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UMBC PBL Height Study

UMBC PBL Height Study. Chris Wilson, Ruben Delgado, W. Wallace McMillan, Ray Hoff. Overview. Description of the Problem Boundary layer depth! Instruments and measurement techniques (LIDAR, BBAERI) Preliminary results.

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UMBC PBL Height Study

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  1. UMBC PBL Height Study Chris Wilson, Ruben Delgado, W. Wallace McMillan, Ray Hoff

  2. Overview • Description of the Problem Boundary layer depth! • Instruments and measurement techniques (LIDAR, BBAERI) • Preliminary results

  3. The diurnal evolution of the atmospheric boundary layer over land (from Wyngaard, 1992)

  4. BBAERI vs. ELF Residual Layer B.L. top B.L. Top B.L. Top Expected collapse of PBL after sunset seen by both instruments

  5. AERI • AtmosphericEmitted Radiance Interferometer • Measures downwelling IR radiation spectra (3 – 18 μm) passively • 1 cm -1 Resolution CO2 H2O O3 H2O CO CO2

  6. AERI T/q T(p), q(p), theta(p), RH(p) “Onion Peel” Physical Retrieval Statistical regression (training sondes) Spectra, surface, RUC * * * From Smith ET AL. 1999

  7. Covariance Wavelet Technique • Haar function • z=vertical distance in this application • a=spatial extent dilation of the function • b=center of Haar function- translation of the function Covariance transform defined by Gamage and Hagelberg (1993): • zt and zb are the top and bottom altitudes in the lidar backscatter profile • f(z)is the lidar backscatter profile as a function of altitude, z • a-1 is the normalization factor

  8. PBL Determination: • Compute convolution of the backscatter profile, f(z), and the Haar function. • Taking a lidar backscattering profile, calculate a local minimum in W (a,b) using a scale of a located at z = b • This process is repeated for all individual lidar backscatter profiles to create a time series of boundary locations.

  9. The key of the wavelet analysis is the selection of an appropriate dilation (vertical scale).

  10. BBAERI Height Methods • Gradient in Virtual Potential Temperature • Temperature Inversion • Parcel Method • Minimum gradient in q (water vapor mixing ratio)

  11. Inversion VPT Gradient Parcel Method

  12. Minimum in gradient of q

  13. Height (meters) Time (GMT)

  14. Height (meters) Time (GMT)

  15. Final Remarks • Sonde measurements are needed • Many more days are needed to create robust statistics • BBAERI water vapor product may be to coarse to accurately measure PBL height

  16. Height (meters) Time (GMT)

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