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Aviation Weather: Weather Hazards

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Title: Aviation Weather: Weather Hazards


1
Aviation Weather Weather Hazards
  • AF 202 Chris Dimoulis

2
Objectives
  • Thunderstorms
  • Wind Shear
  • Turbulence
  • Icing
  • Fog
  • Additional Hazards

3
Thunderstorms
4
Thunderstorms
  • Requirements for thunderstorms
  • Moist air
  • Instability
  • Initial lifting action

5
Thunderstorms
  • If you have the moisture and instability, you
    need a lifting action to set off the
    instability
  • Heating (thermals)
  • Orographic lifting
  • Fronts
  • Low-level Convergence
  • Upper-level Divergence

6
Thunderstorms
  • Heating (Thermals)
  • When the ground becomes much warmer than the air
    above it, the Lapse Rate is GREATER than standard
    (2-3 deg /1000 ft)
  • The slightest displacement of that warm air (say
    a wind gust) will send that warm air into a
    vertical motion
  • This creates bubbles of rising warm air that we
    call thermals

7
Thunderstorms
  • Heating (Thermals) cont.
  • Thermals can have horizontal dimensions of a few
    hundred to a few thousand feet.
  • Vertical speeds can be a few hundred F.P.M. to
    2,000 F.P.M
  • Thermals can happen as long as the ground is
    warmer than the air above it (i.e. cold front
    passage)
  • Most common in hottest months and time of day
    (i.e. Southern Illinois in the summer)

8
Thunderstorms
  • Orographic lifting
  • A fancy name for when air is lifted due to a
    mountain or other terrain
  • Fronts
  • The wedge of the warm or cold front lifts the
    warm air mass and sets off any instability

9
Thunderstorms
  • Low-Level Convergence
  • Convergence is when the air horizontally
    converges into an area
  • This creates a higher pressure and the only place
    for that air to go is up
  • Upper-Level Divergence
  • Divergence is when the air horizontally diverges
    from an area
  • This creates a upper area low pulling air up from
    the surface

10
Thunderstorms
  • Three stage of the thunderstorm
  • Cumulus
  • Mature
  • Dissipating

11
Thunderstorms
12
Thunderstorms
  • Cumulus Stage
  • Updrafts predominate and are continuous
  • Updraft area is much larger than just one
    individual thermal
  • You can visually see one particular cloud growing
    faster than all others (and all others may even
    shrink as the feed the one)
  • This stage could grow the cloud all the way to a
    towering cumulus (about 20,000 feet)
  • Usually does not produce precipitation, but can
    (though it will not become mature)

13
Thunderstorms
  • Mature Stage
  • Begins when precipitation-induced downdrafts
    reach the ground
  • Lightning and thunder
  • Well organized circulation in the cloud
  • Top of cloud reaches into the lower stratosphere
  • The well known anvil shape is formed
  • A cumulus stage that produces precipitation does
    not reach mature stage and does not produce
    lightning and thunder

14
Thunderstorms
  • Dissipating Stage
  • Characterized by precipitation and downdrafts
  • Updrafts are cut off so there is no more
    development
  • Ends with stratiform clouds since the anvil layer
    is often an ice cloud, it still lingers after the
    storm dissipates

15
Thunderstorms
  • Single Cell
  • Cumulus stage lasts 15 minutes
  • Mature stage lasts about 30 minutes
  • Total lifespan of a single cell storms is about 1
    hour

16
Thunderstorms
  • Multicell Thunderstorms

17
Thunderstorms
  • Multicell Thunderstorms
  • The key to prolonged life is the gust front
  • Cumulus stage clouds develop
  • As they move into mature or dissipating stage,
    more cumulus stage clouds develop

18
Thunderstorms
  • Multicell Thunderstorms

19
Thunderstorms
  • Supercell Thunderstorms

20
Thunderstorms
  • Supercell Thunderstorms
  • Produces the extreme convective activity
  • Strong updrafts producing cloud bulges above the
    anvil top
  • Updrafts and downdrafts remain separated which
    prolongs its life

21
Thunderstorms
22
Thunderstorms
23
Thunderstorms
24
Thunderstorms
25
Thunderstorms
26
Hazards
  • Tornados
  • A violently rotating column of air
  • Winds up to 200 miles per hour (or more!)
  • Incredible localize damage

27
Hazards
28
Hazards
29
Hazards
30
Hazards
  • Hail
  • A result of very strong updrafts
  • Can be thrown out the top of the thunderstorm
  • Tenths of an inch to larger than a softball

31
Lightning
  • Electric discharge
  • Heats surrounding air to 50,000 deg. F. causing
    air to rapidly expand
  • Thats what causes the shockwave called thunder
  • In Cloud, Cloud to cloud, cloud to ground

32
Hazards
33
Hazards
  • Downdrafts
  • Can cause low level wind shear

34
Pilot advice
  • Stay 20 NM away from a thunderstorm
  • And dont fly through or under one!

35
Wind Shear and Turbulence
36
Wind Shear
  • Definition
  • A change in wind direction and/or speed within a
    very short distance
  • Causes of Wind Shear
  • Microburst
  • Passing fronts
  • Temperature Inversions

37
Wind Shear
  • Low Level wind shear is most hazardous to pilots
  • A sudden increase in wind or a switch from tail
    wind to head wind could give the pilot false
    indications

38
Turbulence
  • Technically defined as bumpiness in flight
  • Types
  • Low Level Turbulence (below 15,000ft)
  • In and near thunderstorms
  • Clear air
  • Mountain wave

39
Low Level Turbulence
  • Mechanical Turbulence
  • The stronger the wind, the higher mechanical
    turbulence can reach

40
Low Level Turbulence
  • Thermal Turbulence
  • An unstable cold airmass over warm ground is
    prime ingredients for thermals
  • Hot air rising causes vertical motion

41
Clear Air Turbulence
  • Occurs in the free air away from any convective
    activity
  • Above 15,000 ft where beyond the affects of low
    level turbulence
  • Cannot usually be seen unless there are any
    clouds to show affect

42
Clear Air Turbulence
43
Clear Air Turbulence
44
Mountain Wave Turbulence
  • Stable air flowing over mountains
  • Can affect air patter for 100s of miles

45
Mountain Wave Turbulence
46
Icing
47
Icing
  • Icing occurs
  • When there is visible moisture or precipitation
  • Temperatures of aircraft skin are below freezing

48
Icing
  • Types
  • Clear
  • Rime
  • Mixed

49
Icing
  • If you pick up icing
  • 180 to get out of cloud
  • Climb to find temperature inversion or sun
  • Descend to warmer temps

50
Fog
51
Fog
  • A cloud below 50 feet
  • Needs condensation nuclei and moisture
  • Types
  • Radiation
  • Advection
  • Steam
  • Upslope
  • Ice
  • Precipitation

52
Fog
  • Radiation (Ground Fog)
  • Little or no wind
  • Common in valleys and low lying areas
  • Ground is cooledrapidly
  • Air above is then cooled to dew point

53
Fog
  • Advection Fog
  • Wind above 15 knotswill make stratus clouds
  • Water changes tempslower than terrain
  • At night water remainswarmer
  • In the morning waterremains colder

54
Fog
  • Steam Fog
  • Cool air over warm water
  • Resemblessmoke

55
Fog
  • Upslope Fog
  • Moist stable air is forced up sloping land
  • As air climbs, temperature is dropped to dew
    point.

56
Fog
  • Ice Fog
  • Temps below freezing
  • Water vapor sublimateto ice crystals
  • Blinding with light

57
Fog
  • Precipitation Fog
  • Warm rain falls through cool air
  • As rain falls some evaporates and saturates the
    air
  • Does not enduntil rain does

58
Additional hazards
59
Volcanic Eruptions
60
Sand/Dust Storms
61
Cows
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