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Dream Chaser's First Flight a Historic Success Despite Landing Gear Issue

The Dream Chaser engineering test article coming in for an autonomous landing Saturday morning at Edwards Air Force Base, California.  As the image clearly shows, the left landing gear did not deploy properly, causing the vehicle to sustain minor damage on landing.  SNC expects to repair the vehicle, and since the flight itself went so well a second autonomous flight test might not even be required, paving the way for piloted flight testing next year.  Photo Credit: SNC

The Dream Chaser engineering test article coming in for an autonomous landing Saturday morning at Edwards Air Force Base, Calif. As the image clearly shows, the left landing gear did not deploy properly, causing the vehicle to sustain minor damage on landing. SNC expects to repair the vehicle, and since the flight itself went so well a second autonomous flight test might not even be required, paving the way for piloted flight testing next year. Photo Credit: SNC

On Saturday, Oct. 26, Sierra Nevada Corporation put their Dream Chaser engineering test article through its first free flight Approach and Landing test, or ALT-1, at NASA’s Dryden Flight Research Center in southern California. The important flight test, a first since the late 1970s with NASA’s space shuttle test article Enterprise, performed flawlessly up until the command was given to deploy the landing gear. An anomaly was encountered, causing the left landing gear to snag, and although Dream Chaser touched down on the runway 22L centerline at Edwards Air Force Base, the vehicle did sustain some minor structural damage. That incident, however, may actually speed up Dream Chaser’s development, rather than delay it.

“We believe we had a very successful first day. The issue that we had is certainly one that I would like not to have had, but at the end of the day – on the list of things that could have gone wrong for us – it was one that is very minor in the future of the vehicle,” said Mark Sirangelo, Vice President of Sierra Nevada Corporation’s Space Systems at a teleconference held late this morning. “We don’t think its actually going to set us back, in some interesting way it may actually accelerate our progress. If we got all the flight data we needed to get we may actually be able to get the vehicle back to Colorado earlier to get it ready for its next flight, which may actually accelerate the program.”

The Dream Chaser test article in autonomous free flight over NASA's Dryden Flight Research Center at Edwards Air Force Base in California Saturday, October 26, 2013.  Photo Credit: SNC

The Dream Chaser test article in autonomous free flight over NASA’s Dryden Flight Research Center at Edwards Air Force Base in California, Saturday, Oct. 26, 2013. Photo Credit: SNC

The Dream Chaser was carried aloft in the skies over Edwards Air Force Base and dropped from an altitude of 12,500 feet by an Erickson Air-Crane helicopter at 11:10 a.m. PDT. The release was accomplished perfectly, sending the vehicle into a steep 50-degree nose dive to exactly replicate the orbital re-entry flight path and prove Dream Chaser’s design is truly air-worthy.

“About 10 seconds into the dive the commands were given by the vehicle, as predicted, to begin the pullout of the dive and enter into its glide into Edwards,” said Sirangelo. “All commands given during the flight were successful, and after a period of 30-35 seconds the vehicle began finding the runway, associating itself, getting itself ready for landing, and conducting what was almost a perfectly stable flight. In the final 20 seconds of the flight the vehicle acquired the runway and lowered its rate of descent to 1.58 feet per second, exactly as predicted, and landed at 160 knots, almost precisely on the runway where we wanted to land.”

The 60-second flight itself was fairly uneventful, as the vehicle’s automated flight control system did its job of steering the test article to its intended glide slope automatically based on data collected by the vehicle’s sensors and flight computer. However, when the vehicle’s Ground Radar Altimeter initiated the sequence to open the landing gear, an anomaly occurred—the left landing gear was snagged.

The crew compartment view of Dream Chaser's final approach to Edwards AFB runway 22L.  Photo Credit: SNC

The crew compartment view of Dream Chaser’s final approach to Edwards AFB runway 22L. Photo Credit: SNC

“As the vehicle began its roll down the runway the automatic software noticed that the vehicle was having some difficulty and commanded the controls to compensate for that, which was something that we had predicted but we had not known was going to happen,” said Sirangelo. “Unfortunately the anomaly with the gear, which we are still investigating, caused the vehicle to eventually land down on its left side and skid off the left side of the runway. There was no damage to the runway and there were no personnel injuries of any type. The vehicle was damaged as it skidded off the runway but we believe it to be repairable and flyable again. We are assessing the vehicle and determining what repairs we need to make.

“The 99% of the flight that we really wanted to get  – which was does this vehicle fly, is it able to be controlled, does the software work, can we autonomously fly the vehicle in to approach and land on a runway – all that was 100% successful,” added Sirangelo. “In fact, we probably performed better than the original test standards were meant to be. We deem this to be a significant success, airplane history has shown that this is not the first time a landing gear has had issues on an airplane that went on to be very successful.”

Although the flight did not end as everyone had hoped, the incident provided a wealth of valuable data showing how strong the vehicle really is.

Dream Chaser on final, the left landing gear clearly not deployed.  Photo Credit: SNC

Dream Chaser on final dive, the left landing gear clearly not deployed. Photo Credit: SNC

“The entire interior of the vehicle, the pressure vessel as we call it, or crew compartment, was completely untouched by the incident,” said Sirangelo. “All systems were fully operational, there was no damage whatsoever to any of the components of the vehicle. All the flight computers continued to work, and they are still working, and there was no damage to any of the sensitive parts of the vehicle –  which tells us that the composite structure and the airframe is actually quite stable and quite strong for what we needed to accomplish.”

The test article used to conduct ALT-1 this past Saturday was only meant to conduct two autonomous flights before being sent back to SNC’s headquarters to be reworked for piloted flight testing. If Saturday’s flight test produced all of the data SNC needs—and the company believes it did—then they can skip a second autonomous flight test all together. The landing gear itself was never intended as a permanent fixture, as it is a modified version of the gear used on the USAF F-5E Tiger fighter aircraft. Future Dream Chasers will use landing gear with electric actuators.

“As we stand right now we believe we have the data, we looked at all the data and its almost exactly as was predicted by our computing models,” added Sirangelo. “We were so successful that we actually received all of the data we think we needed for testing. We are determining what we want to do and whether or not we want to continue on with that second flight, or send the vehicle back and outfit it for its next set of test flights – which would be conducted early next year.  That determination will be made in the next few weeks as we get all the data necessary.”

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WATCH!  DREAM CHASER TAKES FLIGHT FOR THE FIRST TIME
VIDEO CREDIT: SNCspacesystems

The root cause of Saturday’s landing gear problem is not yet known, as the investigation is ongoing, but the data points to a mechanical failure, possibly with the door or latch—as none of the primary systems that gave the commands that control the flight failed or had any problems. Both landing gear systems—main gear and nose gear—are connected; they are mirror images of each other, and the right landing gear deployed as expected and was fully functional. Had the spacecraft design or software caused the problem, it would have affected both the right and left main landing gear.

“The vehicle has all of its components, nothing was lost – the tail, the rudders, the entire structure of the vehicle is with us and sound,” added Sirangelo. “The one landing gear in question is still attached to the vehicle, it did eventually deploy, obviously not properly but its still there, we didn’t lose it. The vehicle is surrounded by a very strong composite structure shell, which is where all the important materials (computers, crew compartment, etc) would be, and then it is surrounded by over six inches of protective layer – which in this case was a simulated thermal protection system (TPS). That actually effectively cushioned the vehicle as it went through its flight off the runway, and while that was damaged its a fairly insignificant part of it.”

“The core structure, all the flight controls, the rudders, the airlons, all those are still attached and working,” added Sirangelo. “We did lose some of the protective coating and shell of the vehicle and sustained some minor damage to some of the composites and the structure underneath. The very strong front nose skid actually continued to hold the vehicle up and do exactly what it was designed to do, and it is fully functional and working right now.”

Dream Chaser and the air-crane helicopter used to drop the vehicle for its first free flight test.  Photo Credit: SNC

Dream Chaser and the air-crane helicopter used to drop the vehicle for its first free flight test. Photo Credit: SNC

The Dream Chaser, described by many simply as a “mini space shuttle,” is a lifting body human spacecraft designed to carry as many as seven astronauts, and it is the only spacecraft under the Commercial Crew Development Round 2 (CCDev2) agreement with NASA’s Commercial Crew Program (CCP) that is winged and designed to land on any conventional runway capable of handling commercial traffic.

The company hopes to launch the first autonomous spaceflight in 2016 atop a United Launch Alliance Atlas-V 402 rocket, with the first crewed mission to launch in the third quarter of 2017. A fleet of Dream Chasers is planned to be based out of Florida’s historic launch sites at Kennedy Space Center and Cape Canaveral Air Force Station. No abort blackout zones and a 3.5-day free flight capability—with the added benefit of deorbiting at any time (since Dream Chaser can land on any conventional runway)—are a couple of the vehicle’s main selling points. The spacecraft will also be able to stay at the ISS for up to seven months at a time, if needed, before having to return to Earth, and an expected 1.5 G nominal reentry will provide ideal conditions for returning fragile cargo and science experiments, in addition to making the return to gravity easier on the crew (SNC expects immediate access to crew and cargo upon landing). A quick turnaround and an almost entirely reusable vehicle put Dream Chaser in a class all its own.

“We had over 30 conditions that we were testing for the flight, and the vehicle either met or exceeded – in a positive way – all 30 of those conditions,” said Sirangelo. “The flight was extraordinary.”

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