Transcript Hurricanes
Tropical Cyclones and Hurricanes
Read Chapter 11
Charley
Ivan
Katrina's landfall
The Hurricane
A low pressure system of
tropical origin that produces
sustained surface winds
>=74mph
Organized convection
around center
Tropical cyclone is generic
name given low-pressure
systems forming over warm,
tropical seas (typhoon in
western pacific, super
typhoon if winds >150 mph)
The Hurricane: Birth Regions
Not over land
Not high latitudes, but not at the equator
either
(Graphic by Robert Simmon, NASA GSFC)
Active Season last year,
Inactive this year
2006
8
5
2
A Recipe for Hurricane Formation
1) Sea surface temperature (SST) >80°F
(26.5°C) & deep layer of warm water
2) Conditional/absolute instability through a
deep layer of troposphere- Important for
thunderstorms!
3) Moist air in mid-troposphere
4) Weak vertical wind shear
5) Genesis region at least 5° away from
equator
6) Source of low-level cyclonic spin
Ingredient #1: Warm water
Warm water ensures
high evaporation rates,
thus high low level
dew points…promotes
instability &
convection!
Tropical cyclones can
rapidly strengthen if
they move over patch
of warm water
Atlantic Hurricane Season Peaks ~
Sept.10 – around when ocean is
warmest
Why is a relatively deep layer of warm
water needed?
Strong hurricane wind can lead to
upwelling of colder water from below as
high winds at surface mix the ocean water
– Cooler surface waters lead to less
evaporation, more stabilized atmosphere
Ingredient # 2: Conditional Instability- How
convection leads to pressure falls
Animation on CD – let’s take a look
Ingredient #3: Mid-Tropospheric
Moisture
Dry mid-level air promotes hurricane
decay by leading to precipitation
evaporating => downdrafts => cooler,
more stable air near ground => less
convection
#4) Vertical wind shear separates
low level circulation from tall
thunderstorms
Less wind shear =>
better environment for
hurricane formation
Ingredient #5: Cyclonic vorticity (spin)
Earth vorticity is increased as one head toward poles,
it’s zero at equator (related to Coriolis force)
Earth vorticity needed for cluster of t-storms to obtain
cyclonic spin
Tropical cyclone formation at least 5° from equator
Ingredient #6: Tropical Waves
Emerge every 3-4 days off
coast of Africa from JuneOctober, about 60/year
When waves spawn
hurricanes in east-central
Atlantic, storm is termed
“Cape Verde”
storm…Cape Verde
season is from August to
October
Intertropical Convergence Zone
(ITCZ): The source for tropical
waves
Stages of Development I
Tropical disturbance: disorganized blob of
thunderstorms, often forms within the ITCZ
– If atmosphere and ocean conditions favor
development, we enter a positive feedback loop
Latent heat release in thunderstorms through
condensation
Increased pressure aloft
Upper-level divergence, latent heating &
compressional warming lead to lower surface
pressure
Increased inflow deflected to right and cyclonic
circulation enhanced, more evaporation into air
=>more fuel for t-storms…
Animation of this process on CD
…->Tropical Depression
organized thunderstorms, circular wind flow
around center, wind speed less than 39 mph
– Given number-letter tag (i.e. Tropical
Depression 5-A)
Stages of Development II
Tropical Storm: sustained wind speeds
from 39-73mph with higher gusts
– Storm gets a name
Six-year cycle
(http://www.nhc.noaa.gov/aboutnames.shtml)
Names reused or retired if storm is historic
If all names used in a season, storms named
with Greek alphabet
– If conditions remain favorable, positive
feedback loop continues, leading to…
Stages of Development:
Hurricane
Wind speed (sustained)
at least 74 mph
An eye forms
Spiral bands
Conservation
of angular
momentum
Strength dictated by
SSTs
Strength of tropical cyclone related to
number & intensity of thunderstorms
around eye
Winds fastest near surrounding calm eye
of hurricane…known as eye wall
Relative
Velocity
Strongest winds in
a tropical cyclone
are in the right
front quadrant
How does the eye form?
As air spirals into center of
storm, outward acting
centrifugal force
increases…eventually,
centrifugal force equals
PGF and air stops
spiraling inward….leads to
increased convergence
and rising air motion
Diameter ~ 25 mi
Smaller eye-stronger
hurricane
Loop of Hurricane Katrina showing
cyclonic flow
http://www.atmo.arizona.edu/products/radar/
kat_lix_rad.gif
Importance of anticyclonic flow aloft
above a hurricane…increased upperlevel divergence
Hurricane Felix
Vertical Wind Profile in a
Hurricane
Speedy ring of air at
surface in eye wall
expands outward as it
rises due to upperlevel divergence
Wind speed decreases
with height conserving
angular momentum
Hurricane: Saffir-Simpson
Scale (in need of revision?)
This graphic was created by Lynn A. Dombrowski,
Ed. D.
Storm Surge
Water, not wind, is by far the biggest killer
(includes both storm surge and fresh water flooding)
Right front quadrant is most dangerous
(N.Hemisphere)
– Strongest winds (rotation + translation velocities)
– Winds blow on-shore which piles up water
Apartment Complex before Camille
Apartment Complex after Camille
Demise
Loss of fuel
– Moves into colder water
– Moves over land
Wind shear
– Tilts the thunderstorms
– Lowest pressure not concentrated, pressure
gradient relaxes and winds weaken
Increased friction (landfall)
Symbols on Weather Maps
Tropical Storm Symbol
Hurricane Symbol
Hurricane Watches/Warnings
Watch - Issued when there is a possibility
that a part of the coastline could experience
hurricane conditions within 36 hours
Warning – Issued when hurricane
conditions are expected for a part of a
coastline within 24 hours
Understanding National Hurricane
Center (NHC) Forecasts
http://www.nhc.noaa.gov/archive/2005/KAT
RINA_graphics.shtml