Sunday, September 3, 2017
NASA / Bill Ingalls
Three International Space Station Crewmates Safely Return to Earth (Press Release)
NASA astronaut Peggy Whitson, who set multiple U.S. space records during her mission aboard the International Space Station, along with crewmates Jack Fischer of NASA and Commander Fyodor Yurchikhin of Roscosmos, safely landed on Earth at 9:21 p.m. EDT Saturday (7:21 a.m. Kazakhstan time, Sunday, Sept. 3), southeast of the remote town of Dzhezkazgan in Kazakhstan.
While living and working aboard the world’s only orbiting laboratory, Whitson and Fischer contributed to hundreds of experiments in biology, biotechnology, physical science and Earth science, welcomed several cargo spacecraft delivering tons of supplies and research experiments, and conducted a combined six spacewalks to perform maintenance and upgrades to the station.
Among their scientific exploits, Whitson and Fischer supported research into the physical changes to astronaut’s eyes caused by prolonged exposure to a microgravity environment. They also conducted a new lung tissue study that explored how stem cells work in the unique microgravity environment of the space station, which may pave the way for future stem cell research in space.
Additional research included an antibody investigation that could increase the effectiveness of chemotherapy drugs for cancer treatment, and the study of plant physiology and growth in space using an advanced plant habitat. NASA also attached the Cosmic Ray Energetics and Mass Investigation (ISS CREAM) on the outside of the space station in August, which is now observing cosmic rays coming from across the galaxy.
The crew members received a total of seven cargo deliveries during their mission. A Japanese H-II Transfer Vehicle launched to the space station in December 2016 delivering new lithium-ion batteries that were installed using a combination of robotics and spacewalks. Orbital ATK’s Cygnus spacecraft arrived at the station in April on the company's seventh commercial resupply mission. Three SpaceX Dragon spacecraft completed commercial resupply missions to the station in February, June and August. And, Russian ISS Progress cargo spacecraft docked to the station in February and June.
Whitson’s return marks the completion of a 288-day mission that began last November and spanned 122.2 million miles and 4,623 orbits of the Earth – her third long-duration mission on the station. During her latest mission, Whitson performed four spacewalks, bringing her career total to 10. With a total of 665 days in space, Whitson holds the U.S. record and places eighth on the all-time space endurance list.
Fischer, who launched in April, completed 136 days in space, during which he conducted the first and second spacewalks of his career. Yurchikhin, who launched with Fischer, now has a total of 673 days in space, putting him seventh place on the all-time endurance list.
Expedition 53 continues operating the station, with Randy Bresnik of NASA in command, and Sergey Ryazanskiy of Roscosmos and Paolo Nespoli of ESA (European Space Agency) serving as flight engineers. The three-person crew will operate the station until the arrival of NASA astronauts Mark Vande Hei and Joe Acaba, and Alexander Misurkin of Roscosmos. Vande Hei, Acaba and Misurkin are scheduled to launch Sept. 12 from Baikonur, Kazakhstan.
Friday, September 1, 2017
NASA / MSFC / Michoud / Jude Guidry
NASA Completes Welding of Liquid Oxygen Tank for First SLS Flight (News Release)
NASA is another step closer to completing all main structures for the agency’s first launch of the Space Launch System deep space rocket. The liquid oxygen flight tank was recently built in the Vertical Assembly Center robotic welder at NASA's Michoud Assembly Facility in New Orleans.
After the liquid oxygen tank was inspected, it was moved to another area for plug welding to fill the holes left by the friction stir welding process. Five major parts -- the engine section, liquid hydrogen tank, intertank, liquid oxygen tank and forward skirt –will be connected together to form the 212-foot-tall core stage, the backbone of the SLS rocket.
Boeing, the prime contractor for the core stage, is welding the liquid hydrogen tank structure--the final major core stage structure to be built for the first integrated flight of SLS and Orion. The liquid hydrogen and liquid oxygen tanks will hold 733,000 gallons of propellant to power the stage's four RS-25 engines that together produce more than 2 million pounds of thrust.
Thursday, August 31, 2017
Photos of the Day #2: The Full-Size SLS Core Stage Mock-up Is Ready to Help NASA Prepare to Handle the Real Thing...
NASA / MSFC
SLS Core Stage Simulator Will Pave Way for Mission Success (News Release)
To reduce the risk of first-time operations with one-of-a-kind spaceflight hardware for NASA’s Space Launch System (SLS), the agency built a core stage pathfinder similar in size, shape and weight to the 212-foot-tall core stage. Like SLS, the core stage pathfinder will be doing something that's never been done -- testing new shipping and handling equipment and procedures from the manufacturing site to the test site to the launch site.
Three companies helped build the pathfinder, joining more than 1,000 other American businesses that have contributed to building NASA’s deep-space rocket. Alabama companies Radiance Technologies and Dynetics of Huntsville and G&G Steel of Russellville worked to build and assemble the core stage pathfinder.
The steel simulator will travel by commercial barge from G&G Steel's Cordova factory to NASA's rocket factory, the Michoud Assembly Facility in New Orleans. Later, it will make its way on NASA’s barge Pegasus to the agency’s Stennis Space Center near Bay St. Louis in Mississippi, and then to Kennedy Space Center in Florida. In all these NASA facilities, the core stage pathfinder will help technicians practice critical operations for handling and transporting flight hardware and enable them to fit check the hardware before the actual core stage arrives at their facilities.
NASA / MSFC
Wednesday, August 30, 2017
Photo of the Day: The First Component of the SLS Core Stage Booster Is Ready To Undergo Final Touch-ups...
NASA / MSFC / Tyler Martin
NASA's Space Launch System Launch Vehicle Stage Adapter Ready for Thermal Insulation Application (News Release)
The largest piece of hardware for NASA's Space Launch System built at NASA's Marshall Space Flight Center in Huntsville, Alabama, is ready for thermal insulation. Manufacturing is complete on the launch vehicle stage adapter, and it has been moved to NASA’s Center for Advanced Manufacturing for the application of the spray-on foam insulation that will surround it during its ride to space. Not only is the LVSA the largest segment of the rocket built at Marshall, measuring 27.6 feet in diameter and 30 feet tall, it is also the largest piece of flight hardware to have insulation applied at Marshall by hand.
The LVSA connects two major sections of the upper part of SLS -- the core stage and the interim cryogenic propulsion stage -- for the first flight of the rocket and NASA's Orion spacecraft. Insulation is applied to segments of rocket hardware to protect them from aerodynamic heating. When the insulation is applied, the coating will appear yellow, but as the insulation is exposed to the sun, it will turn orange. Teledyne Brown Engineering of Huntsville, is the prime contractor for the adapter.
Tuesday, August 29, 2017
NASA / JSC
NASA’s Johnson Space Center Closes Through Labor Day for Tropical Storm Harvey (Press Release)
NASA’s Johnson Space Center in Houston will remain closed to all but mission essential personnel through Labor Day due to the effects of now-Tropical Storm Harvey. The center originally closed Aug. 25 and will reopen Tuesday, Sept. 5.
The center’s leadership team continues to closely monitor weather conditions and the overall situation in Houston, and is preparing a full assessment of the center’s status once the storm abates.
“Our primary concern is the safety of our employees and all our fellow Houstonians," said Johnson Director Ellen Ochoa. “We’re taking these measures to ensure the members of our team and their families can take care of themselves and their neighbors.”
The closing allows employees to avoid treacherous road conditions, and to attend to the needs of their families. It also allows the center to focus on the highest priority mission activities, including the landing of three International Space Station crew members this weekend in Kazakhstan.
Flight control for the International Space Station continues in Johnson’s Mission Control Center in Houston. Mission control is expected to remain in operation throughout this period.
All backup systems required to maintain the James Webb Space Telescope, which is at Johnson for testing, were checked prior to the arrival of the storm, and are ready for use, if necessary.
Space Center Houston, the official visitor center for Johnson, has announced it will extend its closure through Friday, Sept. 1. The visitor center’s leadership is monitoring conditions and will announce Saturday’s operating hours on Friday.
NASA / Randy Bresnik
Tuesday, August 22, 2017
NASA / Leif Heimbold
Lockheed Martin Powers-up Next Orion Spacecraft for First Time (Press Release)
Brain and Heart Brought to Life on NASA's Deep Space Exploration Ship
DENVER, Aug. 22, 2017 -- Engineers at Lockheed Martin and NASA breathed life into the next Orion crew module when they powered up the spacecraft for the first time at the Kennedy Space Center, Florida. Designed for human spaceflight, this Orion will be the first to fly more than 40,000 miles beyond the Moon during its nearly three-week Exploration Mission-1 (EM-1), a feat that hasn't been possible before.
"Orion was designed from the beginning to take humanity farther into space than we've ever gone, and to do this, its systems have to be very robust and reliable," said Mike Hawes, vice president and Orion program manager at Lockheed Martin. "Over the last year, we've built great momentum in assembling the crew module for EM-1. Everyone on the team understands how crucial this test campaign is, and more importantly, what this spacecraft and mission means to our country and future human space flight."
The initial power-on event was the first time the vehicle management computers and the power and data units were installed on the crew module, loaded with flight software and tested. Evaluating these core systems, thought of as the "brain and heart" of the Orion capsule, is the first step in testing all of the crew module subsystems.
Although astronauts will not fly in this capsule on this flight, a large majority of the subsystems and avionics are the same design that astronauts will rely on during following missions with Orion into the solar system. Launching on NASA's Space Launch System—the most powerful rocket in the world—the EM-1 flight is critical to confirming the Orion spacecraft and all of its interdependent systems operate as designed in the unforgiving environment of deep space.
With the successful initial power on behind them, engineers and technicians will now continue integrating the 55 components that make up the spacecraft avionics suite, connecting them with nearly 400 harnesses. Over the course of the next two to three months, as each system is installed, they will perform thorough functional tests to ensure Orion is ready to move to the all-important environmental testing phase.
NASA's Orion multi-purpose crew vehicle is the world's first human-rated spacecraft designed for long-duration, deep space exploration. Orion will transport humans to interplanetary destinations beyond low Earth orbit, including the Moon and eventually Mars. Lockheed Martin is the prime contractor to NASA for Orion, and is responsible for the design, build, testing, launch processing and mission operations of the spacecraft. Orion is managed out of NASA's Johnson Space Center in Houston.
Source: Lockheed Martin
Monday, August 21, 2017
Earlier today, NASA released this amazing composite image showing the International Space Station (ISS) crossing the Sun's disk during this morning's solar eclipse. It is absolutely amazing that photographers are able to take a picture of an artificial satellite passing in front of our parent star and Earth's natural satellite (the Moon) in such precise fashion. This is especially stunning considering the fact that the ISS is traveling at 17,500 mph above the Earth at all times...making it such a great challenge for any person on the ground who wants to take a snapshot of the station!
For photos that I myself took during today's highly-anticipated eclipse, visit my main Blog.
NASA / Bill Ingalls
For photos that I myself took during today's highly-anticipated eclipse, visit my main Blog.
NASA / Bill Ingalls
Tuesday, August 15, 2017
NASA recently unveiled a new art concept depicting the Space Launch System (SLS) rocket in an updated paint scheme as progress continues to be made towards its 2019 launch on Exploration Mission (EM)-1. As mentioned in this previous entry, engineers at Orbital ATK began painting black marks on the SLS' Solid Rocket Boosters (SRB) that will be used for photogrammetry...the science of using photography to help measure distances between objects. In the case of EM-1, the black marks will allow engineers on the ground to discern the distance between the SRBs and SLS' core stage upon booster separation during launch. The photogrammetric markings will also be used on components of the Orion spacecraft to analyze the distance between the capsule and the core stage as the spacecraft separates from SLS after reaching Earth orbit.
The black marks are nothing new; the SRBs have been sporting these paint schemes since the days of the space shuttle program.
Monday, August 14, 2017
NASA Cargo Launches to Space Station Aboard SpaceX Resupply Mission (Press Release)
Experiments seeking a better understanding of Parkinson’s disease and the origin of cosmic rays are on their way to the International Space Station aboard a SpaceX Dragon spacecraft following today’s 12:31 p.m. EDT launch.
Carrying more than 6,400 pounds of research equipment, cargo and supplies, the spacecraft lifted off on a Falcon 9 rocket from Launch Complex 39A at NASA's Kennedy Space Center in Florida on the company’s 12th commercial resupply mission. It will arrive at the space station Wednesday, Aug. 16, at which time astronauts Jack Fischer of NASA and Paolo Nespoli of ESA (European Space Agency) will use the space station’s robotic arm to capture it.
NASA Television and the agency’s website will provide live coverage of spacecraft rendezvous and capture beginning at 5:30 a.m., followed by installation coverage at 8:30 a.m.
Research materials flying inside the Dragon's pressurized area include an experiment to grow large crystals of leucine-rich repeat kinase 2 (LRRK2), a protein believed to be the greatest genetic contributor to Parkinson’s disease. Gravity keeps Earth-grown versions of this protein too small and too compact to study. This experiment, developed by the Michael J. Fox Foundation, Anatrace and Com-Pac International, will exploit the benefits of microgravity to grow larger, more perfectly-shaped LRRK2 crystals for analysis on Earth. Results from this study could help scientists better understand Parkinson’s and aid in the development of therapies.
The Kestrel Eye (NanoRacks-KE IIM) investigation is a microsatellite carrying an optical imaging payload, including a commercially available telescope. This investigation, sponsored by the U.S. National Laboratory, tests the concept of using microsatellites in low-Earth orbit to support critical operations, such as lowering the cost of Earth imagery in time-sensitive situations such as tracking severe weather and detecting natural disasters.
The Cosmic Ray Energetics and Mass instrument will be attached to the Japanese Experiment Module Exposed Facility on the space station, and measure the charges of cosmic rays. The data collected from its three-year mission will address fundamental questions about the origins and histories of cosmic rays, building a stronger understanding of the basic structure of the universe.
Dragon is scheduled to depart the space station in mid-September, returning more than 3,300 pounds of science, hardware and crew supplies to Earth.
For more than 16 years, humans have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and demonstrating new technologies, making research breakthroughs not possible on Earth to enable long-duration human and robotic exploration into deep space. A global endeavor, more than 200 people from 18 countries have visited the unique microgravity laboratory that has hosted more than 1,900 research investigations from researchers in more than 95 countries.
Wednesday, August 9, 2017
NASA / AMRO Fabricating Corp.
Orion Supplier Readies Shipment of Orion Astronauts’ Windows on the Universe (News Release)
When the first crew of astronauts flies aboard the Orion spacecraft, they will be able to look through a window and view the Moon and Earth from their deep-space vantage point. The window panel that will provide that view is ready for shipment to NASA. AMRO Fabricating Corp., of South El Monte, California, has completed a section of the Orion pressure vessel, or underlying structure of the spacecraft that will send astronauts farther than humans have ever traveled before on Exploration Mission-2 (EM-2).
Orion’s four windows are contained in one of three cone panels that AMRO is manufacturing for NASA and Orion prime contractor, Lockheed Martin. The spacecraft’s pressure vessel has seven structural elements, including the three cone panels. AMRO will ship the panel to NASA’s Michoud Assembly Facility in New Orleans by the end of August, where it will be outfitted with strain gauges and wiring for monitoring purposes and joined together with other pieces of the pressure vessel scheduled to arrive at Michoud in the coming months.
“Many of our suppliers around the country are already starting to manufacture elements of the Orion for our first mission with astronauts,” said Paul Marshall, assistant program manager for Orion. “Their work enables NASA’s push to expand our boundaries into space and eventually our voyage to Mars.”
The pressure vessel forms the sealed environment inside where astronauts will live and the structure upon which all the other elements of the spacecraft are built and integrated. The components of Orion’s pressure vessel are joined using the friction-stir welding process, which bonds the pieces by transforming metals from a solid into a plastic-like state and then forging a bond between the two metal components. Once all pressure vessel elements are welded together, the spacecraft will be sent to Kennedy Space Center in Florida for outfitting, processing and launch.
Other than several small changes to allow for interfaces with crew equipment or mounting of hardware specific to EM-2, the overall structure, manufacturing process and mass of the pressure vessel is the same as it is for the structure that will fly on the first mission of Orion and SLS, now that engineers have optimized the design of Orion’s structure. Engineers are making progress on the EM-1 spacecraft, currently being assembled at Kennedy ahead of its 2019 launch.
AMRO is a third generation, family owned, small business manufacturer that specializes in building metallic structures for spacecraft and launch vehicles. In addition to its work for Orion, AMRO makes elements of the Space Launch System core stage and provided components for the space shuttle. This past February, AMRO successfully graduated from the NASA Mentor-Protégé Program – a program through the Office of Small Business Programs which encourages NASA prime contractors to assist eligible protégés, thereby enhancing the protégés’ capabilities to perform on NASA contracts and subcontracts.
“I speak for everyone in the NASA Office of Small Business Programs when I express how proud we are of the tremendous contributions the AMRO Fabricating Corporation is making to the NASA mission,” said Glenn Delgado, associate administrator of the Office of Small Business Programs in Washington. “Their growth and achievements are a shining example of what can be accomplished by our protégés. We look forward to AMRO’s continued success.”
Exploration Mission-2 will be NASA’s first mission with crew in a series of missions in the proving ground, an area of space around the Moon where crew can build and test systems needed to prepare for the challenge of missions to Mars. The mission will launch from NASA’s Kennedy Space Center in Florida in the early 2020s.