Nathan Lis - April 16

ARRC Student Seminar Thursday, April 16 @ 1:00 PM  Drop Size Distribution Retrieval from Radar Data to Enhance the Spectral Bin Classification in Detecting Icing Conditions   Nathan Lis School of Meteorology  Zoom link:  https://oklahoma.zoom.us/j/327968833 Zoom password: 029695   The emerging Appendix O restrictions on flight into and out of terminal airspaces

Start

April 16, 2020 - 1:00 pm

End

April 16, 2020 - 2:00 pm

ARRC Student Seminar

Thursday, April 16 @ 1:00 PM 

Drop Size Distribution Retrieval from Radar Data to

Enhance the Spectral Bin Classification in Detecting Icing Conditions

 

Nathan Lis

School of Meteorology 

Zoom link:  https://oklahoma.zoom.us/j/327968833

Zoom password: 029695

 

The emerging Appendix O restrictions on flight into and out of terminal airspaces (TASs) require discrimination between freezing rain, freezing drizzle, and other forms of winter precipitation.  In this research, several methods for refining hydrometeor phase delineation within a Spectral Bin Classification (SBC) algorithm currently implemented within the Multi-Radar/Multi-Sensor (MRMS) system are analyzed.  Sensitivity tests indicate that dynamic estimates of the drop size distribution (DSD) are needed to enhance precipitation classification, and reliable results can be obtained with a simple reflectivity-only based Marshall-Palmer type distribution.  In addition, vertical super-sampling of the wetbulb temperature profile allows for a more accurate assessment of the liquid-water fraction within temperature regimes that fluctuate around zero Celsius.

 

These modifications are tested within the MRMS framework, and the resulting surface precipitation classification is verified.  In comparison to the original version of the code, more realistic fine-scale detail of the hydrometeor phase distribution is obtained, as is a more refined analysis of the liquid-water fraction.  Verification against both ASOS and mPING observations shows improvement, with statistics indicating between a 5-10% increase in probability of detection for rain and rain-snow mix classifications due to the modifications.  Novel methods of visualizing hydrometeor phase across the DSD for each TAS show promise as decision support tools, and this updated SBC product will be implemented into an operational setting in the near future.