From OPF to C3PF: A New Facility for a New Era

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The third of NASA’s Orbiter Processing Facilities built to protect the space shuttle fleet as engineers outfitted them for their next flights is nearing the end of its renovation into a factory for a new generation of spacecraft. The transformation required extensive work, starting with the removal of the tons of steel and aluminum work stands and platforms custom-built for shuttle servicing as seen in the video below. Space Florida, in coordination with Kennedy and Boeing, removes obsolete infrastructure so Boeing could modernize the facility.

Now called the Commercial Crew and Cargo Processing Facility, or C3PF, the high bay and adjoining work areas will be the production, assembly and processing home for Boeing’s Commercial Space Transportation (CST)-100 spacecraft. Developed in partnership with NASA’s Commercial Crew Program, the CST-100 is designed to launch on a United Launch Alliance Atlas V rocket to take astronauts to the International Space Station so they can add to the important science being performed every day in orbit.

C3PF Makeover

Boeing C3PFYou can see Florida taking shape on the front of Boeing’s Commercial Crew and Cargo Processing Facility, better known as C3PF, at NASA’s Kennedy Space Center. The 78,000 foot facility will be the production and processing home of Boeing’s Crew Space Transportation (CST)-100 spacecraft.

What do you expect Boeing will add to the wrap next?

Wrapping Up The Future

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Photo credit: NASA/Kim Shiflett

One of the former processing bays for the space shuttles at NASA’s Kennedy Space Center in Florida is getting a facelift this week as Boeing wraps the building that will be the production and processing home of its Crew Space Transportation (CST)-100 spacecraft. The interior of the Commercial Crew and Cargo Processing Facility, better known as the C3PF, is being outfitted for the precision demanded in assembling human-rated spacecraft and then processing the craft for flight.  The wrap, which will cover the front of the processing bay, will showcase the future Boeing intends to pursue with the CST-100 line. It is expected to take more than a week to complete the detailed illustration.

Boeing has been working to develop a crew transportation system that will transport NASA personnel, along with some equipment and supplies, to the International Space Station. NASA will certify that Boeing’s system meets the agency’s requirements. Once operational, the systems being developed under the Commercial Crew Program will save money, increase the amount of crew research time on the station and re-establish U.S. human access to space.

Spreading Our Wings – Into Space!

Airliner_to_Spaceliner_Mini_PosterThe United States has always been the leader in aerospace innovation and inventions. So with Commercial Crew Program efforts under way, NASA and industry are expanding their talents to formulate new ways to develop spacecraft and launch vehicles capable of safely and efficiently carrying people into orbit and to the International Space Station. We’re on the cusp of launching astronauts from Florida to conduct more research on the station with a larger crew that has more time for science, which will continue to help us here on Earth and as we prepare for the journey to Mars. That’s why today’s National Aviation Day is particularly relevant for the nation because it signals NASA’s intent to let more people spread their wings into space in the near future!

Crew Dragon Simulated Flight Ensures Hardware, Software are Ready for Missions

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SpaceX

SpaceX recently powered up its Crew Dragon avionics test bed at its facility in Hawthorne, California, by simulating a crew flight to the International Space Station. During the avionics functionality check, engineers were able to make sure the spacecraft’s hardware and software worked well together in a flight-like environment. The avionics are known as the brains of a spacecraft, controlling all the critical automated operations of a flight.

“It may not sound exciting, but it’s a really, really important tool. We can basically fly the Crew Dragon on the ground — flip the switches, touch the screens, test the algorithms and the batteries – all before testing the avionics system in flight,” said Hans Koenigsmann, vice president of mission assurance for SpaceX. “It’s important to get the avionics right before putting it into the capsule.”

The SpaceX avionics test bed is similar to the Shuttle Avionics Integration Lab, or SAIL, in Houston, which was used throughout NASA’s Space Shuttle Program to test the interaction of hardware and software before modifying code on the vehicles for flight.

Lettuce Feast Previews Research Potential of Station

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Astronauts for the first time nibbled a small crop of space-grown lettuce today in a look toward the future when crews head to deep space destinations like Mars with seeds ready to grow along the way. The red lettuce eaten Monday – accompanied by a dash of vinaigrette dressing – was grown in a specialized canister aboard the International Space Station during recent weeks and had sprouted from seeds that were glued into place on Earth. Astronauts placed the seeds and their pouches in a system that provided the water and light needed to make the plants grow. Half of the landmark crop was eaten while the other half will be returned to researchers at NASA’s Kennedy Space Center in Florida for closer study.

Scientists are deep into the next phases of the plant-growth experiments with platters of cabbage, tomatoes, peppers and radishes anticipated on upcoming flights. The research reflects the value of studies aboard the station ahead of our Journey to Mars in which crews will count on vegetables grown in space for a small amount of nutrients and added touch of home during missions that could last two years. The experimentation could also be boosted by the addition of a crew member on the station – something that would be allowed with the advent of commercial crew spacecraft now in development with NASA, Boeing and SpaceX.

 

SpaceX Completes Road to Launch Pad

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LC39Aimage2Launch Pad 39A at NASA’s Kennedy Space Center, Florida, continues to take shape as SpaceX has completed the road from its processing hangar to the top of the launch stand.

LC39a_3A transporter-erector will move the Falcon 9 and Falcon Heavy rockets to position them above the flame trench for liftoff on flights carrying astronauts to the International Space Station and other launches.

The rockets and Crew Dragon spacecraft will be processed in the hangar being built at the base of the pad. The company also continues upgrading the launch structure and pad area to modernize the facilities that supported historic launches of the Apollo-Saturn V missions and space shuttles.

 

IDA-2 Goes Horizontal for Pre-Launch Testing

KSC-315D-0315_0006 Engineers in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida recently tested the mechanisms that will connect future commercial crew spacecraft with the second International Docking Adapter. IDA-2, as it’s called, will be taken to the space station on a future cargo resupply mission. It will be one of two connection points for commercial crew spacecraft visiting the orbiting laboratory. The systems and targets for IDA-2 are set to be put through extensive tests with both Boeing’s CST-100 and SpaceX’s Crew Dragon before the adapter is loaded for launch.KSC-315D-0315_0023

“We set IDA-2 up horizontally for the alignment checks with the CST-100 to more closely mirror how the two would connect in space,” said Steve Bigos, project manager for orbital replacement unit processing at Kennedy. “There is a lot of new technology, so it’s very interesting.”

The targets are much more sophisticated than previous docking systems and include lasers and sensors that allow the station and spacecraft to autonomously communicate distance cues and enable alignment and connection. Think of it as a car that can park itself.

Domes Arrive for CST-100 Test Article Assembly

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Image Credit: Boeing

The first two domes that will form the pressure shell of the Structural Test Article, or STA, for Boeing’s CST-100 spacecraft have arrived at NASA’s Kennedy Space Center. The STA Crew Module will be assembled inside the former space shuttle hangar, known as Orbiter Processing Facility-3, so the company can validate the manufacturing and processing methods it plans to use for flight-ready CST-100 vehicles. While the STA will not fly with people aboard, it will be used to determine the effectiveness of the design and prove its escape system during a pad abort test. The ability to abort from an emergency and safely carry crew members out of harm’s way is a critical element for NASA’s next generation of crew spacecraft.

The main structure of the STA was friction-stir welded into a single upper and lower hull in mid-2015 and then machined to its final thickness. Throughout the next few months, it will be outfitted with critical components and systems required for testing. Once completed at Kennedy, the test article will be taken to Boeing’s facility in Huntington Beach, California, for evaluations. The “structural test” is one of many that will verify the capabilities and worthiness of the spacecraft, which is being designed to carry astronauts to the International Space Station in the near future for NASA’s Commercial Crew Program.

Boeing plans to launch its spacecraft on United Launch Alliance Atlas V rockets from Space Launch Complex 41 at Cape Canaveral Air Force Station, which is only a few miles away from the CST-100 processing facility at Kennedy. A human-rated crew access tower that will give astronauts and ground support crews access to the CST-100 standing at the pad is currently is under construction near the launch site.