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THUNDERSTORMS AND WIND SHEAR

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Presentation on theme: "THUNDERSTORMS AND WIND SHEAR"— Presentation transcript:

1 THUNDERSTORMS AND WIND SHEAR
Angela Lese National Weather Service Louisville

2 OUTLINE Basic thunderstorm mechanics Wind shear
How do we forecast wind shear? Preparation (examples in TAFs) Summary

3 The Thunderstorm What is it? Ingredients Rapidly rising column of air
Warmer than its surroundings Ingredients Moisture Instability Forcing/lifting mechanism Front Low pressure Other boundary (outflow, lake breeze) Upslope/Orography Daytime heating

4 Thunderstorm Stages All updraft No rain/wind yet Cumulonimbus/anvil
Heavy rain/wind/hail All downdraft Light rain/weak winds

5 Thunderstorm Frequency

6 Thunderstorm Hazards Icing Lightning IFR and LIFR conditions
Turbulence/Wind shear

7 Wind Shear What is turbulence? What is wind shear?
Wind currents that vary greatly over short distances What is wind shear? A change in horizontal wind speed and/or direction with height Two types of wind shear Convective wind shear Non-convective wind shear

8 Convective Wind Shear Convective wind shear Also known as microburst
Short-lived, ground-based, small-scale event Associated with thunderstorms Will be included in any TAF if: Thunderstorms are expected at or in the vicinity of the airport

9 Hard edges: Turbulent up to 20 miles away
Fuzzy anvil: Icing Hard edges: Turbulent up to 20 miles away Under the storm: IFR/LIFR/VLIFR, Microbursts

10 MICROBURST LIFE CYCLE FORMATION
Evaporation and precipitation drag forms downdraft IMPACT Downdraft quickly accelerates and strikes the ground DISSIPATION Downdraft moves away from point of impact

11 Microburst Glideslope
X Y Z Glideslope The aircraft encounters point X, where it enters the microburst zone, and a headwind causes it to rise above the normal glideslope. At the center of the microburst, point Y, there is a downdraft causing the aircraft to sink. The aircraft now enters the most dangerous zone, point Z, where a sudden tailwind causes the aircraft to lose airspeed and potentially crash. F

12 Microburst

13 Non-convective Wind Shear
Also known as low-level wind shear (LLWS) Longer-lived, large-scale velocity change with height Usually associated with nocturnal low-level jet LLWS will be included in any TAF if: One or more PIREPs are received that include LLWS within 2,000 feet of surface, at or within vicinity of airport, causing an air speed loss or gain of 20 knots or more Wind shear of 10 knots or more per 100 feet in a layer more than 200 feet thick are expected/reported at or within vicinity of airport

14 Non-convective Wind Shear
1,000 feet 500 feet Surface WSW 50 knots SW 30 knots SE 10 knots

15 Forecasting Wind Shear
How are we forecasting microbursts? Severe: greater than or equal to 50 knot gusts Strong: roughly knot gusts Average: roughly 20 knot gusts How are we forecasting LLWS? If winds will be > 40 knots in lowest 2,000 feet with surface winds < 10 knots (> 30 knot change) If wind direction will be > 60 degree difference between the surface and 2,000 feet Question: how does this criteria suit you? Would you like to see more liberal criteria?

16 Forecasting Wind Shear
What can we use? For convective wind shear. . . Radar velocity data Surface observations PIREPs For non-convective wind shear. . . RAOB soundings Radar VWP Profilers ACARS/model soundings Model forecasts

17

18

19 Radar Velocity RAOB VWP Profiler Surface Obs ACARS sounding PIREPs
Model forecasts 165o at 5 knots – 1100 feet 225o at 40 knots – 2200 feet

20 Preparation Prepare ahead of time for your flight!
Monitor the TAFs at the appropriate airport and at surrounding airports NWS homepage: weather.gov/louisville Aviation Digital Data Service: adds.aviationweather.gov But to be prepared, you must know the difference between convective and non-convective wind shear in TAFs

21 TAF Examples Convective wind shear Non-convective wind shear
FM G20KT P6SM VCTS BKN040CB FM G35KT 3SM TSRA BR BKN035CB FM2100 VRB20G55KT 1/2SM +TSRA FG BKN015CB Non-convective wind shear FM KT P6SM SKC WS015/19040KT FM0800 VRB02KT P6SM SCT010 WS010/22035KT FM KT P6SM SKC WS020/23055KT

22 Summary Thunderstorms produce convective wind shear, which is short-lived, and localized Microbursts (FAA may refer to this as ground-based wind shear) Non-convective wind shear is longer-lived and on a larger scale LLWS not associated with a thunderstorm Low-level jet (often occurs in morning-nocturnal) WS in TAF – non-convective wind shear TS and gusts in TAFs – microburst LLWA at airport – microburst Help us by sending more PIREPs!!

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