Air Mobility Command Public Affairs
9/8/2014 - SCOTT AIR FORCE BASE, Ill. --
Air
Mobility Command led a technical information exchange recently to study
damage to aircraft engines caused by volcanic ash and airborne dust.
Scientists
from the United States and Canada met in person and virtually with
operators from AMC and Air Force Global Strike Command to share research
and discuss policies and procedures for aviation encounters with ash
and dust.
"Volcanic
eruptions are, fortunately, fairly rare events," said Dr. Donald
Erbschloe, AMC chief scientist. "We have a good idea where volcanic
activity is located or concentrated, but we can't predict well in
advance when those eruptions will occur, their severity or character.
One thing is certain though, sufficiently intense eruptions can cause
major disruptions to our operations and to overall flight safety."
While
it's well known to aviators that volcanic ash can cause a turbine
engine to shut down, this gathering also focused on the long-term
effects on engine components.
Dr.
Prakash Patnaik, National Research Council Canada principal research
scientist, spoke about his research, which explains why maintainers
might not discover gas turbine hot section damage until two years after
an aviation ash encounter. He said that during short exposures to
volcanic ash, problems may not be easy to see. However, small
concentrations of sulfur and other alkaloids in the ash can start a
chemical reaction on engine components at high temperatures that can
lead to catastrophic metal failure after hundreds or thousands of hours
of operation.
In
an attempt to combat these long-term problems, Dr. Patnaik and his
Canadian colleagues are researching erosion resistant coatings for gas
turbine compressor blades and the usefulness of protective coatings and
filters at air inlets.
"Our
studies have shown where to look for damage and what to look for," said
Patnaik. "Now is the time to extend our studies to identify the risk,
and cross-leverage information across agencies to develop mitigation
strategies and create a win-win situation."
Capt.
Eric Lyall, Air Force Research Laboratory, gave a briefing on aircraft
maintenance procedures. He said on-going studies will help Air Force
personnel determine how the amount and length of ash exposure affects
the maintenance needed.
Both
Lyall and Patnaik also spoke about the costs associated with volcanic
ash. Even small amounts of exposure can shorten the life of aircraft
engines.
During a
discussion on the effects of the 2010 eruption of the Eyjafjallajökull
volcano in Iceland, Brig. Gen. Brian Robinson, 618th Air and Space
Operations Center (Tanker Airlift Control Center) vice commander, noted
that costs are also inflated when aircraft have to modify their flight
paths to avoid volcanic ash.
Because
of widespread ash over the European continent, the Tanker Airlift
Control Center routed flights to Afghanistan through Spain rather than
Germany. This added time, used more fuel and cost more money. When the
second eruption made those secondary routes unusable, AMC was forced to
fly the opposite direction and travel two-thirds of the way around the
world, or twice as far, to get to the destination. While aerial
refueling was not used on the Pacific route, if it had been necessary,
Robinson said, it would have required three or four times the number of
tanker aircraft and cost much more.
In addition to volcanic ash, scientists have also studied the effects of dust on aircraft engines.
"Our
nuclear deterrence mission holds the nation's highest priority," said
Dr. Christopher Yeaw, Air Force Global Strike Command chief scientist.
"At events like these, we share our scientific knowledge of atmospheric
contamination and the effects debris like volcanic ash, atmospheric dust
or even nuclear contamination might have on our forces. Sharing that
technical knowledge and operational procedures, better prepares Global
Strike Command to defend the nation and ensure a safe, secure, and
effective deterrent force."
Elaborating,
Colonel Joel Dickinson, Deputy Commander of the 608th Air and Space
Operations Center said, "Atmospheric contamination can force us to alter
our strategic bombers' routes of flight, or altitudes, or affect our
ability to command and control our forces. Understanding these
atmospheric phenomena, and their effects on our operations, is crucial
to our demonstrated ability to hold at risk any target anywhere in the
world."
Dr.
John Lekki, from NASA's John Glenn Research Center, spoke about the
vehicle integrated propulsion research studies he conducted involving
the ingestion of controlled quantities of volcanic ash into an operating
engine, which will replicate the conditions of what aircraft would have
been exposed to while flying through volcanic ash. He said results from
the studies will reduce the cost of operations as agencies share
information and cooperate to arrive at a solution faster, cheaper and
better than trying to do it alone.
Lekki
hopes the gathering will result in a combined enthusiasm among many
agencies, which will generate interest and funding for a long-term
study.
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