Transcript ppt
Mountain windstorms
Downslope windstorms:
general term of a windstorm in which air flows
down the side of a mountain.
Local names include:
• Foehn: Alps (warm)
• Bora: Adriatic Sea (cold)
• Chinook: Rockies (warm or cold)
• Santa Ana: Southern California (warm)
• Katabatic: Antarctica (cold)
Locations of downslope windstorms
in western North America
Very strong Chinook downslope windstorms
occur every winter in Boulder., Colorado
The Dynamics of Downslope Winds
Windward side: upwind side of a mountain range
Leeward (or lee) side: downwind side of a mountain range
As air encounters a mountain range it must rise on the windward side and
then descend on the leeward side. Lee waves are a series of waves that form
downstream of mountains.
Lenticular cloud
In the above diagram, the lines are streamlines, representing flow over the mountain.
Winds are very strong where streamlines are close together.
The combination of an inversion upstream and the mountain created strong winds
accelerating down the mountain.
This may result in a hydraulic jump, an abrupt change in velocity in fluid flow. East of
the jump, areas of rotation called rotors develop.
The intensity and position of the jump – and therefore the strength of the windstorm – is
tied to the strength and location of the upstream inversion.
Cold versus Warm Downslope Winds
three factors determine the temperature of the downstream wind
A Chinook wall: Clouds have formed on the windward side
of the Rockies, precipitating and releasing latent heat.
On the leeward side, the clouds evaporate.
1. At what rate does air warm as it descends?
2. How much does air warm as it descends from the crest of the
Rockies to Boulder (dz = ~1.5 to 2 km)?
3. How would this warming affect the relative humidity?
4. And how would the relative humidity of descending air affect
snow cover in Boulder?
Chinook wall
Forecasting Chinooks
What are the three requirements for a
Chinook to form?
Forecasting Chinooks
What are the three requirements for a
Chinook to form?
1. Stable layer upstream of the mountain 1-2 km
above mountaion top
2. Strong surface pressure gradient across the
mountain
3. Background flow at mountaintop (~700 mb) is
strong and westerly
Chinook winds can produce rapid
temperature fluctuations,
depending on the position of
hydraulic jump and cold air that
may be located at the surface.
A B C D
World records: 27˚C (49˚F)
increase in temperature in 2
minutes, 1943, Spearfish, SD.
15 to 20˚C (27 to 36˚F) increase in
temperature not uncommon in
Boulder.
Surface temperature and SLP
from the Jan 17, 1982 Chinook
in Boulder.
Lee trough: area of low
pressure on the lee side of the
mountains.
700 mb height field with shaded isotachs for January 17, 1982.
Soundings from Grand Junction, CO
and Lander, WY (just upstream of
Front Range) from Jan 17, 1982.
Where are the inversion levels
located relative to the crest of the
mountains?
Santa Ana Windstorms of California
Santa Ana winds: the name given to
downslope windstorms in Southern
California
Santa Ana winds are easterly winds
that blow from the desert of the Great
Basin across the San Bernadino and
San Gabriel Mountains and into
Southern California.
What two conditions are required for
Santa Ana winds to form?
Santa Ana winds are not typically as strong as Chinook winds, but wind speed
can be enhanced when flow is funned through canyons east of Los Angeles.
Why would we care about Santa Ana winds – particularly in California’s dry
season in late fall and winter?
Figure 16.11
Figure 16.13
Figure 16.14
Katabatic Winds
Katabatic wind – a cold,
downslope wind that is the result of
cold air flowing downslope under the
force of gravity
How do katabatic winds form?
How do katabatic winds differ from
Chinook winds and Santa Ana winds?
Where would katabatic winds typically
occur?
Figure 16 A