Controlled Impact Demonstration

Controlled Impact Demonstration
The controlled impact demonstration

The Controlled Impact Demonstration (or colloquially the Crash In the Desert) was a joint project between NASA and the Federal Aviation Administration (FAA) aimed at acquiring data, as well as demonstrating and testing new technologies, with the intent of improving occupant crash survivability, by crashing a Boeing 720 aircraft. The tests involved the efforts of NASA Ames Research Center, Langley Research Center, Dryden Flight Research Center, the FAA, and General Electric, and required more than 4 years of work before the test occurred. The aircraft was remotely controlled for the tests, and numerous test runs were undertaken prior to performing the actual impact. The impact test flight occurred on December 1, 1984, proceeding generally according to plan, and resulting in a spectacular fireball which required more than an hour to extinguish.

The test resulted in a finding that the antimisting kerosene test fuel was insufficiently beneficial, and that several changes to equipment in the passenger compartment of aircraft were needed. The FAA concluded that about ¼ of the passengers would have survived, while NASA concluded that the utilization of a head-up display along with microwave landing system would have assisted in piloting the craft.

Contents

History

Practice approach

NASA and the Federal Aviation Administration (FAA) conducted a joint program for the acquisition, demonstration, and validation of technology for the improvement of transport aircraft occupant crash survivability using a large, four-engine, remotely piloted transport airplane in a controlled impact demonstration (CID). The CID program was conducted at the Dryden Flight Research Facility of NASA Ames Research Center (Ames-Dryden), at Edwards, California, and was completed in late 1984. The objectives of the CID program were to demonstrate a reduction of postcrash fire through the use of antimisting fuel, acquire transport crash structural data, and to demonstrate the effectiveness of existing improved seat-restraint and cabin structural systems.[1]

Slapdown
Pre-impact
Post-impact 1
Post-impact 2
Post-impact 3

The additive FM-9, a high molecular-weight long chain polymer, when blended with Jet-A fuel, forms antimisting kerosene (AMK). AMK had demonstrated the capability to inhibit ignition and flame propagation of the released fuel in simulated impact tests.

In addition to the AMK research, NASA Langley Research Center was involved in a structural load measurement experiment, which included using instrumented crash dummies filling the seats in the passenger compartment. Before the final flight on December 1, 1984, more than four years of effort was expended in attempting to set up final impact conditions which would be considered to be survivable by the FAA.

AMK cannot be introduced directly into a gas turbine engine due to several possible problems such as clogging of filters. The AMK must be restored to almost Jet-A before being introduced into the engine for burning. This restoration is called "degradation" and was accomplished on the 720 using a device called a "degrader". Each of the four Pratt & Whitney JT3C-7 engines had a "degrader" built and installed by General Electric (GE) to break down and return the AMK to near Jet-A quality.

Over a series of 14 flights, General Electric installed and tested four degraders (one on each engine); and the FAA refined AMK (blending, testing, and fueling a full size aircraft). During the flights the aircraft made approximately 69 approaches, to about 150 feet (46 m) above the prepared crash site, under remote control. These flights were used to introduce AMK one step at a time into some of the fuel tanks and engines while monitoring the performance of the engines. During those same flights, NASA's Dryden Flight Research Center also developed the remote piloting techniques necessary for the Boeing 720 to fly as a drone aircraft. An initial attempt at the full scale test was scrubbed in late 1983 due to problems with the uplink connection to the 720, because if the uplink failed the ground based pilot would no longer have control of the aircraft.

Test

On the morning of December 1, 1984, a remotely controlled Boeing 720 transport took off from Edwards Air Force Base, California, made a left-hand departure and climbed to an altitude of 2,300 feet (700 m). The aircraft was remotely flown by NASA research pilot Fitzhugh Fulton from the NASA Dryden Remotely Controlled Vehicle Facility. All fuel tanks were filled with a total of 76,000 pounds (34,000 kg) of AMK and all engines ran from start-up to impact (the flight time was 9 minutes) on the modified Jet-A. It then began a descent-to-landing along the roughly 3.8-degree glideslope to a specially prepared runway on the east side of Rogers Dry Lake, with the landing gear remaining retracted.

Passing the decision height of 150 feet (46 m) above ground level (AGL), the aircraft turned slightly to the right of the desired path. The aircraft entered into a situation known as a Dutch Roll. Slightly above that decision point at which the pilot was to execute a "go-around", there appeared to be enough altitude to maneuver back to the center-line of the runway. The aircraft was below the glideslope and below the desired airspeed. Data acquisition systems had been activated, and the aircraft was committed to impact. It contacted the ground, left wing low, at full throttle, with the aircraft nose pointing to the left of the center-line.

It was planned that the aircraft would land wings-level, with the throttles set to idle, and exactly on the center-line during the CID, thus allowing the fuselage to remain intact as the wings were sliced open by eight posts cemented into the runway (called "Rhinos" due to the shape of the "horns" welded onto the posts). The Boeing 720 landed askew. One of the Rhinos sliced through the number 3 engine, behind the burner can, leaving the engine on the wing pylon (which does not typically happen in an impact of this type). The same rhino then sliced through the fuselage, causing a cabin fire when burning fuel was able to enter the fuselage. The cutting of the number 3 engine and the full throttle situation was significant as this was outside the test envelope. The number 3 engine continued to operate, degrading the fuel and igniting it after impact, providing a significant heat source. The fire and smoke took over an hour to extinguish. The CID impact was spectacular with a large fireball created by the number 3 engine on the right side, enveloping and burning the 720 aircraft. From the standpoint of AMK the test was a major set-back. For NASA Langley, the data collected on crash-worthiness was deemed successful and just as important.

Findings

The actual impact demonstrated that the antimisting additive tested was not sufficient to prevent a post-crash fire in all circumstances, though the reduced intensity of the initial fire was attributed to the effect of AMK.[2][3]

FAA investigators estimated that 23–25% of the aircraft's full complement of 113 people could have survived the crash. Time from slide-out to complete smoke obscuration for the forward cabin was five seconds; for the aft cabin, it was 20 seconds. Total time to evacuate was 15 and 33 seconds respectively, accounting for the time necessary to reach and open the doors and operate the slide. Investigators labeled their estimate of the ability to escape through dense smoke as "highly speculative".[4]

As a result of analysis of the crash, the FAA instituted new flammability standards for seat cushions which required the use of fire-blocking layers, resulting in seats which performed better than those in the test.[5] They also implemented a standard requiring floor proximity lighting to be mechanically fastened, due to the apparent detachment of two types of adhesive-fastened emergency lights during the impact.[6] Federal aviation regulations for flight data recorder sampling rates for pitch, roll and acceleration were found to be insufficient.[7]

NASA concluded that the impact piloting task was of an unusually high workload, which might have been reduced through the use of a heads-up display, the automation of more tasks, and a higher-resolution monitor. They also recommended the use of a microwave landing system to improve tracking accuracy over the standard ground radar provided by an instrument landing system (in practice, the Global Positioning System-based Wide Area Augmentation System came to fulfill this role).[8]

Additional photographs and videos

References

  1. ^ Horton and Kempel 1988, p. 1.
  2. ^ FAA/CT-87/10 1987, pp. 20–22.
  3. ^ Nova. Why Planes Burn. WGBH Boston.
  4. ^ FAA/CT-87/10 1987, pp. 39–40.
  5. ^ FAA/CT-87/10 1987, p. 33.
  6. ^ FAA/CT-87/10 1987, p. 38.
  7. ^ FAA/CT-87/10 1987, p. 39.
  8. ^ Horton and Kempel 1988, pp. 15-19.

External links


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