A Note to Our Readers

Dear Readers,
We make a special effort here to record the facts as we receive them. At times, there may be error but we do try to use our best judgement at the time of posting, and will be glad to amend any details which are proved incorrect. Furthermore, even though we do not here discuss the human cost, we realize that losing anyone in an air accident is insurmountable tragedy to individuals, families and communities. We do extend our heartfelt sympathy to those whose loss we record here. "...any man's death diminishes me, because I am involved in mankind, and therefore never send to know for whom the bell tolls, it tolls for..." us all.
Meditation XVII - (with apologies to) John Donne


2007/08/28

Concrete Alternatives

Alternative to Disaster
Short runways are an unavoidable problem when there is a shortage of land and it is not possible to have the standard 1,000 feet overrun. Judging by the Tam air disaster, not all country's airports have the technology to prevent major aircraft mishaps, technology such as EMAS. EMAS–Engineered Material Arresting Systems–was developed by the Federal Aviation Administration (FAA) and ESCO (Engineered Arresting Systems Corporation). EMAS acts as a buffer to slow down aircraft that overrun the length of the runway. All it takes is a bed of crushable concrete--cellular cement material that crushes under the weight of an aircraft, resulting in guaranteed deceleration of the aircraft.
Features of Engineered Material Arresting Systems
FAA-approved
Permits reduction of standard RSA
Shortens standard RSA to 600 feet
Meets FAA AC 150/5220-22
Features material customized to each runway's aircraft fleet
After arrestment, ARFF vehicles can easily maneuver on even damaged EMAS surface


EMAS Fact Sheet


For Immediate Release



June 15, 2007

Contact: Marcia Adams

Phone: (202) 267-3488


Engineered Material Arresting System (EMAS)


Background

The Federal Aviation Administration (FAA) requires that commercial airports, regulated under Part 139 safety rules, have a standard Runway Safety Area (RSA) where possible. At most commercial airports the RSA is 500 feet wide and extends 1000 feet beyond each end of the runway. The FAA has this requirement in the event that an aircraft overruns, undershoots, or veers off the side of the runway. The most dangerous of these incidents are overruns, but since many airports were built before the 1000-foot RSA length was adopted some 20 years ago, the area beyond the end of the runway is where many airports cannot achieve the full standard RSA. This is due to obstacles such as bodies of water, highways, railroads, and populated areas or severe drop-off of terrain.

The FAA has a high-priority program to enhance safety by upgrading the RSAs at commercial airports and provide federal funding to support those upgrades. However, it still may not be practical for some airports to achieve the standard RSA. The FAA, knowing that it would be difficult to achieve a standard RSA at every airport, began conducting research in the 1990s to determine how to ensure maximum safety at airports where the full RSA cannot be obtained. Working in concert with the University of Dayton, the Port Authority of New York and New Jersey, and the Engineered Arresting Systems Corporation (ESCO) of Logan Township, NJ, a new technology emerged to provide an added measure of safety. An Engineered Materials Arresting System (EMAS) uses materials of closely controlled strength and density placed at the end of a runway to stop or greatly slow an aircraft that overruns the runway. The best material found to date is a lightweight, crushable concrete. When an aircraft rolls into an EMAS arrestor bed, the tires of the aircraft sink into the lightweight concrete and the aircraft is decelerated by having to roll through the material.

Benefits of the EMAS Technology

The EMAS technology provides safety benefits in cases where land is not available, where it would be very expensive for the airport sponsor to buy the land off the end of the runway, or where it is otherwise not possible to have the standard 1,000-foot overrun. This technology is now in place at 18 airports with installation under contract at six additional airports. A standard EMAS installation extends 600 feet from the end of the runway. An EMAS arrestor bed can still be installed to help slow or stop an aircraft that overruns the runway, even if less than 600 feet of land is available.

Current FAA Initiatives

The Office of Airports prepared an RSA improvement plan for the runways at approximately 575 commercial airports in 2005. This plan allows the agency to track the progress and to direct federal funds for making all practicable improvements, including the use of EMAS technology.

Presently, the EMAS system developed by ESCO using crushable concrete is the only system that meets the FAA standard. However, FAA is conducting research through the Airport Cooperative Research Program (project number 07-03) that will examine alternatives to the existing approved system. The results of this effort are expected in 2009. More information on the project can be found at the Transportation Research Board website at http://www.trb.org/CRP/ACRP/ACRP.asp.

EMAS Arrestments

To date, there have been four incidents where the technology has worked successfully to keep aircraft from overrunning the runway and in several cases has prevented injury to passengers and damage to the aircraft.

  • May 1999: A Saab 340 commuter aircraft overran the runway at JFK
  • May 2003: Gemini Cargo MD-11 was safely decelerated at JFK
  • January 2005: A Boeing 747 overran the runway at JFK
  • July 2006: Mystere Falcon 900 airplane ran off the runway at the Greenville Downtown Airport in South Carolina

EMAS Installations

Currently, EMAS is installed at 24 runway ends at 19 airports in the United States. With plans to install 12 additional EMAS systems at seven more U.S. airports.

AirportLocation# of SystemsInstallation Date
JFK InternationalJamaica, NY11996
Minneapolis St. PaulMinneapolis, MN11999
Little RockLittle Rock, AR22000/2003
Rochester InternationalRochester, NY12001
BurbankBurbank, CA12002
Baton Rouge MetropolitanBaton Rouge, LA12002
Greater BinghamtonBinghamton, NY22002
Greenville DowntownGreensville, SC12003
Barnstable MunicipalHyannis, MA12003
Roanoke RegionalRoanoke, VA12004
Fort Lauderdale InternationalFort Lauderdale, FL22004
Dutchess CountyPoughkeepsie, NY12004
LaGuardiaFlushing, NY22005
Boston LoganBoston, MA22005/2006
Laredo InternationalLaredo, TX12006
San Diego InternationalSan Diego, CA12006
TeterboroTeterboro , NJ12006
Chicago MidwayChicago, IL12006
Merle K (Mudhole) SmithCordova, AK12007

Additional Projects Currently Under Contract

Location# of SystemsExpected Installation Date
Charleston, WV1June 2007
Chicago Midway3Spring/Summer 2007
Wilkes-Barre Scranton, PA1Fall 2007
JFK International1Fall 2007
Chicago O’Hare2Spring 2008
Telluride, CO2TBD
Manchester, NH1Spring 2008
Newark Liberty, NJ1Spring 2008

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