Hi My Friends: A VUELO DE UN QUINDE EL BLOG., While piloting a commercial transatlantic flight last year, Captain
Klaus Sievers and his crew got a whiff of an unusual odour. In a
confined space 10 km up in the air, there was only one thing it could
be.
Sulphur dioxide
from Grímsvötn volcano on 27 May 2011. Once landed, Captain Klaus
Sievers used satellite data provided by the Support to Aviation Control
Service (SACS) to confirm the presence of sulphur dioxide and,
subsequently, the presence of some volcanic aerosol. This image is based
on data from the GOME-2 instrument on the MetOp-A satellite.
Credits: DLR/BIRA-IASB/Eumetsat
While piloting a commercial transatlantic flight last year, Captain
Klaus Sievers and his crew got a whiff of an unusual odour. In a
confined space 10 km up in the air, there was only one thing it could
be.
The foul smell with traces of sulphur in the cockpit came from none other than the Grímsvötn volcano that was spewing gas and ash from southeast Iceland.
The foul smell with traces of sulphur in the cockpit came from none other than the Grímsvötn volcano that was spewing gas and ash from southeast Iceland.
Sulphur dioxide often indicates volcanic ash, and the presence of ash in the atmosphere can endanger jet engines.
Timely information about ash, sulphur dioxide clouds and their dispersion are crucial to alert civil aviation authorities.
Earth-observing satellites can provide this information. With frequent
and worldwide measurements of ash plumes and sulphur dioxide emissions,
satellites help to improve aviation safety.
Once landed, Captain Sievers, a representative of the German Airline Pilots’ Association, used data from the MetOp satellite via the Support to Aviation Control Service – SACS – to confirm the sulphur dioxide.
Captain Klaus Sievers took these photos from the window of his cockpit
over the Atlantic. Volcanic aerosol is visible in the atmosphere (in
grey).
Credits: K. Sievers
“The SACS images allowed me clearly to identify and locate the Grímsvötn sulphur plumes after the flight,” he said.
“The images also gave an indication of the gas cloud position before the
flight, but did not provide a forecast of their exact location.
“As I found out, the smell of Grímsvötn is not pleasant. For comfort and
safety reasons, it would be good if it were possible to avoid such an
experience for you and all people on the airplane.”
Inhalation of sulphur dioxide, even at low concentrations, can affect
people with respiratory problems. Flight crews are advised to use oxygen
masks while the smell lingers.
When sulphur dioxide combines with water in the atmosphere, sulphuric
acid is formed, which can damage aircraft windows, fade exterior paint
and build up sulphate deposits in engines. This leads to higher
maintenance costs.
Based on multi-satellite observations, SACS provides early warning ash
and sulphur dioxide information about volcanic eruptions.
When an eruption occurs, an alert is sent to interested users, most
notably to Volcanic Ash Advisory Centres, and public maps are generated
showing the extent and intensity of the volcanic plumes.
Capt. Sievers has been using satellite images through the SACS service
for the past two years to prepare for his intercontinental flights.
It proved particularly useful when planning his route from the Far East
to Europe on 15 June. A day earlier, the Nabro volcano had erupted in
Eritrea, spewing ash across his intended route over East Africa and the
Middle East.
On 14 June 2011, the IASI instrument on MetOp-A satellite detected
sulphur dioxide over East Africa and the Middle East. The sulphur
dioxide plume came from the Nabro volcano in Eritrea. This information
enabled Captain Klaus Sievers to plan a trouble-free flight for the next
day.
Credits: ULB
“Satellite information on sulphur dioxide-cloud movement raised awareness of a natural phenomenon,” said Capt. Sievers.
“This influenced the choice of a flight level for a trouble-free flight during the night of 15–16 June.
“As a captain, I would like to receive realtime observations and forecasts of volcanic ash and sulphur dioxide in the future.
“These should include height and concentration information, and good geographic coverage.
“The information should be provided with the regular flight documents for decision-making by the crew.
“At present, there is no legal requirement for sulphur dioxide information, which I deeply regret.”
Volcanic ash and sulphur dioxide can spread rapidly in the atmosphere, affecting skies over a wide area.
The eruptions of Iceland’s Eyjafjallajökull in April 2010 and Grímsvötn
in May 2011 caused air traffic to be temporarily suspended throughout
Europe, affecting economic, political and social activities worldwide.
ESAGuillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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