DPWX/Severe thunderstorm activity near CSU-CHILL: 29 July 2016.

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Author: Patrick C. Kennedy


30jul2016 0033 RHI inset anot.png

Radial velocity data in a CSU-CHILL RHI scan through a severe thunderstorm approaching the radar site at ~0030 UTC on 30 July 2016. Inset photograph shows the associated lowered cloud base that was visible from the radar. The storm produced hail at multiple locations, including CSU-CHILL. Selected cloud photographs and radar data images from this event have been assembled.

Contents

Overview

During the afternoon hours of Friday, 29 July 2016 severe thunderstorms developed in the area around Cheyenne, Wyoming. These storms produced several reports of damaging hail. As the afternoon progressed, this storm complex tracked south-southeastward approximately towards the CSU-CHILL radar site. Additional reports of severe (1 inch or larger diameter) hail were received as the storms approached Greeley. Hail with maximum diameters of approximately 2.54 cm (1 inch) fell at the CSU-CHILL site near 1900 MDT (0100 UTC on 30 July). The storm complex continued to generate hail and heavy rain as it moved into the southeast quadrant of the radar. This article presents photographs and radar data images selected from various stages of the event.

Observations near 0040 UTC

At 0041 UTC the approaching thunderstorms contained a prominent lowered cloud base with limited visual indications of precipitation. Such wall cloud features typically mark areas of well-organized thunderstorm inflow supplying strong updrafts. In this case, local rotation was not evident in the wall cloud. (The CSU-CHILL radar azimuth to the barn in the center of the image is ~318 degrees).

30jul2016 0041UTC 500w.JPG


The following PPI scan was taken four minutes later (0045 UTC) at an elevation angle of 1.9 degrees. The wall cloud was located in the vicinity of the reflectivity "notch" near the town of Ault. The radar azimuth to Ault is 332 degrees.

30jul2016 0045 z.png


The corresponding radial velocity image is shown in the following plot. Low-level outflow was evident in the southwest (right flank) portion of the storm:

30jul2016 0045 v.png


Observations near 0056 UTC

By 0056 UTC the remnants of the wall cloud were located just north-northwest of the radar site. A sun-illuminated indentation into the more distant (western) side of the wall cloud suggested the local intrusion of drier air.

30jul2016 0056UTC 500w.JPG


The reflectivity data at essentially the same time is presented in the next 1.9 degree elevation angle PPI image. The white plus signs mark the locations and diameters (in inches) of Storm Prediction Center severe weather spotter reports from the 0051 - 0105 UTC time period:

30jul2016 0056 z.png


The corresponding Zdr data shows a well-defined area of ~0 dB or less values in the vicinity of the confirmed hail reports. This Zdr regime occurs where the tumbling hailstone motions yield similar received signal levels at both horizontal (H) and vertical (V) polarizations. In the surrounding echo areas where rain predominates, the oblate drop shapes cause the H signal levels to exceed the V levels, producing positive Zdr values.

30jul2016 0056 Zdr.png


The correlation coefficient between the H and V signal returns (rhoHV) was appreciably reduced in the hail area. This is indicative of a mixture of hailstones and raindrops within the radar pulse volume. The hail diameters were also large enough to promote some additional correlation reductions due to Mie scattering effects.

30jul2016 0056 rho.png


0102 UTC RHI data

As the storm began to affect the radar site, an RHI scan on an azimuth angle of 328 degrees was done with a maximum elevation limit of 89 degrees (i.e., essentially vertically pointing). The reflectivity structure showed that the forward overhang portion of the storm was above the radar this time. In this overhang, the radial velocity contained a small area of positive / away from the radar / upward hydrometeor motions located at a height of ~9 km AGL above the radar. Very strong inbound (negative) velocities (magnitudes of ~45 mps) were evident just to the northwest of the radar near the 45 degree elevation angle (both range and height approximately = 6 km):

30jul2016 0102 2 panel RHI anot.png


The following image shows some of the larger diameter hailstones that fell at the CSU-CHILL site during the storm passage. The stones were generally of high density with multiple observations of the stones bouncing off of the ground; very little evidence of stone shattering were seen. Following the storm passage, hailstone coverage of the ground was sparse.


30jul2016 0128UTC hailstones 500w V2.JPG


0130 to 0206 UTC reflectivity image loop

As precipitation ended at the CSU-CHILL radar site, a high time resolution PPI sector scan over the southeastern azimuth quadrant was established. The 0.9 degree sweep was repeated at approximately one minute intervals. The loop below shows the evolution of the reflectivity data over a period of 36 minutes. The SPC hail reports included two instances of 2.5 inch diameter stones in the region just south-southeast of CHILL. The early portion of the loop contains a 3 body scattering signature from the high reflectivity core that affected this area. The echo motions depicted in the loop also indicate cell mergers due to converging motions in the area approximately 15 km west of the town of Masters. (Masters is near azimuth 115 degrees / range 36 km):


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