AIRBORNE FIELD MILL
PROJECT
KENNEDY SPACE
CENTER
SYNTHESIS FOR JUNE 13, 2000 - ABFM
Flight Summary (Anvil Day)
Case 1 (Times: 2045 - 2405)
|
Type of case | anvil |
| Complexity | complex |
| Convection | convective complex |
Electric field
kV/m | Min Em_m = 0.026
Max Em_m = 39.346
Mean Em_m = 4.404 |
Microphysics
#/Liter |
Max CON_FSSP = 26604.867
Mean CON_FSSP = 3624.157
|
Max Tot_con_1DC = 700.382
Mean Tot_con_1DC = 56.906
|
Max Tot_con_2DC = 1395.879
Mean Tot_con_2DC = 92.795
|
Max 2DC_100_400 = 659.884
Mean 2DC_100_400 = 42.320
|
Max 2DC_400_1000 = 56.630
Mean 2DC_400_1000 = 7.907
|
Max 2DC_GT_1000 = 3.013
Mean 2DC_GT_1000 = 0.438
|
|
| Location | (x,y) ~ (-70,-20) |
| Storm Motion |
2.6 m/s to the west and 2.1 m/s to the north gives: 3.3 m/s NW |
Brief Description |
Good anvil study. Aircraft arrives in the early stages of anvil
development and remains until little or no initiating convection is left.
Lightning activity until 2145.
|
This is an excellent case in which the Citation investigated the anvil
of an isolated, electrically active thunderstorm for over three hours
starting at a time when the storm was still producing lightning through
the time when the fields had decayed to a couple of kV/m. It is also an
excellent case for examining the spatial/temporal decay of electric field
downwind of the core of a storm.
SYNTHESIS FOR JUNE 13, 2000 - ABFM
Investigator: Jim Dye
[Not presented at a teleconference.]
The following summary is from the notes that Jim Dye and Eric Defer put
together. Probably early in 2001 (before the May/June 2001 Field
Campaign).
This is an excellent case in which the Citation investigated the anvil
of an isolated, electrically active thunderstorm for over three hours
starting at a time when the storm was still producing lightning through
the time when the fields had decayed to a couple of KV/m. It is also an
excellent case for examining the spatial/temporal decay of electric field
downwind of the core of a storm.
The storm started producing lightning near 1930 about 100 km SW of KSC
with an anvil blowing off to the NE. The anvil reached KSC at XXX? as
reported by observers at the ROCC. The last CG flash occurred at ~2135,
with LDAR sources continuing until 2150 to 2200. LDAR shows sources in
the vicinity of the A/C during this period, but we are uncertain of their
veracity. [The CTI listing of LDAR status for ABFM 2000 shows electromagnetic
interference for this day, but the spatial and temporal coherence of
most sources match well with CGLSS reports. Most of the data we find
believable.] No LDAR sources are seen in that region after 2200. The
core of the storm as viewed by the lightning activity remained in the
same location centered near (-80,60) spreading 10 to 15 km away from
that center. From ~2045 until 2225 the A/C made E-W reciprocal passes
across the anvil while the storm was producing lightning and as the
lightning stopped. It then commenced SW-NE passes along the axis of the
anvil until about 2355. These passes extended over KSC and the field mill
network and were at altitudes of 10.5, 8.7, and 7.9 km.
The E-W passes show strong fields with magnitudes from 10 to 50 KV/m both
positive and negative. There is large horizontal variability, e.g. the
passes from 2145 to 2200 show Ez as large as +35 and -50 KV/m. The fields
diminish to a few KV/m by 2220. This decrease is partially temporal as the
storm dies, but also spatial and dependent upon where the aircraft happens
to fly relative to the storm.
The NE-SW passes show Ez to be less than 1 to2 KV/m except when flying near
and over the decaying core region of the storm, where fields as large as 50
to 60 KV/m were observed. Larger fields in both the E-W and SW-NE passes
tend to be associated with higher reflectivity at and below the aircraft.
On the NE-SW passes the fields rapidly increase as the A/C approaches the
higher reflectivity, but are weak and relatively uniform until that point.
The measurements suggest that the charge causing the larger fields resides
on falling precipitation below the aircraft.