FAA Requires 16g Seats in All New Planes

I’ve been working lately on a freelance project for stress analysis of aircraft seat designs and structures so this caught my eye as my project is part of the effort to comply with the new FAA standards for safer seats on all new planes.

Seattle Times - FAA Requires Safer Seats on New Planes explains:

After 17 years, the Federal Aviation Administration (FAA) has completed work on requiring passenger aircraft to have stronger seats, designed to increase the survivability of passengers and flight attendants in accidents.

The new rule, which affects aircraft built after October 2009, says the seats must be able to withstand 16 times the force of gravity, compared with the 9g standard in effect since 1952. Floors and the tracks the seats ride on also must be able to withstand those forces.

The new seats must undergo a battery of tests to determine their strength, similar to the crash tests that automakers must comply with to meet federal safety standards.

The new standard applies only to new planes, and may apply to planes undergoing massive refits, though it will now not be forced upon planes outside of those qualifications. Most planes built in the 1990s included near 16g qualified seats, so those are also excluded from any modifications.

 

MyBoeingFleet to Connect via Internet All Aircraft Data

JAL First Customer of Boeing’s Electronic Maintenance Tool from FLT Tech Online reports that soon Japan Airlines (JAL) will be using what Boeing Commercial Aviation Services describes as “performance-enhancing solutions for aircraft maintenance and troubleshooting that will be available via the Internet.”

Under their agreement, JAL maintenance technicians can use their normal browser to access the Structures Tool within Boeing’s hosted Maintenance Toolbox service, which is a key component within Boeing’s evolving portfolio of electronic aircraft maintenance applications. Toolbox uses intelligent documents and visual navigation methods to help aircraft technical personnel troubleshoot airplane systems and manage structural repair records, parts, and task cards.

Specifically, the Structures Tool provides 3D models for recording, viewing, and analyzing structural repairs, making use of accumulated repair knowledge, and maintaining records of repair activities for multiple fleet types. It also includes a repair history database of records that contain details of repairs and repair locations on one or more aircraft. Users can search the database for information about repairs performed in specific areas of the airplane, search for similar repairs on other airplanes in their fleet, and enter, edit and delete repair records as needed.

Engineers can access the information on JAL’s data through any Internet connection and device to monitor the aircraft’s data through www.MyBoeingFleet.com.

The goal is to bring modern Internet technology to the air transportation industy and connect content, applications and services with their airlines, as well as connect all the data and departments involved in airline flights from air service to maintenance.

 

Boeing to Use RFID “Smart Labels” on Some B-787 Parts

FT Online reports Boeing to Use RFID “Smart Labels” on Some B-787 Parts.

Boeing plans to introduce RFID (radio frequency identification) “smart labels” on some “maintenance significant” parts of its B-787 Dreamliner to improve configuration control and help airlines reduce costs.

RFID automatically uses radio frequency waves to transfer data between a reader and items that have RFID devices affixed. The “smart labels” contain a microchip and antenna and operate at internationally recognized standard frequencies. The RFID tag stores data similar to a bar code, but offers enhanced data collection and other advantages, such as being able to read without a direct view of the label, and a dynamic read/write capability….

…Boeing plans for the tags to contain unique identification as well as maintenance and inspection data in accordance with industry standards developed by the Air Transport Association. Typically, parts that will incorporate RFID smart labels will be serialized end items such as LRUs (line replaceable units) and life-limited parts as well as on-board emergency equipment. The labels will be applied during the manufacturing process by the responsible systems and equipment supplier prior to delivering the airplane to airlines.

 

FAA Debates Changing Insulation Standards on Part 25 Aircraft

According to a new report, the FAA mulls changing insulation standards, amending its controversial rule upgrading flammability standards for thermal and acoustic insulation. There is worry that the unexpected scope of the new ruling, effective on September 2, 2005, would put too much burden on business aircraft owners and operators.

At about the same time the rule was going into effect, representatives from several associations met with the FAA to discuss the new regulations, believing they pose “a serious threat to continued operation after September 2 of many in-service Part 25 [certified] aircraft.” The meeting, attended by representatives from the General Aviation Manufacturers Association (GAMA), NBAA and several other trade groups, raised concerns that the application of new rule is “broader than originally intended.â€?

The associations explained, “It has long been understood that the requirements of the final rules would apply solely to thermal and acoustic blankets installed in Part 25 airplanes.” However, they continued, in corresponding guidance material released June 24 “it became clear that the rule was being applied to every insulating material in the fuselage of every Part 25 airplane (both old and new) and every piece of installed equipment with insulation.”

Based on the feedback the associations received from business aircraft operators, the FAA has developed an “action plan” to ease the burden of the requirements of the rule for the “immediate short term,” said a GAMA official. The FAA sent Flight Standards Airworthiness (FSAW) Bulletins 05-09 and 05-10 (September 1 and 7, respectively) to field inspectors to guide them in the application of the retroactive portion of the rule– Part 91.613(b)(1) and 135.170(c)(1). The bulletins “give inspectors a better understanding of the rule and provide clarification on the scope,” according to the GAMA official.

First, the bulletins make it clear that the new flammability requirements for thermal and acoustic insulation apply only to material “installed in the fuselage of transport-category airplanes.” The rule applies only when insulation is being replaced, but “the insulation that is inaccessible in flight is what should be the focus of compliance.” The FAA determined that insulation accessible in flight “can be readily extinguished and therefore this insulation material does not have to meet Part 25.856″â€? (the new flammability certification standards).

According to the bulletin, insulation on specific items covered by the rule include insulation inside ovens, carts, refrigerator meal boxes and coffee makers. It goes on to say “Insulation ‘visible in the cabin’ is considered compliant. Insulation not in the fuselage is not covered by the rule. Such areas ‘include the empennage, wheel wells and wing-to-body fairings.’”

 

Broadband on Australian Airlines Next Year

Currently, I’m working on development and installation of broadband WIFI Internet in conjuction with Star Aviation and Boeing’s Connexion, so I’m excited to see that IT World Canada announce Broadband set for Australian flights early next year.

Cheap broadband satellite services could be available on Australian domestic and international airline flights by the end of next year.

A combination of cheaper satellite access terminals, along with the launch of two new high-powered satellites to service the entire globe prompted traditional military, aviation and maritime satellite vendor Inmarsat’s aim at the consumer telecommunications market.

Inmarsat now has one, geostationary satellite covering the Indian Ocean region connecting Europe, Middle East, Africa and Asia. The second satellite, due to be launched November 5 will cover the Atlantic Ocean and include both North and South America and the third will be launched in 2006 - with the view to providing complete global services by 2007.

…The move is part of a global trend with almost half the world’s airlines planning to offer some form of in-flight communications for passengers by the end of 2007, with most favoring Internet access, e-mail and SMS (short messaging service).

According to a new study released this week more than a third of airlines surveyed said they expect to let passengers use mobile phones on planes by that time.

 

The EU Airline Blacklist

Recent airplane crashes within the European Union has increased the enthusiasm for legislative action to create a blacklist of airlines which don’t meet safety and security standards set by the EU. The goal of the Airline Blacklist would be to use a “shame and blame” publicity campaign to force conformity with safety regulations for standard and charter flights. It would also provide information to other countries on the status of airlines’s safety records and make the skies safer.

The European Commission proposed the EU Airline Blacklist in February. EU governments and the European Parliament must approve it across the 25-nation bloc, a time consuming effort. The airplanes crashes which killed over 300 people in August has put more pressure on the EU to pass the legislation.

Under the plan, an airline banned in one EU nation would be barred from providing services to and from any other. The list would include European and non-European air carriers.

Compiling an EU blacklist and making it public will require the approval of all EU governments and the European Parliament. In the past, the EU executive commission and EU governments have disagreed about the wisdom of publishing the names of airlines with questionable safety records.
USA Today News Report

There is a great deal of disagreement on what the criteria for such a blacklist would entail. The various governments’ agencies, usually the Transportation Commission, oversees much of the airline industry but the European Aviation Safety Agency (EASA) has responsibility for most of the safety certification and regulations. Each of these groups are split between national and European government bodies, adding to the network of problems to determine criteria and standards.

In Britain, the Department of Transport publishes on its website counties and airlines whose aviation standards fail to meet those set by the International Civil Aviation Organisation, a UN agency.

The countries denied permits to operate in the UK are: Tajikistan, Swaziland, Sierra Leone, Liberia, Equatorial Guinea, and the Democratic Republic of the Congo. The website also says that permits have been refused to Air Mauritanie and Thailand’s Phuket Airlines because of safety concerns.
Guardian UK News Report

To add to the confusion, airlines are demanding to know why they are or may be on the list even if they have no record of an air crash.

The EU transport spokesman, Stephaan De Rynck, said, “We are operating in a very safe environment, but of course the tragic accidents we have had have to give us a push to improve safety standards even further.”

He said the “incoherence” of country-by-country rules was highlighted in May by a Turkish airline that was banned from four European countries but simply started flying to Belgium, which had not banned it.

The EU approach is partly intended to replace a country-by-country approach that has already created confusion when one country bans an airline and another country does not.

In addition, some banned airlines have complained that they never had a crash, and demanded to know what criteria were used to declare them unsafe.
International Herald Tribute News Report

According to many, the blacklist does nothing to encourage airline safety. The International Air Transport Association (IATA) of Geneva introduced a voluntary safety audit in 2003 to standardize airline safety ratings. Many say this is a much better route to take than creating a public blacklist.

“There is something wrong with the system that allows (some countries) to certify an airline that we (in Europe) don’t think is safe,” AEA spokesman David Henderson said. He said a blacklist would be helpful if it were followed up by checks with authorities in the suspect airlines’ countries to make sure standards were raised.
USA Today News Report

This is a key point. National governments can set standards for airlines flying out of their countries, but regulations are needed to check and verify safety standards on airplanes arriving in their country. Even then, random checks should be allowed by an EU agency to make sure airlines meet safety regulations no matter where they fly.

According to a new online brochure by the EASA called “The Safer Skies Brochure”:

A uniform system will bring advantages throughout European society. Citizens and passengers can be further reassured that all civil aircraft have been designed, built, and maintained to the same high standards, no matter where they are based.

How does the US set safety standards for international airlines? The International Civil Aviation Organization, a United Nations agency, sets country based standards rather than airline specific. On the domestic front, the FAA has very high standards and regulation for safety, often setting the standard for other government agencies worldwide. Still, FAA representatives and aircraft engineers are closely watching to see how this turns out and how it will affect the airline industry in general.

 

Future of Online Ticketing and E-Tickets

Based on an interesting survey by SITA (Société Internationale de Télécommunications Aéronautiques), Flt Tech Online reports “Survey Indicates Airline Industry Divided on Information Technology”. The study finds that some international regions are far ahead in embracing Internet and wireless technologies while others are very far behind.

SITA’s annual airline IT (information technology) trends survey indicates that “pace-setting airlines” are embracing new IP (Internet protocol) and wireless-based technologies that enable new applications, such as e-ticketing and self-service kiosks, while “a significant minority of airlines are still lagging behind.”

 

Turbulence Free Flights Coming to a Plane Near You?

Hate turbulence during your flights? Well, researchers at NASA’s Langley Research Center and AeroTech Research have developed an “automatic turbulence reporting system” and testing it on Delta Airlines passenger planes.

The Turbulence Auto-PIREP System (TAPS) has been installed on about 80 jets with hopes that this new technology will improve air travel safety. Piolets can maneuver around turbulence with earlier detection, or prepare the crew and passengers better. In combination with NASA and NOAA improved weather reporting, airline travel may actually become less vulnerable to weather conditions.

“TAPS automatically broadcasts turbulence encounter reports from aircraft and allows other planes and people on the ground to use this information,” said NASA’s Turbulence Prediction and Warning Systems project manager, Jim Watson. “Pilots describe turbulence encounters over their radios and by text reports called Pilot Reports (PIREPS). They tend to under-report when they encounter rough air, because they’re busy trying to fly through or around it,” he added.

“TAPS provides real-time turbulence information that has never been available,” said Paul Robinson, President of AeroTech Research. “The beauty of TAPS is, it is only software and uses equipment already on the aircraft, making it inexpensive and easy to install.”

 

 

Blogging the Stratosphere

Since this my blog, and I work on the development and installation of the wireless/satellite broadband Internet being installed on commercial planes all over the world, it was exciting to see Boeing VP of Marketing, Randy Baseler, blogging about Blogging the Stratosphere. And even more exciting to know that some of the bloggers on this PR flight around Mt. Rainier were using WordPress, the blogging software we use on this site, and a company my wife is very involved with. What a small world. Boeing Connexion is the driving force behind the installation of Internet on commercial airplanes, and a company I’m working with handles much of the technology and installation of the Internet package.