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Beginning December
6, aviation
weather users will receive detailed updates on in-flight icing, which
can
endanger commuter planes and larger commercial aircraft. Graphical displays,
developed by
researchers at the The displays are
part of an
upgrade to a system called CIP, for Current Icing Product. They will be
available to air traffic controllers, pilots, and other aviation
weather users.
The product has been developed at NCAR with funding from the Federal
Aviation
Administration (FAA). “This is a
major advance that
will enable dispatchers and even pilots to choose flight paths that
avoid icing
conditions,” says Marcia Politovich, who oversees in-flight
icing research at
NCAR. “This product will help make commuter flights safer,
and it will also
enable commercial airlines to avoid the delays and excessive fuel costs
associated with in-flight icing.” Icy weather,
including ice
pellets and cloud droplets that freeze on contact, may affect air
travel
anywhere in the country, especially during colder months. When ice
builds up on
aircraft wings, it can increase the drag on the airplane and make
staying aloft
more difficult. Even when aircraft are certified to fly through icing
conditions, the risk can prompt pilots to detour for hundreds of miles. Upgrading
a Proven Product In 2002, the FAA
approved the
first version of the CIP as a tool for dispatchers to make fly/no-fly
decisions, plan flights, change routes, and select altitudes. The
high-precision maps and plots displayed online were derived from
surface
observations, numerical models, satellite and radar data, and pilot
reports. The new version of
CIP, which is
updated hourly with selectable altitudes up to 29,000 feet,
incorporates more
advanced weather prediction models and more detailed observations.
Instead of
simply indicating the potential for icing, it quantifies the
probability of
icing encounters and their likely severity. Pilots of properly equipped
aircraft will be able to fly through areas of light icing instead of
detouring
around wide regions with potential icing conditions. A major advance over
the previous
version of the CIP is that pilots will be able to access the maps in
the
cockpit, helping them to make course adjustments as needed. The new version of
CIP will most
benefit commuter planes and other smaller aircraft, says Politovich.
Such
aircraft are more vulnerable to icing hazards because they cruise at
lower,
ice-prone altitudes, below 18,000 feet. They also lack mechanisms
common on
larger jets that prevent ice buildup by heating the front edges of
wings. Using
the CIP displays, controllers will be able to guide incoming commercial
jets so
they avoid circling at altitudes where ice could accumulate. A
Costly Hazard A study by the
National
Transportation Safety Board found that in-flight icing was responsible
for
dozens of accidents a year, mostly among smaller, general aviation
aircraft. An
estimated 819 people died in accidents related to in-flight icing from
1982 to
2000, with most accidents occurring between the months of October and
March,
according to the study. Cancellations and
delays due to
icy weather can cost airlines millions of dollars in a single day. On Testing
and Operations The National Weather
Service will
operate the enhanced CIP from the Commuter pilots at
Air
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