Europa Clipper Solar Array Alignment and Install

Europa Clipper Solar Array Alignment and Install

Technicians move NASA’s Europa Clipper spacecraft inside the Payload Hazardous Servicing Facility to accommodate installation of its five-panel solar array at the agency’s Kennedy Space Center in Florida.

Technicians move NASA’s Europa Clipper spacecraft inside the Payload Hazardous Servicing Facility to accommodate installation of its five-panel solar array at the agency’s Kennedy Space Center in Florida on Thursday, Aug. 1, 2024. After moving the spacecraft, the team had to precisely align the spacecraft in preparation for the installation. The huge arrays – spanning more than 100 feet when fully deployed, or about the length of a basketball court – will collect sunlight to power the spacecraft as it flies multiple times around Jupiter’s icy moon, Europa, conducting science investigations to determine its potential to support life.

NASA/Frank Michaux

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Gary Daines

NASA Sends More Science to Space, More Strides for Future Exploration

NASA Sends More Science to Space, More Strides for Future Exploration

New experiments aboard NASA’s Northrop Grumman 21st cargo resupply mission aim to pioneer scientific discoveries in microgravity on the International Space Station.

Northrop Grumman’s Cygnus spacecraft, filled with nearly 8,500 pounds of supplies, launched Aug. 4 atop a SpaceX Falcon 9 rocket from Space Launch Complex 40 at Cape Canaveral Space Force Station in Florida. Biological and physical investigations aboard the spacecraft included experiments studying the impacts of microgravity on plants (grass), how packed bed reactors could improve water purification both in space and on Earth, and observations on new rounds of samples that will allow scientists to learn more about the characteristics of different materials as they change phases on the tiniest scales.

Grass Growth & Bio-Regenerative Support

The cultivation of plants is crucial for developing bio-regenerative life support systems in space. However, growing them in microgravity affects photosynthesis, the process by which plants generate oxygen and convert carbon dioxide into food for astronauts. The C4 Photosynthesis in Space Advanced Plant Experiment-09 investigation will study how two grasses (Brachypodium distachyon and Setaria viridis), with different approaches to photosynthesis, respond to microgravity and high carbon dioxide levels during the spaceflight. The insights gained from this research will pave the way for more effective integration of plants on Earth and in future space habitats. This experiment was originally scheduled to be aboard NASA’s SpaceX 30th cargo resupply mission but was moved to the NG-21 launch.

A split screen containing two square boxes, filtered by a cool magenta light. Each box is divided into nine smaller boxes containing plants at various stages of growth.
Credit: NASA

Water Purification & Gravity

The Packed Bed Reactor Experiment – Water Recovery Series aboard NG-21 will be operated on the space station and will study the hydrodynamics (pressure drop, flow regimes, and flow instability) of two-phase flow (nitrogen gas-water mixture) in microgravity in various types of filters and openings. These samples are important for fluid systems used in life support and water purification and recovery processes. Outcomes of this research will be used to develop design tools and correlations for pressure drop prediction across the various prototypes used in lunar and Martian missions and beyond. 

A complex scientific instrument sits atop a table lined with blue paper. The instrument is comprised of a metal framework with a grayish tube running its length. The torso of a scientist is in the background, his blue-gloved hand inspecting the instrument.
Credit: NASA

Removing Impurities in Melted Materials

The Electrostatic Levitation Furnace–4 experiment led by JAXA (Japan Aerospace Exploration Agency), one of NASA’s space station international partners, includes 20 new test samples. Its goal is to continue establishing guidelines for measuring different thermophysical properties of various samples at temperatures greater than 2,000 degrees Celsius.

Transforming raw materials from a liquid to solid form requires the use of a container, known as a crucible, which is used to both heat and hold the substance as it cools down and hardens. During this process, a chemical reaction occurs between the substance and the crucible, and impurities are released and absorbed in the plasma. The Electrostatic Levitation Furnace is the hardware that allows scientists to remove this contaminating part of the process by creating space between the liquid and container — levitating the sample while heated.

A Japanese astronaut smiles at the camera as he installs equipment against a wall of wires and hardware.

More Materials Science: Getting to the Core

The Electromagnetic Levitator, an ESA (European Space Agency) levitation facility, which is celebrating a decade aboard the International Space Station, enables scientists to conduct materials research on at least two elements, known as alloys, in a microgravity environment. By studying the core of the physics taking place, researchers can perform experiments to better understand the steps leading up to solidifying and changing phases. This knowledge could contribute to advancements in the manufacturing industry by providing scientists with more information to develop the latest and more reliable materials for activities like 3D printing.   

An astronaut wearing a short-sleeved black polo shirt with his back to the camera appears to be working on a piece of metal equipment, The equipment is shaped rectangular-shaped and juts out from a wall of exposed wires and other metal parts.
Related Resources

NASA’s 21st Northrop Grumman Mission Launches Scientific Studies to Station

ESA – Electromagnetic Levitator turns ten

About BPS

NASA’s Biological and Physical Sciences Division pioneers scientific discovery and enables exploration by using space environments to conduct investigations not possible on Earth. Studying biological and physical phenomenon under extreme conditions allows researchers to advance the fundamental scientific knowledge required to go farther and stay longer in space, while also benefitting life on Earth.

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Lagniappe for August 2024

Lagniappe for August 2024

4 Min Read

Lagniappe for August 2024

These images and videos show team members at Michoud Assembly Facility loading the first core stage that will help launch the first crewed flight of NASA’s SLS (Space Launch System) rocket for the agency’s Artemis II mission onto the Pegasus barge on Tuesday, July 16, 2024. The barge will ferry the core stage on a 900-mile journey from the agency’s Michoud Assembly Facility in New Orleans to its Kennedy Space Center in Florida. The core stage for the SLS mega rocket is the largest stage NASA has ever produced. At 212 feet tall, the stage consists of five major elements, including two huge propellant tanks that collectively hold more than 733,000 gallons of super chilled liquid propellant to feed four RS-25 engines at its base. During launch and flight, the stage will operate for just over eight minutes, producing more than 2 million pounds of thrust to help send a crew of four astronauts inside NASA’s Orion spacecraft onward to the Moon. All the major structures for every SLS core stage are fully manufactured at NASA Michoud.  NASA is working to land the first woman, first person of color, and its first international partner astronaut on the Moon under Artemis. SLS is part of NASA’s backbone for deep space exploration, along with the Orion spacecraft and Gateway in orbit around the Moon and commercial human landing systems, next-generation space, next-generational spacesuits, and rovers on the lunar surface. SLS is the only rocket that can send Orion, astronauts, and supplies to the Moon in a single launch.

Explore the August 2024 issue, highlighting the announcement of the new NASA Stennis Deputy Director, the successful SLS (Space Launch System) core stage rollout for Artemis II, NASA’s participation at Essence, and more!

Explore Lagniappe for August 2024 featuring:

  • NASA’s Stennis Space Center Announces New Deputy Director
  • NASA Inspires at 2024 ESSENCE Fest in New Orleans
  • NASA Stennis Flashback

Gator Speaks

The roll out of NASA’s SLS (Space Launch System) Artemis II core stage from NASA’s Michoud Assembly Facility in New Orleans on July 16 brought warm feelings to this Gator heart of mine.

It shows the continued progress toward the Artemis II test flight for NASA’s first crewed mission to the Moon under the Artemis campaign.

Lagniappe for August 2024 image is photo of an RS-25 engine test with on overlay of a starry sky, a huge moon, and Artemis flying over with a small headshot of Gator in the bottom left corner
Gator Speaks
NASA/Stennis

The SLS core stage for NASA’s powerful rocket shows the collective strength of collaboration, including all 10 NASA centers and more than 1,100 companies across the United States who contributed to its production.

NASA Stennis is quite familiar with the SLS core stage for a couple of reasons.

The expert NASA Stennis test team knows all about the RS-25 engines helping power SLS since all RS-25 engines are tested and proven flight-worthy at NASA Stennis. Two huge propellant tanks that collectively hold more than 733,000 gallons of super-chilled liquid propellant feed four RS-25 engines at launch.

It will be quite a sight watching the SLS core stage produce more than 2 million pounds of thrust to propel astronauts toward the Moon in the Orion spacecraft.

NASA Stennis helped pave the way for a successful Artemis I launch by testing the first SLS core stage to collect data and ensure all was ready to go.

Now, crews are preparing the Thad Cochran Test Stand (B-2), where NASA Stennis tested the SLS core stage for Artemis I, for future testing of NASA’s exploration upper stage.

The new upper stage, in production at NASA Michoud, is part of the next evolution for SLS.

So, you see, the July roll out of the SLS core stage for Artemis II is much more than a chance to see the massive structure being moved.

It shows the passions and dreams of so many on the move.

It shows the creativity involved.

It shows how NASA continues building on decades of exploration experience to fuel America’s passion for discovery.

Go, Artemis! Go, NASA!

NASA Stennis Top News

NASA’s Stennis Space Center Announces New Deputy Director

NASA’s Stennis Space Center Director John Bailey announced Aug. 2 that longtime propulsion engineer/manager Christine Powell has been selected as deputy director of the south Mississippi propulsion site, effective Aug. 12.

NASA Inspires at 2024 ESSENCE Fest in New Orleans

NASA joined the self-designated “party with a purpose” to let participants in the 30th ESSENCE Festival of Culture in New Orleans know there is space for everybody at the space agency.

NASA Stennis Flashback: Shuttle Team Achieves Unprecedented Milestone

As chief of test operations at NASA’s Stennis Space Center, Maury Vander has been involved in some long-duration propulsion hot fires – but he still struggles to describe a pair of 34-minute space shuttle main engine tests conducted onsite in August 1988.

Center Activities

NASA Stennis Celebrates National Intern Day

Navy Interns Tour NASA Stennis

Summer interns with the U.S. Naval Research Laboratory stand in front of the Thad Cochran Test Stand (B-1/B-2) on July 10
Summer interns with the U.S. Naval Research Laboratory stand in front of the Thad Cochran Test Stand (B-1/B-2) on July 10. NASA Stennis crews are preparing the B-2 side of the stand for future testing of NASA’s exploration upper stage. The more powerful second stage is expected to fly on NASA’s SLS (Space Launch System) rocket for Artemis IV. The Naval Research Laboratory interns visited the stand during an afternoon tour of NASA Stennis. The Naval Research Laboratory is a tenant of the NASA Stennis federal city, where it provides advanced scientific capabilities required to bolster the nation’s position of global naval leadership.
NASA/Danny Nowlin

Louisiana Legislative Staff and Interns Visit NASA Stennis

Legislative staff and interns from the office of U.S. Rep. Garrett Graves of Louisiana stand in front of the Fred Haise Test Stand.
Legislative staff and interns from the office of U.S. Rep. Garrett Graves of Louisiana are pictured at the Fred Haise Test Stand at NASA Stennis on July 11. During the visit to the south Mississippi site, the group learned more about internship opportunities with NASA and NASA Stennis. In addition to touring the test complex where RS-25 engines are tested for future Artemis missions, the group visited the Aerojet Rocketdyne Engine Assembly Facility onsite. Aerojet Rocketdyne, an L3Harris Technologies company, manufactures RS-25 engines to help power NASA’s SLS (Space Launch System) rocket on Artemis missions to the Moon and beyond.
NASA/Danny Nowlin

Local School Leaders Visit NASA Stennis

Pearl River County Elementary School leaders visit the Thad Cochran Test Stand (B-1/B-2) and pose for a photo in front of it.
Pearl River County Elementary School leaders visit the Thad Cochran Test Stand (B-1/B-2) during a NASA Stennis tour on July 15. The school leaders received an overview of work conducted at NASA Stennis, including how the south Mississippi site is contributing to NASA’s return to the Moon through the Artemis campaign by testing engines and stages to help power the SLS (Space Launch System) rocket.
NASA/Danny Nowlin

NASA Associate Administrator Visits NASA Stennis

NASA Associate Administrator Jim Free stands with leaders from NASA Stennis and the NASA Shared Services Center
NASA Associate Administrator Jim Free stands with leaders from NASA Stennis and the NASA Shared Services Center during a visit on July 16 to the south Mississippi site. Free also met with representatives of commercial companies engaged in onsite propulsion activities. Pictured left to right is Jill Castiglione, NASA Stennis executive assistant; Troy Frisbie, NASA Stennis chief of staff; Nikki Tubbs, NASA Shared Services Center director of support operations; Anita Harrell, NASA Shared Services Center executive director; Free; John Bailey, NASA Stennis director; Rodney McKellip, NASA Stennis associate director; Troy Taylor, NASA Shared Services Center deputy director of service delivery; and Jessie Shiyou, NASA Shared Services Center executive assistant.
NASA/Danny Nowlin

Congressional Staff Visit NASA Stennis

Congressional staff delegates representing eight states along with NASA and U.S. Air Force representatives pose for a photo while visiting the Thad Cochran Test Stand
Congressional staff delegates representing eight states (Alabama, California, Colorado, Illinois, Louisiana, Maryland, New Jersey, and New York), along with NASA and U.S. Air Force representatives, tour the Thad Cochran Test Stand (B-2) at NASA Stennis on July 16. The visit provided an opportunity for the group to learn about propulsion test work carried out onsite by NASA and commercial companies.
NASA/Danny Nowlin

NASA Stennis Participates in Hancock County Groundbreaking

NASA Stennis break ground with officials from Hancock County
NASA Stennis breaks ground with officials from Hancock County on July 18 for the Stennis Wastewater Conveyance Project at the Northern Wastewater Treatment Plant in Kiln, Mississippi. The groundbreaking represented launch of an agreement described as a win-win situation for Hancock County and NASA Stennis. Upon completion of the project, the county will assume responsibility for servicing wastewater from the NASA center. The new agreement will enable the county to utilize its existing facility more efficiently, while also allowing NASA Stennis to devote more center resources its mission work. Groundbreaking participants include (left to right): Hancock County supervisor Chuck Clark, District 3; Hancock County supervisor Bo Ladner, District 5; Hancock County Water & Sewer District Chair Farron Hoda; state Rep. Brent Anderson, Mississippi District 122; Mayor Mike Favre, Bay St. Louis, Mississippi; NASA Stennis Associate Director Rodney McKellip; Hancock County Board President Scotty Adam (District 4 supervisor); state Sen. Philman Ladner, Mississippi District 46; NASA Stennis project manager Brittany Bouche; Mayor Jay Trapani, Waveland, Mississippi; and Hancock County Utility Authority Executive Director David Pitalo.
NASA/Troy Frisbie

Java with John Hosts NASA Stennis Supervisors

NASA Stennis Director John Bailey sits with NASA Stennis supervisors
NASA Stennis Director John Bailey hosts a Java with John session with NASA Stennis supervisors on July 24. Java with John is an ongoing employee-led discussion in a relaxed environment aimed to foster a culture where all are welcome to share what matters most to their work at NASA Stennis.
NASA/Danny Nowlin

NASA in the News

Employee Profile: Kim Johnson

NASA employee Kim Johnson’s desire for growth has taken her many places and continues unabated at NASA’s Stennis Space Center near Bay St. Louis, Mississippi.

Kim Johnson, wearing a black blouse, poses near a tree outside of Building 1111 at Stennis Space Center which can be seen in the background.
Kim Johnson supports NASA’s mission as a contracting officer at NASA’s Stennis Space Center near Bay St. Louis, Mississippi.
NASA/Danny Nowlin

Additional Resources

Subscription Info

Lagniappe is published monthly by the Office of Communications at NASA’s Stennis Space Center. The NASA Stennis office may be contacted by at 228-688-3333 (phone); ssc-office-of-communications@mail.nasa.gov (email); or NASA OFFICE OF COMMUNICATIONS, Attn: LAGNIAPPE, Mail code IA00, Building 1111 Room 173, Stennis Space Center, MS 39529 (mail).

The Lagniappe staff includes: Managing Editor Lacy Thompson, Editor Bo Black, and photographer Danny Nowlin.

To subscribe to the monthly publication, please email the following to ssc-office-of-communications@mail.nasa.gov – name, location (city/state), email address.

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LaToya Dean

NASA Stennis Flashback: Shuttle Team Achieves Unprecedented Milestone

NASA Stennis Flashback: Shuttle Team Achieves Unprecedented Milestone

4 min read

Preparations for Next Moonwalk Simulations Underway (and Underwater)

As chief of test operations at NASA’s Stennis Space Center, Maury Vander has been involved in some long-duration propulsion hot fires – but he still struggles to describe a pair of 34-minute space shuttle main engine tests conducted onsite in August 1988.

“When you stop and think about it, …” Vander begins, then pauses. “In 34 minutes, I can leave work and drive home to Slidell (15-20 miles west in Louisiana) and be relaxing in my recliner in that amount of time.”

Vander’s struggle is understandable when one considers the numbers. On Aug. 3 and Aug. 15, operators at the Thad Cochran Test Stand (B-1) at NASA Stennis near Bay St. Louis, Mississippi, fired a space shuttle main engine for a total of 2,017 seconds each day, more than four times as long as the engine fired (500 seconds) during a typical space shuttle launch.

In terms of propulsion firings, nothing else comes close. The next-longest duration appears to have occurred in 2001, when a Progress M1-5 engine was fired for about 22 minutes to help deorbit the Russian space station Mir.

Vander still wonders at the south Mississippi feat. “The ability to juggle the type of challenges seen over the course of 30-plus minutes is amazing,” he said. “And you are not talking about 21st century technology either. You are talking about rather simplistic stuff not far removed from the 1960s, so there was an art to operating that type of equipment. But, they pulled it off.”

NASA Stennis may have been the only place such a firing could have been conducted.

It had the needed test facility. The Thad Cochran (B-1) stand featured a larger liquid oxygen tank to support the test and was equipped with a diffuser that allowed operators to throttle the engine to lower power levels, thus conserving fuel. The stand also had a larger dock area for additional propellant barges needed for test support.

Each 34-minute test required about 600,000 gallons of liquid hydrogen and 230,000 gallons of liquid oxygen. Careful coordination ensured proper propellant flow from barges. “We still had old pumps for the barges, as opposed to the new ones that have variable drives to help control flow,” Vander noted. “The pumps back then were basically on/off pumps. If they were running, they were pretty much running wide open. That posed a challenge for controlling flow. It was a real art to orchestrate everything for such a long period of time.”

In addition, the NASA Stennis High Pressure Gas Facility had to ensure proper volume and flow of gases to support the tests. Teams at the High Pressure Water Facility had to manage uninterrupted flow from the 66-million gallon reservoir to the test stand. “All of these were challenges they had to think their way through and logistically make happen,” Vander said.

The test team had to maintain constant vigilance of such operations. “You are always monitoring, trying to figure out what could go wrong,” Vander said. “At any given moment, you may have to react and deal with a problem. To think of those people sitting in front of computer screens, gauges, and such, watching and making sure their responsibilities were covered for 30-plus minutes, is just amazing.”

The teams were driven by a compelling factor. The nation was just recovering from the Challenger tragedy of 1986. Space shuttle Discovery would launch NASA’s return to flight in late September. Space shuttle Atlantis was scheduled to launch later in the year, but there was an issue with the fuel preburner injector on one of the engines. To resolve the matter, operators needed to record 8,000 seconds of hot fire on the injector. They decided to compile the time as efficiently as possible.

Engineers at NASA’s Stennis Space Center conduct one of two 2,017-second tests of a space shuttle main engine on the Thad Cochran Test Stand (B-1) in August 1988. The tests still stand as the longest duration propulsion hot fires at the center and perhaps anywhere. The tests – almost 34 minutes each – were more than four times longer than space shuttle main engines fired during an actual launch.
NASA/Stennis

By the conclusion of the Aug. 15 test, just 340 more seconds of testing was needed to resolve the injector issue. As it did throughout the shuttle program, NASA Stennis teams delivered on propulsion test needs, resolving the issue to clear Atlantis for launch in early December.

From 1975 to 2009, the center tested every space shuttle main flight engine and all engine upgrades, and also helped troubleshoot various performance issues. NASA Stennis now tests the RS-25 engines produced by Aerojet Rocketdyne, an L3Harris Technologies company, to support launches of NASA’s SLS (Space Launch System) rocket on Artemis missions to the Moon and beyond.

“The people were proud of the work they did, yet humble,” Vander said, looking back at the record of the shuttle era. “You had to pull some of the stuff they did out of them when you were talking with them. Once they opened up, though, there were all kind of lessons there that we are still building on today.”

For information about NASA’s Stennis Space Center, visit:

Stennis Space Center – NASA

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Aug 05, 2024

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NASA Stennis Communications
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C. Lacy Thompson
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Stennis Space Center

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LaToya Dean

NASA’s Stennis Space Center Announces New Deputy Director

NASA’s Stennis Space Center Announces New Deputy Director

Center Deputy Director Christine Powell sits for a studio portrait wearing a blue collared shirt and a pearl necklace
Christine Powell, Stennis Space Center Deputy Director
NASA/Stennis

NASA’s Stennis Space Center Director John Bailey announced Aug. 2 that longtime propulsion engineer/manager Christine Powell has been selected as deputy director of the south Mississippi propulsion site, effective Aug. 12.

“I am excited for Christine to join the NASA Stennis executive team,” Bailey said. “She has deep and proven experience and expertise in propulsion testing and management. She also has served in a range of leadership positions here at NASA Stennis, making her uniquely qualified to help us innovate and grow into the future.”

Powell currently serves as manager of NASA Rocket Propulsion Test Program Office located at NASA Stennis near Bay St. Louis, Mississippi. In that role, she oversees propulsion assets valued at more than $3.5 billion across the agency, management of the program’s operations and annual $48 million budget, and strategic planning for NASA’s key objectives.

Powell is the first woman to be selected as NASA Stennis deputy director. She will be responsible, with the center director, for coordinating all of NASA Stennis’ rocket propulsion test capabilities, as well as managing the overall site. NASA Stennis is the nation’s largest – and premier – propulsion test site, supporting test operations for both the government and commercial aerospace companies. It also serves as a regional aerospace and technology hub, home to more than 50 resident agencies, companies, organizations, and institutions.

A native of Biloxi, Mississippi, Powell began her 33-year agency career at NASA Stennis, arriving at the south Mississippi center as an intern in 1991. Following her internship, she served as an instrumentation engineer and systems integration engineer before moving into leadership positions beginning in 2004. Powell subsequently served in various roles, including as site representative to the NASA Exploration Systems Mission Directorate, lead of the NASA Stennis Systems and Test Integration Branch, chief of the NASA Stennis Systems Engineering Branch, and assistant director of the Engineering and Test Directorate. She also led the NASA Stennis Systems Engineering and Project Management Leadership Development Program and was the NASA Stennis Advocate for the Agency’s Systems and Engineering Leadership Program. Powell assumed leadership of the Rocket Propulsion Test Program Office in May 2021.

Powell has received numerous recognitions during her career, including two NASA Exceptional Achievement Medals. She is a graduate of Mississippi State University and the University of New Orleans. Powell and husband Ben, also a NASA Stennis engineer, reside in Carriere, Mississippi.

For information about NASA’s Stennis Space Center, visit:

Stennis Space Center – NASA

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Last Updated

Aug 05, 2024

Editor
NASA Stennis Communications
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C. Lacy Thompson
Location
Stennis Space Center

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LaToya Dean