Space Station Hardware Developers, Payload Support Teams Celebrate Two Decades of Success, Prepare for Third

NASA astronaut Peggy Whitson conducts a science experiment in the Microgravity Science Glovebox during Expedition 51 in 2017. The glovebox is one of 15 space station science hardware facilities managed for the agency by NASA’s Marshall Space Flight Center in Huntsville, Alabama. (Credits: NASA)

HUNTSVILLE, Ala. (NASA PR) — Ask International Space Station facility engineers and payload operations teams at NASA’s Marshall Space Flight Center in Huntsville, Alabama, what makes them proudest as they look back on two decades of developing and testing science hardware and providing real-time support for experiments on orbit. Many will instinctively glance upward, as if the source of that pride might be passing overhead at that moment, 250 miles up.

Just as often though, they look to one another.

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Returning a Sample From Titan Using In-Situ Propellants

Visualization of sample return launch from Titan. (Credits: Steven Oleson)

NASA Innovative Advanced Concepts (NIAC) Phase I Award
Funding: up to $125,000
Study Period: 9 months

A Titan Sample Return Using In-Situ Propellants
Steven Oleson
NASA Glenn Research Center
Cleveland, Ohio

A Titan Sample Return Using In-Situ Propellants is a proposed Titan sample return mission using in-situ volatile propellants available on its surface. This approach for Titan is very different from all conventional in-situ resource utilization concepts, and will accomplish a return of great science value toward planetary science, astrobiology, and understanding the origin of life, that is an order of magnitude more difficult (in distance and ∆V) than other sample return missions.

2021 Phase I Selections

About NIAC

The NASA Innovative Advanced Concepts (NIAC) Program nurtures visionary ideas that could transform future NASA missions with the creation of breakthroughs — radically better or entirely new aerospace concepts — while engaging America’s innovators and entrepreneurs as partners in the journey.

The program seeks innovations from diverse and non-traditional sources and NIAC projects study innovative, technically credible, advanced concepts that could one day “change the possible” in aerospace. If you’re interested in submitting a proposal to NIAC, please see our “Apply to NIAC” link (https://www.nasa.gov/content/apply-to-niac) for information about the status of our current NASA Research Announcement (NRA). For descriptions of current NIAC projects, please refer to our ”NIAC Studies” link (https://www.nasa.gov/directorates/spacetech/niac/NIAC_funded_studies.html).

To find out more, see nasa.gov/niac or contact us at hq-niac@mail.nasa.gov.

University Students Test NASA Tech in Microgravity

University of Florida students test new technologies during a zero gravity microgravity flight. (Credit: Zero Gravity Corporation)

CLEVELAND (NASA PR) — NASA teamed up with a group of researchers from Dr. Jacob Chung’s lab at the University of Florida in Gainesville and the Aerospace Corporation based in El Segundo, California, to test two technologies to reduce the amount of cryogenic propellant consumed during future space missions. Instead of working in a typical lab, a plane following a parabolic flight path briefly suspended the technologies and researchers in microgravity.

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Futuristic Space Technology Concepts Selected by NASA for Initial Study

This illustration shows a conceptual lunar railway system called FLOAT (Flexible Levitation on a Track) that has been selected for an early-stage feasibility study within the NASA Innovative Advanced Concepts program. (Credit: NASA/JPL-Caltech)

PASADENA, Calif. (NASA PR) — Four advanced space concepts from NASA’s Jet Propulsion Laboratory have been selected to receive grants for further research and development.

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NASA Armstrong Collaborates with Rocket Lab, Sensuron to Mature Fiber Optic Technology

EDWARDS, Calif. (NASA PR) — A system originally developed to collect distributed strain and temperature measurements on aircraft has been enhanced to support future NASA space missions. Two companies were selected by NASA through the 2020 Announcement of Collaboration Opportunity to further develop and commercialize the technology. 

The Fiber Optic Sensing System (FOSS) developed at NASA’s Armstrong Flight Research Center in Edwards, California, uses sensors that are the size of a human hair to monitor vehicle structural and thermal response. Much of the technology effort to advance FOSS for use on airplanes and rockets was funded by the Space Technology Mission Directorate’s Center Innovation Fund.

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Astrobotic Wins $5.7 Million NASA Tipping Point Contract for Wireless Charging on the Moon

Astrobotic, WiBotic, Bosch, University of Washington, NASA GRC to develop Wireless Ultra-Fast Proximity Charging for Critical Space Applications

PITTSBURGH (Astrobotic PR) — Astrobotic wins $5.7 million NASA Tipping Point contract to lead Bosch, WiBotic, the University of Washington, and the NASA Glenn Research Center (GRC) in developing a product line of lightweight proximity chargers. These ultrafast wireless chargers will enable critical lunar applications for both humans and robots.

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NASA and SpaceX Complete Certification of First Human-Rated Commercial Space System

A SpaceX Falcon 9 rocket and Crew Dragon Resilience for NASA SpaceX’s Crew-1 mission are seen inside the SpaceX Hangar at NASA’s Kennedy Space Center in Florida on Nov. 9, 2020, before rollout to Launch Pad 39A. (Credits: SpaceX)

KENNEDY SPACE CENTER, Fla. (NASA PR) — Years of design, development, and testing have culminated in NASA officially certifying the first commercial spacecraft system in history capable of transporting humans to and from the International Space Station as part of the agency’s Commercial Crew Program. NASA completed the signing of the Human Rating Certification Plan Tuesday for SpaceX’s crew transportation system after a thorough Flight Readiness Review ahead the agency’s SpaceX Crew-1 mission with astronauts to the space station.

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Sierra Nevada Names Former NASA Astronaut Janet Kavandi to Lead Space Business

Janet Kavandi (Credit: NASA)

SPARKS, Nev., November 05, 2020 (SNC PR) – Sierra Nevada Corporation (SNC), the global aerospace and national security company owned by Eren and Fatih Ozmen, today announced that former NASA Glenn Research Center Director and astronaut Janet Kavandi, Ph.D. has been named executive vice president of SNC’s Space Systems Group (SSG) business area based in Louisville, Colorado.

Kavandi will oversee all aspects of SNC’s space business including the much-anticipated first flight of its Dream Chaser® spaceplane, the world’s first commercial, non-capsule space vehicle capable of a runway landing. Dream Chaser is currently in full production and under NASA contract to perform at least six cargo missions to the International Space Station for the agency’s CRS-2 program.

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NASA Selects Promising Purdue Space Technologies for Commercial Flight Tests

Steven Collicott, Purdue University professor of aeronautics and astronautics, shown here in zero gravity, will have four projects under grants.

WEST LAFAYETTE, Ind. – Faculty members in Purdue University’s schools of Aeronautics and Astronautics and Mechanical Engineering are among a list of 28 researchers whose technologies have been selected to receive funding under NASA’s Tech Flights solicitation.

Steven Collicott , professor of aeronautics and astronautics, will receive four separate grants totaling $1.8 million for four different experiments. Issam Mudawar, the Betty Ruth and Milton B. Hollander Family Professor of Mechanical Engineering, will receive one grant in the amount of $649,851.

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NASA Tipping Point Selections Include Cryogenic Fluid, Lunar Surface and Landing Tech

An astronaut descends the ladder to explore the lunar surface. (Credit: NASA)

WASHINGTON (NASA PR) — The following selections, organized by topic area, are based on NASA’s fifth competitive Tipping Point  solicitation and have an expected combined award value of more than $370 million. NASA’s Space Technology Mission Directorate (STMD) will negotiate with the companies to issue milestone-based firm-fixed price contracts lasting for up to five years.

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Future Rocket Engines May Include Large-Scale 3D Printing

Blown powder directed energy deposition can produce large structures – such as these engine nozzles – cheaper and quicker than traditional fabrication techniques. (Credits: NASA)

HUNTSVILLE, Ala. (NASA PR) — As part of the Artemis  program, NASA is returning astronauts to the Moon where we will prepare for human exploration of Mars. Additive manufacturing, or 3D printing, experts from NASA, industry, and academia are pioneering methods to print the rocket parts that could power those journeys.

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NASA Takes Delivery of GE Jet Engine for X-59 Supersonic Demonstrator

The F414-GE-100 engine, which will power NASA’s X-59 Quiet SuperSonic Technology X-plane (QueSST) in flight, is unboxed at NASA’s Armstrong Flight Research Center in Edwards, California. The engine, one of two delivered by GE, is approximately 13 feet long, and will power X-59 on missions to gather information about how the public perceives the sounds of quieter supersonic flight. (Credits: NASA / Ken Ulbrich)

EDWARDS, Calif. (NASA PR) — Mark the big one-of-a-kind engine, designed and built just for NASA, as delivered.

Nearly 13 feet long, three feet in diameter, and packing 22,000 pounds of afterburner enhanced jet propulsion, the F414-GE-100 engine is now at NASA’s Armstrong Flight Research Center on Edwards Air Force Base in California.

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NASA, University Hospitals Join Forces in Response to COVID-19

Doctors Amrita John and Shine Raju at UH Cleveland Medical Center with the device that decontaminates masks using atomic oxygen. (Credit: University Hospitals)

CLEVELAND (NASA PR) — NASA’s Glenn Research Center and University Hospitals (UH) in Cleveland have collaborated to develop new methods and technologies for decontaminating personal protective equipment (PPE) for aerospace applications and for safeguarding the health of workers caring for patients with coronavirus (COVID-19).

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