Tag: Ares rocket

Managers reevaluating Ares I-Y flight test

Constellation program managers agreed to reevaluate the proposed Ares I-Y flight test during an Oct. 30 Control Board and plan to take the decision up the ladder to management at NASA Headquarters soon. The decision could result in the removal of the Ares I-Y flight from the manifest in order to better align test flights with evolving program objectives.

 

As part of the program’s ongoing review of its ground and flight test strategy, managers evaluated the flight test plan and decided that the Ares I-Y flight fell too late in the vehicle development phase to provide useful information and lacks key elements to make it a true validation of the flight vehicle’s systems.

 

Originally, the I-Y test was defined as an incremental “placeholder” and planned for 2012.  It was to be a suborbital flight to test a five-segment booster, a flight production upper stage — without a J-2X engine — a functional command module and launch abort system and a simulated encapsulated service module.

 

By fall 2008, program managers were already looking at changing direction for the Ares I-Y test to improve the overall program’s chances of flying a full test vehicle by 2014. Now, with the Constellation Program nearing its preliminary design review and with maturing vehicles and systems, managers agree the I-Y test objectives can be achieved through other tests already in the manifest.

 

For example, the ascent abort test for Orion’s Launch Abort System can be incorporated into abort tests planned at White Sands Missile Range in 2012 and 2013 and on the first Orion flight in 2014. The ascent test will document the performance of the LAS in the event control of the launch vehicle is lost after first stage separation.

 

Removing the Ares I-Y flight test eliminates a unique vehicle configuration that must be designed and managed separately from the objective designs of Ares and Orion. It allows the team to focus on achieving a first launch of a thoroughly verified system and represents a tightening of the program as a function of its maturation that will ultimately save money needed for other tests.

 

“It simply does not fit where we are headed,” said Jeff Hanley, Constellation Program manager and chairman of the Control Board. “The test vehicle was intended to meet evolving needs but the current configuration is too different from what the program requires to certify the Ares/Orion vehicle systems.”

 

The current Constellation manifest shows the Ares I-Y flight test scheduled in March 2014, just a year out from the proposed first crewed flight Orion 2, planned in 2015.

 

Managers are also considering other options including a flight test that would fly in 2012 or 2013 that would have revised flight test objectives to better support vehicle development.

The Ultimate Parachute Test


How do you stop a 200,000-pound solid rocket motor from ending up at the bottom on the Atlantic Ocean? With the biggest, strongest rocket parachutes ever built of course!  And they are snuggly packed in the forward section of the Ares I-X rocket, awaiting their debut performance.  The Ares I-X flight will be the first full flight test of the Ares I first stage parachute system.


NASA and ATK have successfully conducted nine development tests of the parachute
system including the main cluster parachute test on May 20, 2009. Credit: U.S. Army
 Yuma Proving Ground  (Watch the test, Windows, streaming)

NASA, ATK and other partners have successfully tested each element of the parachute system. In fact, over the last three years, the team has conducted three pilot, two drogue, three single main, and one main cluster parachute drop tests at Yuma Proving Ground in Yuma, Az.

But Ares I-X will be the best test of the whole kit and caboodle because of the unique flight profile.

“You simply can’t drop 200,000 pounds out of a plane. The only way we can do drop testing is from a C-17 aircraft and there is a 90,000 pound load limit. The Ares booster weighs more than double that,” said Ron King, Ares first stage deceleration subsystem manager at NASA’s Marshall Space Flight Center in Huntsville, Al. “And Ares I-X is the only test of the entire flight sequence from start to finish, or separation to splashdown as it will be.”


On October 9, 2009 NASA and industry engineers dropped a 72,000 pound test payload
from the back of a U.S. Air Force C-17 aircraft from an altitude of 25,000 feet, tying the
record for the heaviest load ever extracted from the aircraft during flight. This drop test
was designed to push the main parachute’s canopy to its  limit — supporting a
250,000-pound dynamic load. The payload included the main parachute for the Ares I
rocket. Credit: U.S. Army Yuma Proving Ground

The Ares deceleration system consists of three types of parachutes: (1) a small pilot chute which pulls out the drogue chute; (2) a 68-foot diameter drogue chute and (3) three 150-foot diameter main parachutes. Here’s how the sequence goes:

The Ares I-X first stage separates from the upper stage at 124 seconds into the test flight, at an altitude of 130,000 feet. The vehicle’s four tumble motors then fire to slow the first stage for its return trip to Earth and eventual recovery. At an altitude of about 15,000-feet the nose cone is jettisoned, immediately deploying the pilot parachute. The pilot chute will in turn deploy the 68-foot drogue parachute, which is the workhorse of the system and will re-orient the booster to vertical and slow it to acceptable conditions for main parachute deployment. At about 4,000 feet, the separation at the base of the forward skirt extension occurs, pulling out the three 150-foot diameter main chutes packed within. These majestic red, white and blue canopies slow the booster even more, carrying it gently to splashdown.


Artist concept of the Ares I-X first stage recovery sequence. Credit: ATK

“The velocity and re-entry environments we’ll see on Ares I-X are a bit less than Ares I, but we will get a great deal of data to help us refine the final flight hardware designs,” said King. “We can’t wait to see our giant parachutes off the coast of Florida.”


Jennifer Morcone, NASA Marshall Space Flight Center public affairs office

 

Ares DM-I Motor Test Turns Sand to Glass


SHAZAM!!! Like a mighty bolt of lightning, NASA’s new Ares I rocket first stage motor will be tested later this month sending a plume of fire reaching temperatures more than 3300 degrees Fahrenheit and smoke hurdling for hundreds of yards.

The five-segment solid rocket development motor, or DM-1, will be tested at Alliant Techsystem’s (ATK) test stand in Promontory, Utah on August 27. An interesting byproduct of the test is a unique geographical change that will take place when 50 cubic yards of sand is transformed into a shimmering glass field.


The heritage of shuttle motor testing can be seen in the foreground with a glass field,
created assand used to protect the test stand was heated to temperatures more
than 3,300 degrees Fahrenheit. In the distance, preparations for the first ground
test of the Ares I Development Motor 1 (DM-1) have begun at ATK’s facility
in Promontory, Utah. (ATK)

The art of glass making has been around for centuries. No one knows exactly when or where glass was first made. Evidence shows that it may have originated in Mesopotamia, where pieces of glass have been found, believed to date from the third millennium BC.
When Googling the term “making glass” on the Internet you will learn the process involves basic materials like sand, soda and lime. It also requires very high heat in excess of about 2,912 degrees Fahrenheit.

But engineers at NASA and ATK will use a slightly different method when they conduct the first full-scale, full-duration test firing of the first stage motor for the Ares I rocket.

Four dump truck loads of sand are placed over the aft end of the test stand as a thermal protection barrier to the concrete pad. The intense temperatures escaping the motor at Mach 3, penetrate the sand six inches deep, as the result, a glass field is formed in the wake of the plume.

“The glass has a green tint to it based on the minerals that are in the sand,” said Kevin Rees, director of test and research services at ATK Space Systems. “It eventually crumbles and erodes as it is exposed to weather elements, but right after a test it is fun to see the glimmer reflecting off the glass that was sand a few minutes before.”

So the next time you see a test of a solid rocket motor, you’ll know that this ultimate “high temp” oven is doing more than just paving the path for America’s future in space. 

For more information about the Ares rockets or to watch the DM-1 hot fire test live, visit:

https://www.nasa.gov/ares

A Process of Assessment

There have been recent reports containing a leaked preliminary internal Air Force assessment document regarding potential abort scenarios for the Ares I rocket and the effect on an Orion crew exploration vehicle.  The assessment, as preliminary, addressed a certain class of abort scenarios.  This class of aborts involves destruction of the first stage because of either a case over-pressure or because of a range safety initiated destruct command.  The majority of aborts do not fall into this category because of the abort criteria and flight rules the program is implementing.  The analysis is not an official Air Force position, but a starting point for working specific issues associated with the complexities of aborts. 

An ongoing exchange of information and analysis is part of the formal process for the 45th Space Wing to evaluate a new vehicle’s request to use the Eastern Range and establish an operations agreement. NASA and the Air Force work together through routine technical interchange meetings to share data and analysis on launch vehicles and payloads. This is typical of how the two organizations have worked together in the past to evaluate Apollo, space shuttle, and nuclear payload missions such as New Horizons as they were in development. A joint team, comprised of experts from both NASA and the Air Force, meets routinely to collaborate on issues related to range safety, and works to provide answers to all outstanding questions and concerns.

The program will continue to work closely with the 45th Space Wing to mature the analyses as the development of the vehicle continues, with the top priority being the ability to protect the crew and public. ‪Ares/Orion were conceived and are being designed as the safest launch vehicles in history. The findings in this preliminary Air Force analysis have provided insight into the abort environment, and each issue and concern will be answered as NASA shares more in-depth studies and analysis with the Air Force and continues to refine its models and data. Constellation is a developing program and NASA will continue to work with the Air Force as the two agencies collaborate to assure both crew and public safety.‪

NASA Gives Official 'Go' for August 25 Ares I First Stage Motor Test


NASA gave the official “go” for the Ares I first stage Development Motor 1 (DM-1) test targeted for August 25 concluding a two-day test readiness review. Nineteen NASA managers signed off on the official readiness statement. It reads: “Pending satisfactory completion of normal operations flow and open items identified in this review, the Ares I First Stage test hardware is ready to support the static testing of DM-1.”

The review was held at ATK Launch Systems Huntsville, Al. office on July 21-22.  More than 50 solid rocket motor technical experts reviewed every detail of the DM-1 solid rocket motor, now installed in a  test stand at ATK’s Promontory, Utah test facility.  The first stage five-segment development motor has been under development since 2006. It is based on the design of the space shuttle’s four-segment configuration, but includes several modifications.

Max Tavoian, ATK Space Systems manager opened the formal review for ATK. Tavoian noted that most people in the room had been working toward DM-1 for the last three and a half years.

“This review will tell you why DM-1 is ready to go. DM-1 has 46 design objectives and 650 instrumentation channels. This test will prove out a series of technology improvements and design attributes including changes to the propellant grain, nozzle and updated liner and insulation implemented by ATK related to the new five-segment reusable solid rocket motor.”

Over the two days, the team engaged in a healthy and thorough discussion about the motor’s instrumentation, propellant and motor performance, insulation and components, metal case components and seals, and the overall readiness to “go” for test on August 25. The upcoming test is expected to provide valuable data on motor internal pressures, thrust profile, and performance of new designs on the nozzle and the internal motor insulation.  Additional benefits include data on roll-control, acoustics and vibration data. Engineers need all of this data to continue to design the Ares I rocket.
 
No issues emerged from the review that impact test readiness. Final instrumentation will be installed over the next month in preparation for the firing.

Alex Priskos, first stage manager for the Ares Projects Office at NASA’s Marshall Space Flight Center in Huntsville, Ala. chaired NASA’s test readiness review panel. He closed the meeting enthusiastically, acknowledging the hard work of the team which made this successful review possible. “This effort has been a thorough and professional effort. The professionalism of  this team gives me a high level of confidence as we go forward with this test,” he said.

“DM-1 is about taking advantage of all we’ve learned from the Shuttle program — the safety aspects and technology enhancements — and moving forward to the next stage of crewed exploration beyond low-Earth orbit,” explained Priskos. “This test is the first step in a  series of development and qualification tests. The ultimate goal is to design and build a first-stage motor that increases performance, is safe, reliable and will meet or exceed all of our requirements and objectives. The entire Ares team is looking forward to the DM-1firing next month and reviewing the test results.”

Jennifer Morcone, MSFC PAO

Ares I-X: Let the Stacking Begin…

Stacking is set to begin for the Ares I-X vehicle on Wednesday, July 8 in the Vehicle Assembly Building at Kennedy Space Center. It’s been a long time since the workers in the VAB have seen a new vehicle. In fact, it’s been 25 years since a new vehicle was stacked.

Following nearly three years of work by thousands of dedicated team members, the Ares I-X vehicle is ready for stacking on the Mobile Launch Platform, or MLP, in the Vehicle Assembly Building at Kennedy Space Center. 

Over the last week, the management team has met for reviews. Today (July 7), a “go” was given for the stacking operations. All of the modification work has been completed in VAB High Bay 3, as well as the Mobile Launch Platform, in preparation for the new Ares I-X vehicle.

Tomorrow, the Ares I-X aft assembly, composed of the aft skirt and aft motor segment, will be rolled from the Rotation Processing and Surge Facility to the VAB and lifted by overhead crane and placed on the MLP. (Be sure to check out the KSC gallery for photo updates.)

Over the next month, the stacking operations will continue with the additional motor segments, simulated upper stage segments and the vehicle will be completed when the simulated crew module and launch abort system is added to the top. (There will be a time-lapse camera. NASA will be posting video and images.)

We will keep you posted on this blog, on our Facebook page and Twitter.

Let the stacking begin!