102210231023102310231023102410241025-msl_pressure
Trigger_Time& 2m SfcTemp For_times:+++=earlierunlikely=not_found)
MaxSoarAGL_=30050010001500200025003000
by=unlikelyunlikelyunlikelyunlikelyunlikelyunlikelyunlikely
When_sfc_temp= unlikelyunlikelyunlikelyunlikelyunlikelyunlikelyunlikely

* The Boundary Layer is also known as the Mixing layer and its top is also called the mixing height. It is the top of thermally induced lift and the level at which the Thermal Index goes to zero.