Monday, June 8, 2009
Air France and Airbus - the French connection
The crash site of Air France Flight 447
Various photos and diagrams of the Pitot Tubes
Could it be a tiny piece of metal caused the crash of a 120 tonne modern aircraft – the Air France Airbus A330 Flight 447..?
Based on media reports, a possible flaw in the tiny piece of metal called the Pitot tubes, used to measure the speed of aircraft, is being investigated in the case of Air France Flight 447 which disappeared in the Atlantic ocean with 228 people on board, while on a flight from Rio De Janeiro, Brazil to Paris, France on 1st June 2009.
The L-shaped metal Pitot tubes jut from the wing or fuselage of a plane, and are heated to prevent icing. The pressure of air entering the tubes lets sensors measure the speed and angle of flight. An iced-over, blocked or malfunctioning Pitot tube could cause an airspeed sensor to fail, and lead the computer controlling the plane to accelerate or decelerate in a potentially dangerous fashion.
Air France said it began replacing the Pitot tubes on the Airbus A330 model on April 27 after an improved version became available, and will finish the work in the "coming weeks." The monitors had not yet been replaced on the plane that crashed.
So who is at fault here?
Airbus aircrafts are being manufactured in the huge Airbus complex in Toulouse, France.
The aircraft that crashed belongs to Air France.
So there is a French connection here.
Why Airbus and Air France, both from France, cannot sort out the flaws in the Pitot tubes?
Who is at fault and responsible for the crash???
In normal circumstances, aircrafts as huge as Airbus A330 can pass through stormy conditions as well as endure lightnings.
So what exactly happened to the flight on 1st June 2009 at approximately 11.14 pm?
God bless the souls of the 228 passengers of Air France Flight 447. A baby is among the passengers of that flight.
Accidents involving Airbus A 330 aircrafts, happened before.
Notable accidents and incidents involving the Airbus A330 aircrafts :
• On 30 June 1994, an A330 owned by Airbus on a test flight simulating an engine failure on takeoff crashed shortly after take-off from Toulouse, killing all seven on board.
• On 15 March 2000, a 6-year-old Malaysia Airlines A330-300 aircraft was severely damaged by corrosive liquids that were being transported in the cargo hold on a passenger flight from Beijing to Kuala Lumpur. The corrosive liquid oxalyl chloride was mistakenly declared as non-toxic solid hydroxyquinoline. 18 canisters of the substance were transported via Kuala Lumpur intended to transit to Chennai. Five airport workers fell ill as they were unloading baggage from the aircraft at Kuala Lumpur after some of the canisters had leaked and chemicals spilled into the aircraft's cargo hold, resulting in extensive corrosion damage to the fuselage, wing box structure and landing gear. The aircraft was subsequently declared written-off.
On 12 June 2007, a court in Beijing ordered China National Chemical Construction Corp, the owner of the cargo, to pay US$65 million to Malaysia Airlines for the loss.
• On 24 July 2001, two Sri Lankan Airlines A330-243s were destroyed on ground by an LTTE attack at Colombo's Bandaranaike International Airport, Sri Lanka, along with an Airbus A320-200, an Airbus A340-300 and a squadron of military aircraft. Another two planes, an A320 and an A340 were also damaged but have since been repaired
• On 24 August 2001, Air Transat, Flight 236, an A330-243, performed the world's longest recorded glide with a jet airliner after suffering fuel exhaustion over the Atlantic Ocean. The plane flew powerless for 19 minutes and covered 65 nautical miles (120 km) to an emergency landing in the Azores (Portugal). No one was injured, but the aircraft suffered some structural damage and blown tires.
• On 18 July 2003, B-HYA, a Dragonair A330-342 encountered severe turbulence associated with Tropical Depression Koni over the South China Sea, during the flight KA060 from Kota Kinabalu to Hong Kong. 12 crew members and 3 passengers were injured, of which 2 crew members sustained serious injuries, but there were no fatalities. The aircraft landed safely at Hong Kong International Airport.
. On 7 October 2008, VH-QPA, an A330-303 operating Qantas Flight 72, suffered a rapid loss of altitude in two sudden uncommanded pitch down manoeuvres, causing serious injuries while 80 nautical miles (150 km) from Learmonth, Australia. After declaring an emergency, the aircraft landed safely at Learmonth.
• On 1 June 2009, Air France Flight 447, an Airbus A330-203 en route from Rio de Janeiro to Paris with 228 people onboard, was reported lost over the Atlantic Ocean.The aircraft crashed in the Atlantic Ocean 400-500 miles northeast of the islands of Fernando de Noronha. All passengers and crew were killed. The cause remains under investigation.
The latest news on the search and rescue of Air France Flight 447 over the Atlantic Ocean.
File photo of an Air France Airbus A 330 taking off
Photos released by Brazil's Air Force, showing the search and rescue operations.
Brazil's Navy sailors recover debris from the missing Air France jet at the Atlantic Ocean, Monday, June 8, 2009.
RECIFE, Brazil – Search crews recovered the vertical stabilizer from the tail section of an Air France airliner that went down in the Atlantic, Brazil's air force said Monday — a key find that could help locate the black boxes and determine why the jet crashed.
Eight more bodies also were found, bringing the total recovered to 24 since Air France Flight 447 disappeared with 228 people on board, according to Air Force Col. Henry Munhoz.
The discoveries of debris and the bodies are all helping searchers narrow their hunt for the jet's black boxes, perhaps investigators' best hope of learning what happened to the flight. The data and voice recorders are located in the fuselage near the tail section of the jet.
William Waldock, who teaches air crash investigation at Embry-Riddle Aeronautical University in Prescott, Arizona, said that does not mean the black boxes will necessarily be located near where the debris was recovered, "but finding the tail narrows down the area even further."
Brazilian military officials have refused to detail the large pieces of the plane they have found. But a video on the Brazilian air force Web site entitled "Vertical Stabilizer Found" shows video of the piece — which keeps the plane's nose from swinging from side to side — being located and tethered to a ship.
The part had Air France's blue-and-red stripes, was still in its original triangular shape and was not visibly burned.
Waldock — who examined the photos and video of the stabilizer and rudder — said the damage he saw looks like a lateral fracture.
"That would reinforce the idea that the plane broke up in flight," he said. "If it hits intact, everything shatters in tiny pieces."
No signs of burn marks on the stabilizer offered scant clues: Any explosion or fire in the fuselage would likely not make its way back to the tail section, according to Waldock. Examining the fracture surfaces will also be key, Waldock said, since it will indicate from what direction the force came that snapped the piece.
Investigators are also looking at the possibility that external speed monitors — called Pitot tubes — iced over and gave dangerously false readings to cockpit computers in a thunderstorm.
Peter Goelz, a former managing director of the National Transportation Safety Board, said the faulty airspeed readings and the fact the vertical stabilizer was sheared from the jet could be related.
The Airbus A330-200 has a "rudder limiter" which constricts how much the rudder — which is attached to the vertical stabilizer — can move at high speeds. If it were to move too far while traveling fast, it could shear off and take the vertical stabilizer with it.
"If you had a wrong speed being fed to the computer by the Pitot tube, it might allow the rudder to over travel," Goelz said. "The limiter limits the travel of the rudder at high speeds and prevents it from being torn off."
Asked if the rudder or stabilizer being sheared off could have brought the jet down, Goelz said: "Absolutely. You need a rudder. And you need the (rudder) limiter on there to make sure the rudder doesn't get torn off or cause havoc with the plane's aerodynamics."
Goelz also said the bodies recovered will play a role in the investigation. If investigators can determine the identity of a body and know where that person was sitting in the plane, the types of injuries sustained could offer clues into the crash.
The investigation into TWA Flight 800 that crashed off the coast of Long Island, New York, in 1996, found that victims sitting in front of row 30 sustained flash burns. Goelz said that helped investigators confirm that the nose broke off and fire blew back from the fuel tank onto those passengers.
The wreckage and the bodies were found roughly 400 miles (640 kilometers) northeast of the Fernando de Noronha islands off Brazil's northern coast, and about 45 miles (70 kilometers) from where the jet was last heard from on May 31.
Some high-tech help is on the way for investigators — two U.S. Navy devices capable of picking up the flight recorders' emergency beacons far below on the ocean floor. What caused the Airbus A330-200 to plunge into the middle of the ocean on May 31 with 228 people on board might not be known until those black boxes are found.
An internal memo sent to Air France pilots Monday and obtained by The Associated Press urges them to refuse to fly unless at least two of the three Pitot sensors on each planes have been replaced.
The leader of another pilots' union, however, said Monday that Pitot troubles probably didn't cause the Flight 447 disaster.
Searchers must move quickly to find answers in the cockpit voice and data recorders, because acoustic pingers on the boxes begin to fade 30 days after crashes.
While large pieces of plane debris has helped narrow the search, it remains a daunting task in waters up to 1.5 miles (2.5 kilometers) deep and an ocean floor marked by rugged mountains.
Ocean currents over the eight days since the disaster have pushed floating wreckage far and wide, complicating the search, said U.S. Air Force Col. Willie Berges, chief of the U.S. military liaison office in Brazil and commander of the American military forces supporting the search operation.
"In the sense that as the debris drifts away, you're not sure exactly where the black boxes or other parts of the aircraft are on the bottom of the ocean."
The two towed pinger locators the U.S. is sending are expected to arrive in Brazil late Monday and will be dropped into the ocean near the debris field by Thursday, Berges said.
The search is focusing on several hundred square miles (square kilometers) roughly 400 miles (640 kilometers) northeast of the Fernando de Noronha islands off Brazil's northern coast.
The listening devices themselves are five-feet long and weigh 70 pounds. One will be towed by a Brazilian ship, the other by a French vessel, slowly trawling in a grid pattern across the search area. The devices can detect emergency beacons to a depth of 20,000 feet (6,100 meters).
Cables attached to the devices lead to on-board computers, enabling a 10-person team that accompanies each device to listen for pings and to visually see them on a screen, like a radar spotting objects in air.
The French nuclear attack submarine Emeraude, arriving later this week, also will try to find the acoustic pings, military spokesman Christophe Prazuck said.
If the pings are located, French deep-water unmanned subs aboard the oceanographic survey ship Pourquoi Pas will attempt to retrieve the boxes from the ocean floor.
Searchers have spotted two airplane seats and debris with Air France's logo, and recovered dozens of structural components from the plane. They had already recovered jet wing fragments, and said hundreds of personal items believed to from passengers were plucked from the water.
France is leading the investigation into the cause, while Brazil focuses on the recovery of bodies and wreckage.
Brazil says the search area lies southeast of the jet's last transmission — automatic messages signaling catastrophic electrical failure and loss of cabin pressure. The messages mean Flight 447 likely broke apart in turbulent weather while flying from Rio de Janeiro to Paris.
The location of the wreckage could mean the pilot was trying to turn around in mid-flight.
The L-shaped metal Pitot tubes jut from the wing or fuselage of a plane, and are heated to prevent icing. The pressure of air entering the tubes lets sensors measure the speed and angle of flight. An iced-over, blocked or malfunctioning Pitot tube could cause an airspeed sensor to fail, and lead the computer controlling the plane to accelerate or decelerate in a potentially dangerous fashion.
Air France said it began replacing the Pitot tubes on the Airbus A330 model on April 27 after an improved version became available, and will finish the work in the "coming weeks." The monitors had not yet been replaced on the plane that crashed.
An official with the Alter union, speaking on condition of anonymity because the memo was not publicly released, said there is a "strong presumption" among their pilot members that a Pitot problem precipitated the crash.
The memo says the airline should have grounded all A330 and A340 jets pending the replacement, and warns of a "real risk of loss of control" due to Pitot problems.
France's defense minister and the Pentagon have said there were no signs that terrorism was involved in the crash.
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2 comments:
Whatever it is, Gene Hackman was definitely not responsible!!!
as well as Robert De Niro and Al Pacino and Al Capone!!!!!!!!!
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