Why Iceland volcano has grounded UK flights

2010-04-16 09:52:04

ANALYSIS

By Victoria Gill

Science reporter, BBC News

More than 1,000km from the event itself, Iceland's second volcanic eruption in

the space of a month has caused flights in the UK to be grounded.

Scientists and aviation authorities are continuing to monitor a plume of

volcanic ash that is moving southwards over the UK.

The entirety of UK airspace closed from noon on Thursday.

National Air Traffic Services said: "No flights will be permitted in UK

controlled airspace other than emergency situations" until 0700 BST on Friday

at the earliest.

The eruption ejected the plume, which is made up of fine rock particles, up to

11km into the atmosphere.

"This ash cloud is now drifting with the high altitude winds," said Dr David

Rothery, a volcano researcher from the UK's Open University.

"The main mass is over Scandinavia, but it is also over the north of Great

Britain and is likely to spread south over the whole island by the end of

[Thursday]."

It developed into something more than we'd ever seen before... it was, yeah,

a little bit frightening

Capt Eric Moody, who piloted a 747 through a volcanic dust cloud

The plume is so high that it will neither be visible nor pose a threat to the

health of humans on the ground, although Dr Rothery added that we may have a

"spectacularly red sunset" on Thursday evening.

The major concern is that the ash could pose a very serious hazard to aircraft

engines.

Dr Dougal Jerram, an earth scientist at the University of Durham, UK,

explained: "Eruptions which are charged with gas start to froth and expand as

they reach the surface.

"This results in explosive eruptions and this fine ash being sent up into the

atmosphere.

"If it is ejected high enough, the ash can reach the high winds and be

dispersed around the globe, for example, from Iceland to Europe. These high

winds are exactly where the aeroplanes cruise."

Emergency developments

Airports operator BAA confirmed that all flights at Heathrow, Stansted and

Gatwick would be suspended from midday.

"Air traffic restrictions have very properly been applied," said Dr Rothery.

"If volcanic ash particles are ingested into a jet engine, they accumulate and

clog the engines with molten glass."

In 1982, British Airways and Singapore Airways jumbo jets lost all their

engines when they flew into an ash cloud over Indonesia.

Reports said that the ash sandblasted the windscreen and clogged the engines,

which only restarted when enough of the molten ash solidified and broke off.

A KLM flight had a similar experience in 1989 over Alaska.

Stewart John, a fellow of the Royal Academy of Engineering and former president

of the Royal Aeronautical Society, explained that the ash can cause severe

damage.

"This dust really is nasty stuff," he told BBC News. "It's extremely fine and

if it gets into a jet engine, it blocks up all of the ventilation holes that

bleed in cooling air.

"Jet engines operate at about 2,000C, and the metals can't take that. The

engine will just shut down."

In the case of the 1982 British Airways flight, Dr John explained, when the

plane emerged from the cloud, the pilot repeatedly tried and failed to restart

the engines.

"They were going down and down, and had just about accepted that they would

have to ditch.

"But, at the last minute, one engine started. By repeatedly turning the engine

over and having a clean airflow going through, he managed to blow the ash out."

Dr Rothery explained that as a result of those incidents, emergency procedure

manuals for pilots were changed.

"Previously, when engines began to fail the standard practice had been to

increase power. This just makes the ash problem worse," he said.

"Nowadays, a pilot will throttle back and lose height so as to drop below the

ash cloud as soon as possible. The inrush of cold, clean air is usually enough

to shatter the glass and unclog the engines.

"Even so, the forward windows may have become so badly abraded by ash that they

are useless, and the plane has to land on instruments."

Dr John concluded: "We do not know how long this will last.

"It's like a typhoon - because you can't fly through it, you can't directly

monitor it, so we have rely on satellite images and to err on the side of

extreme caution."

Story from BBC NEWS:

http://news.bbc.co.uk/go/pr/fr/-/2/hi/science/nature/8621992.stm

Published: 2010/04/15 12:11:31 GMT