Poster Session 2 Cloud Physics Poster Session II

Wednesday, 12 July 2006: 5:00 PM-7:00 PM
Grand Terrace (Monona Terrace Community and Convention Center)
Host: 12th Conference on Cloud Physics

Papers:
P2.1
WRF Simulations of a Severe Squall Line: Comparison Against High-resolution Microphysical, Thermodynamic and Kinematic Measurements from BAMEX
Bryan A. Guarente, Univ. of Illlinois, Urbana, IL; and B. F. Jewett, G. M. McFarquhar, and R. M. Rauber

P2.2
Vertical Profiles of Ice Cloud Microphysical Properties Observed behind Convective Lines during the Bow Echo and Mesoscale Convective Vortices Experiment (BAMEX)
Greg McFarquhar, University of Illinois, Urbana, IL; and M. S. Timlin, R. M. Rauber, B. F. Jewett, J. Grim, and D. P. Jorgensen

P2.3
Microphysical and quad-Doppler observations of the BAMEX 29 June 2003 MCS
Joseph A. Grim, Univ. of Illinois, Urbana, IL; and G. M. McFarquhar, R. M. Rauber, D. P. Jorgensen, M. S. Timlin, A. M. Smith, and B. F. Jewett

P2.4
Vertical velocity composites of Mesoscale Convective Systems observed during BAMEX
James Correia Jr., SPC, Norman, OK; and R. W. Arritt

P2.5
Hailstorm simulations using the Weather Research and Forecasting (WRF) model: Microphysical parameterization sensitivities and preliminary verification
Justin Stachnik, Purdue University, West Lafayette, IN; and S. Lasher-Trapp

P2.6
A two-moment cloud microphysics scheme with two process-separated modes of graupel
Heike Noppel, Institut für Meteorologie und Klimaforschung, Universität Karlsruhe / Forschungszentrum, Karlsruhe, Germany; and A. Seifert, K. D. Beheng, and U. Blahak

Handout (240.5 kB)

P2.7
Numerical modelling and forecasting of oblate hailstones
Gerhard W. Reuter, Univ. of Alberta, Edmonton, AB, Canada; and C. Ranger

P2.8
The mechanics of falling hailstones and hailswaths
Kevin Vermeesch, SSAI, Greenbelt, MD; and E. Agee

Handout (514.2 kB)

P2.9
The Unique Microphysical Signature of Severe Storms Clouds that Produce Tornado and Large Hail
Amit Lerner, The Hebrew University of Jerusalem, Jerusalem, Israel; and D. Rosenfeld

P2.10
A Study of the GIS Tools Available During Tornado Events and Their Effectiveness for Meteorologists, First Responders and Emergency Managers
Shane A. Hubbard, Indiana Univ. and Purdue Univ., Indianapolis, IN; and K. J. MacLaughlin

Handout (205.6 kB)

P2.11
Identification and early warning of tornadic storms by geostationary satellite-inferred cloud microstructure

P2.12
Available energetics of deep moist convection
Peter R. Bannon, Penn State Univ., University Park, PA

P2.13
NOx Production in Laboratory Simulated Blue Jet and Sprite Discharges
Harold Peterson, DRI, Reno, NV; and M. Bailey, J. Hallett, and W. Beasley

Handout (600.7 kB)

P2.14
Cloud to ground flashes in Mexico and adjacent oceanic area: a preliminary study using data from the WWLL network
Graciela B. Raga, Universidad Nacional Autonoma de Mexico, Mexico City, Mexico; and O. Rodriguez

Handout (152.0 kB)

P2.15
Evaluation of cloud microphysical processes and their implications for intensification in numerical model simulations of Hurricane Dennis (2005)
Eric Schneider, Univ. of Illinois, Urbana, IL; and G. M. McFarquhar, B. F. Jewett, M. Gilmore, R. E. Hood, and G. M. Heymsfield

P2.16
The importance of uncertainties in ice microphysics in determining the effect of aerosol on mixed-phase continental convective clouds
Stewart Davies, University of Leeds, Leeds, United Kingdom; and Z. Cui, K. Carslaw, and Y. Yin

P2.17
Chemical and Physical Properties of Marine Aerosol during the RICO-PRACS Experiment: Evidence of a Clean Period, Saharan Dust, and Anthropogenic Pollution
F. Morales-García, University of Puerto Rico, San Juan, PR; and O. L. Mayol-Bracero, M. H. Repollet-Pedrosa, D. L. Ortíz-Montalvo, H. Caro-Gautier, A. Kasper-Giebl, L. Gomes, M. O. Andreae, G. Frank, J. Allan, D. Baumgardner, G. B. Raga, J. J. N. Lingard, J. B. McQuaid, S. Decesari, and J. Anderson

P2.18
Aerosol-cloud interactions on a mountain peak in Puerto Rico
Darrel Baumgardner, Universidad Nacional Autonoma de Mexico, Mexico City, Distrito Federa, Mexico; and G. B. Raga, F. Garcia-Garcia, G. Montero, O. L. Mayol-Bracero, F. Morales-Garica, S. Mertes, S. Borrmann, J. Schneider, S. Walter, J. Allan, M. Gysel, U. Dusek, G. Frank, and M. Kraemer

Handout (347.9 kB)

P2.19
Chemical Characterization of Cloud Water at the East Peak, Puerto Rico, during the Rain In Cumulus over the Ocean Experiment (RICO)
Adriana Gioda, University of Puerto Rico, San Juan, PR; and O. L. Mayol-Bracero, A. Rodriguez, F. Morales-Garcia, R. Morales, J. L. Collett Jr., L. Emblico, and S. Decesari

Handout (227.7 kB)

P2.20
Aerosol Particle Activation observed inside Clouds at a Mountain Site on Puerto Rico
Stephan Mertes, Leibniz-Institute for Tropospheric Research, Leipzig, Germany; and S. Walter, J. Schneider, S. Borrmann, D. Baumgardner, G. Raga, G. Montero, M. Kraemer, O. Bracero-Mayol, G. Frank, J. Allen, and M. Gysel

P2.21
The impact of cloud processing by trade-wind cumulus on the light scattering efficiency of aerosol particles
Justin R. Peter, University of Leeds, Leeds, United Kingdom; and A. M. Blyth, J. B. Jensen, and D. C. Thornton

Handout (698.9 kB)

P2.22
Poster P2.22 has been moved. New paper number 14.2A

P2.23
Can cloud droplet number increase with height?
Jennifer L. Bewley, Purdue University, West Lafayette, IN; and S. Lasher-Trapp

P2.24
Influence of entrainment and mixing in the production of warm rain in Trade-Wind cumulus clouds

P2.25
Comparing observations and model prediction of drop growth in near-adiabatic cumulus cores during RICO
Jorgen B. Jensen, NCAR, Boulder, CO; and M. Colon, D. Rogers, R. Rauber, J. Stith, D. C. Thornton, and T. L. Campos

P2.26
A characterization of cold pools below marine trade wind cumuli
Jorgen B. Jensen, NCAR, Boulder, CO

Handout (277.9 kB)

P2.27
The RICO student mission—flights, ground operations and subsequent research
Jennifer L. Davison, University of Louisville, Louisville, KY; and S. Bereznicki, M. Colón-Robles, V. P. Ghate, E. Grzeszczak, C. K. Henry, I. Jo, J. H. Lowenstein, B. Medeiros, S. Mishra, F. Morales, L. Nuyens, D. O’Donnel, E. Serpetzoglou, H. Shen, J. D. Small, E. R. Snodgrass, P. Trivej, and S. Vargas

Handout (706.4 kB)

P2.28
Raindrop size spectra derived from RICO using TWOPASS, a MATLAB-based analysis program for optical array probe data
Hilary A. Minor, Univ. of Illinois, Urbana, IL; and R. M. Rauber, M. Freer, S. Goeke, and H. T. Ochs

P2.29
The spurious effects of splashing precipitation on droplet measurements and the lack of natural cloud droplets in a RICO rain shaft
Brad A. Baker, SPEC Incorporated, Boulder, CO; and Q. Mo

Handout (732.6 kB)

P2.30
Splash artifacts in FSSP measurements—observations and flow modeling studies
David C. Rogers, NCAR, Boulder, CO; and J. Stith, J. Jensen, W. Cooper, D. Nagel, U. Maixner, and O. Goyea

Handout (500.9 kB)

P2.31
Kinematic characteristics of RICO updrafts: comparisons with other tropical regions
Jeffrey Stith, NCAR, Boulder, CO

Handout (298.3 kB)

P2.32
Pressure perturbations in and below trade wind cumulus clouds: Forcing patterns
Jorgen B. Jensen, NCAR, Boulder, CO; and P. Romashkin and S. Beaton

Handout (368.0 kB)

P2.33
Modeling the diurnal cycle of shallow convection and cloudiness in trade wind boundary layer over the Indian Ocean
Hailong Wang, University of Illinois, Urbana, IL; and G. M. McFarquhar

Handout (157.4 kB)

P2.34
The effects of entrainment and mixing on the droplet size distributions in cumuli
Merja H. Schlueter, Univ. of Utah, Salt Lake City, UT; and S. K. Krueger and C. W. Su

Handout (177.6 kB)

P2.35
Predicting inhomogeneous mixing using PDF methods: resolving mixing and evaporation in the smallest cloud filaments
Christopher A. Jeffery, LANL, Los Alamos, NM; and J. M. Reisner

Handout (208.3 kB)

P2.36
Limiting spurious evaporation in cloud simulations: Magnussen and Hjertager (1976)'s EDC model, revisited
Christopher A. Jeffery, LANL, Los Alamos, NM; and J. M. Reisner and D. Moulton

Handout (313.8 kB)

P2.37
Laboratory studies of water droplet evaporation kinetics
Alfred M. Moyle, Penn State Univ., University Park, PA; and P. M. Smidansky and D. Lamb

Handout (229.7 kB)

P2.38
The helicopter-borne ACTOS for small-scale cloud turbulence observations
Holger Siebert, Institute for Tropospheric Research, Leipzig, Germany; and K. Lehmann, M. Wendisch, and R. Shaw

Handout (343.3 kB)

P2.39
Statistics of volumes, swept by spherical particles in a turbulent flow
Boris Grits, The Hebrew University of Jerusalem, Jerusalem, Israel; and M. Pinsky and A. Khain

Handout (410.3 kB)

P2.40
Inertial clustering of droplets in high-reynolds-number laboratory turbulence
Ewe Wei Saw, Michigan Technological University, Houghton, MI; and R. A. Shaw, S. Ayyalasomayajula, P. Y. Chuang, A. Gylfason, and Z. Warhaft

Handout (149.6 kB)

P2.41
Collision rate enhancement in turbulent clouds of different types
Mark Pinsky, The Hebrew University of Jerusalem, Jerusalem, Israel; and A. Khain

Handout (755.6 kB)

P2.42
An economical simulation method for droplet motions in turbulent flows
Pamela J. Lehr, University of Utah, Salt Lake City, UT; and A. R. Kerstein and S. K. Krueger

P2.43
Monte Carlo simulations of drop growth by coalescence and collision-induced breakup
Lester Alfonso, Universidad Autonoma de la Ciudad de Mexico, Mexico City, Mexico; and G. B. Raga and D. Baumgardner

Handout (150.2 kB)

P2.44
A comparison between the bin and stochastic particle approach for the 1-D advection-condensation problem
Miroslaw Andrejczuk, LANL, Los Alamos, NM; and J. Reisner and C. A. Jeffery

P2.45
Microphysical signatures of hygroscopic seeding with 2-5 micron salt powder using aircraft and sf6 tracer
Daniel Rosenfeld, The Hebrew University of Jerusalem, Jerusalem, Israel; and W. L. Woodley, D. Axisa, and A. P. Khain

P2.46
The spatial and temporal variability of nonfreezing drizzle in the United States and Canada
Addison L. Sears-Collins, Penn State Univ., University Park, PA; and D. M. Schultz and R. H. Johns

P2.47
Cold Microphysics in California Winter Precipitation
Jianzhong Wang, Hydrologic Research Center, San Diego, CA; and K. P. Georgakakos

P2.48
Coupling microphysics parameterizations to cloud parameterizations
Vincent E. Larson, Univ. of Wisconsin, Milwaukee, WI; and B. M. Griffin

Handout (79.5 kB)

P2.49
The WRF Microphysics and a Snow Event in Chicago
William H. Wilson, NOAA/NWSFO, Romeoville, IL

Handout (231.1 kB)

P2.50
Sensitivity to the cloud microphysics scheme of the simulation of orographic precipitation
Jason A. Milbrandt, Environment Canada (NWP Research Section), Dorval, QC, Canada; and M. K. Yau, J. Mailhot, and S. Bélair

Handout (768.4 kB)

P2.51
Prediction of snow particle habit types within a single-moment bulk microphysical scheme
Mark T. Stoelinga, University of Washington, Seattle, WA; and C. P. Woods and J. D. Locatelli

Handout (221.2 kB)

P2.52
The behavior of number concentration tendencies for the continuous collection growth equation using one- and two-moment bulk parameterization schemes
Jerry M. Straka, Univ. of Oklahoma, Norman, OK; and K. M. Kanak and M. S. Gilmore

Handout (838.6 kB)

P2.53
Laboratory experiments of ice formation in cloud simulation chamber
Takuya Tajiri, Meteorological Research Institute, Tsukuba, Japan; and M. Murakami, N. Orikasa, A. Saito, and K. Kusunoki

Handout (698.6 kB)

P2.54
Energetics of mixed phase cloud particle interactons
German Vidaurre, University of Costa Rica; and J. Hallett

Handout (142.0 kB)

P2.55
Visibility versus precipitation rate and relative humidity
Ismail Gultepe, AES, Toronto, ON, Canada; and G. Isaac

Handout (830.1 kB)

P2.56
Temporal evolution of raindrop size distributions from mixed clouds in Mexico City
Guillermo Montero-Martínez, Universidad Nacional Autonoma de Mexico, Mexico, Mexico; and F. García-García

Handout (344.6 kB)

P2.57
Precipitation Structure in Midlatitude Cyclones
Paul R. Field, NCAR, Boulder, CO; and R. Wood

Handout (655.6 kB)

P2.58
Cloud-top temperatures for precipitating winter clouds
Jay Hanna, NOAA/NESDIS, Camp Springs, MD; and A. Irving and D. M. Schultz

P2.59
Comparison of monthly mean precipitation rates from GPCP observations and ECHAM5 simulations
Rebekka Posselt, ETH, Zurich, Switzerland; and F. Heinzmann and U. Lohmann

Handout (2.5 MB)

P2.60
A Comparison of Three Global Satellite Cloud Products and Implications for GCM Validation
Fu-Lung Chang, Univ. of Maryland, College Park, MD; and Z. Li

P2.61
The role of particle recycling on precipitation development in convective clouds in the United Arab Emirates
Daniel Breed, NCAR, Boulder, CO; and T. Jensen, R. Bruintjes, V. Salazar, and A. Al Mandoos

P2.62
A simulation of partial cloudiness in multilayered altocumuli
Michael J. Falk, Univ. of Wisconsin, Milwaukee, WI; and V. E. Larson

Handout (669.2 kB)

P2.63
IWC And Ice Precipitation Retrieval Algorithms In Terms Of Temperature And Radar Reflectivity Using Observed Ice Spectra
Faisal S. Boudala, Environment Canada, Toronto, ON, Canada; and G. A. Isaac and D. Hudak

Handout (390.7 kB)

P2.64
Assessing radar reflectivity retrieval methods with in-situ observations of cloud hydrometeor spectra
M. E. Bailey, Environment Canada, Toronto, ON, Canada; and G. A. Isaac, S. G. Cober, A. Korolev, and J. W. Strapp

Handout (185.6 kB)

P2.65
Strong absorption of solar NIR by precipitating clouds
W.F.J. Evans, North West Research Associates, Bellevue, WA

P2.66
The in situ cloud lidar
K. Franklin Evans, University of Colorado, Boulder, CO; and D. O'Connor, P. Zmarzly, and P. Lawson

P2.67
Retrieval of microphysical properties of snow using dual polarization spectral analysis
A. Lennert J. Spek, Delft University of Technology, Delft, Netherlands; and D. N. Moisseev, H. Russchenberg, and C. M. H. Unal

Handout (854.0 kB)

- Indicates paper has been withdrawn from meeting
- Indicates an Award Winner
See more of:
<< Previous Session | Next Session >>