How Volcanic Ash Can Kill An Airplane

[Doc]

http://jalopnik.com/5517775/how-volcanic...n-airplane

As volcanic ash spreads from an eruption under a glacier in the Eyjafjallajokull region of Iceland, the British have taken the drastic step of locking down the country's airspace. Here's why.

The world's bustling air traffic corridors pass over hundreds of volcanoes just like the one in Iceland — all of which are capable of sudden, explosive eruptions of fire and ash. In the United States alone, aircraft carry many thousands of passengers and millions of dollars of cargo over volcanoes each day. As we see today, volcanic ash can be a serious hazard to aviation even thousands of miles from an eruption. Airborne ash can diminish visibility, damage flight control systems, and most importantly, cause jet engines to fail.

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Volcanic ash normally contains glassy materials, such as silicates, whose melting points are 600 degrees Celsius to 800 degrees Celsius. Since internal temperature of in-flight jet engine exceed 1000 degrees Celsius, glassy particles in volcanic ash inhaled by the engines instantly melt. In the course of exhaust, the glassy materials are rapidly cooled down in the turbine chamber, stick on the turbine vanes, and disturb the flow of high-pressure combustion gases. This disorder of the flow may stop the entire engine in serious cases — such as KLM Flight 867.

Such dangerous and costly encounters between aircraft and volcanic ash can happen because ash clouds are difficult to distinguish from ordinary clouds, both visually and on radar. Also, ash clouds can drift great distances from their source. For example, in less than 3 days, the ash cloud from the June 15, 1991, eruption of Mount Pinatubo in the Philippines traveled more than 5,000 miles to the east coast of Africa. This ash cloud damaged more than 20 aircraft — including the DC-10 shown above — most of which were flying more than 600 miles from the volcano.

[Mini 9]

Another good bit I just listened to in my rotation on this topic. TalkBack podcast with Wendy Austin. They describe the issue. They mention prop planes vs jets.

http://downloads.bbc.co.uk/podcasts/nort...-1452a.mp3

Also available on iTunes.

Main site link
http://www.bbc.co.uk/podcasts/series/talkback/

Just 8 minutes

[mikebw]

Now we know the real reason the Dinosaurs died- there were huge volcanic eruptions which prevented them from flying, putting a stop to the trans-pangean trade industry. Having no access to foreign goods or services they simply could not go on and decided to off themselves.

[mrbigstuff]

I heard a story yesterday (NPR?) about a 747 pilot who lost all four engines about 20 years ago after flying into a plume of ash. Fortunately for all aboard, the pilots were able to restart them, after descending in a glide 20,000 feet.

It's stories like this that make me all that more fond of terra firma, no matter the conveyance.

[Mini 9]

How does one reconcile those stories of ash, yet crew member get sucked through jets?
(I know, I have no clue if the engine survived, just the guy)


http://www.youtube.com/watch?v=L_gpPbpONK4

[cbelt3]

Mini-
The crew chief that was sucked into the jet engine of an A-6 did NOT actually go 'through' the engine.

He was pulled into the the non rotating vanes in front of the engine. His flashlight and helmet continued through the rotating part of the engine, destroying it.

[Mini 9]

Apologies to my Dad, a WWII jet engine mechanic, but I can't picture that.
Talk about hazard differential (pay)!
Dad did try to walk me through the parts of the jets he worked on, that we saw at a museum. I can't imagine anything going through that without damage to both.

Navy crews would likely say that they and their machine are tough enough to go through a smattering of ash; and at same time denounce the Air Force's sissy, pretty planes and pilots.

[Thrift Store Scott]

A good account of what actually happens when an aircraft flies through an ash cloud-

http://en.wikipedia.org/wiki/British_Airways_Flight_9