ECLSS Put to the Test for Commercial Crew Missions

Engineers work inside the ECLSS Module at SpaceX headquarters in Hawthorne, California.

Credits: SpaceX

The SpaceX ECLSS module was built to provide a testing area for the environmental control system.

Credits: SpaceX

By Steven Siceloff,
NASA's Kennedy Space Center, Florida

Extensive evaluations are underway on the life support systems vital to successful flight tests as NASA prepares to return human spaceflight to the United States. One of the most intensely studied systems is called ECLSS. Short for environmental control and life support system and pronounced 'e-cliss,' the system is a complex network of machinery, pipes, tanks and sensors that work together to provide astronauts with air and other essentials during missions for NASA's Commercial Crew Program to and from the International Space Station.

"ECLSS Systems and Subsystems present unique challenges to a developer," said Brian Daniel, Crew Systems lead for the Commercial Crew Program. "Such systems must assure tight control of parameters that are important to human safety such as temperature, carbon dioxide levels, oxygen levels, and cabin pressure. The various functions of the life support system must not only be failure tolerant and robust, but also able to perform their function for the whole gamut of the mission, from countdown to splashdown."

Although tests are run by the companies building the spacecraft, NASA engineers certify the results to see that they meet requirements for safe and reliable operation in flight. NASA also offers insight to head off potential problems and helps solve other dilemmas that show up during testing. Both Boeing and SpaceX are building spacecraft, launch systems and operational networks for Commercial Crew Program missions to the International Space Station.

SpaceX built a test version of its Crew Dragon solely for evaluation of the life support system. The ECLSS Module, as the prototype spacecraft is known, was built as close to the specifications of operational spacecraft as possible, SpaceX said, so knowledge gained during its manufacture and testing could be passed on smoothly to flight versions of the spacecraft.

The complex network also provides air for the spacesuits, maintains cabin pressure and regulates all the conditions inside the spacecraft such as temperature and humidity. It can also provide fire suppression and scrubs the air of the carbon dioxide that astronauts exhale. The system relies heavily on computer software to automatically adjust conditions for the crew throughout a mission.

Astronauts will still wear launch-and-entry spacesuits while inside the spacecraft during certain phases of their missions to guard against cabin leaks or other emergencies such as a launch abort.

During an earlier phase of development, engineers were sealed inside the ECLSS Module for four hours while the ECLSS provided them a mix of oxygen and nitrogen. The conditions were closely related to those the spacecraft and astronauts will experience in flight.

"Unlike relying solely on computer simulation and analysis, the ECLSS Module allows us to test and observe Crew Dragon’s life support systems as they autonomously control a real cabin environment," said Nicholas Lima, a life support systems engineer at SpaceX. "Extensive testing of the ECLSS module has and will continue to contribute to improvements to Crew Dragon’s design and operation, which ultimately leads to greater crew safety."

Crew Dragons will carry astronauts to the International Space Station on missions for NASA's Commercial Crew Program. The spacecraft will fly into orbit atop a Falcon 9 rocket lifting off from Launch Complex 39A at NASA's Kennedy Space Center in Florida. Separately, Boeing is manufacturing a line of spacecraft called CST-100 Starliners that also will take astronauts to the station for on Commercial Crew missions. NASA has awarded contracts to both companies for flight tests and operational crew rotation missions to the station.

The ECLSS Module of the Crew Dragon includes a transparent floor panel that will not be duplicated on operational spacecraft. While the rest of the spacecraft was built as closely as possible to a flightworthy Crew Dragon, the see-through panel was placed solely for the testing module so engineers could watch the heart of the ECLSS system itself run through its work.

The ECLSS systems – along with all the others necessary for a safe spacecraft – will see their ultimate tests in orbit once NASA experts certify the spacecraft, launch vehicle and other systems for flight.

Quelle: NASA

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Update: 4.04.2017

NASA’s Jet Propulsion Laboratory is helping SpaceX get to Mars, here’s why that’s good for everyone

SpaceX’s Dragon capsule launches, Wednesday, May 6, 2015, from Cape Canaveral, Fla. SpaceX fired the mock-up capsule to test the new, super-streamlined launch escape system for astronauts. AP FILE PHOTO

NASA’s Jet Propulsion Laboratory is helping SpaceX get to Mars and the collaboration could speed up efforts to land humans on the red planet within the next two decades.

Through a Space Act Agreement, JPL and NASA are collaborating with SpaceX on landing site selection, mission navigation and mission design in exchange for access to data from the future landing.

“The SpaceX Red Dragon mission is primarily a technology demonstration to assess the ability of the Dragon spacecraft to perform entry, descent and landing (EDL) on Mars using supersonic retro-propulsion technology,” said Phil McAlister, director of NASA’s Commercial Spaceflight Development Division, in an email. “NASA’s ongoing EDL architecture studies have determined that supersonic retro-propulsion technology is required for any human mission to Mars architecture given the large landing mass requirements.”

SpaceX hopes to send the unmanned Red Dragon to Mars in the next four years, though analysts say the proposed time frame seems unlikely. The Hawthorne-based company did not respond to requests for comment.

Red Dragon is expected to weigh at least 10 times more than the Mars Curiosity Rover, the one-ton robot that holds the record for being the heaviest man-made object to land successfully on Mars. Curiosity was lowered to the surface by a crane-like spacecraft, but the technology isn’t as viable for heavier payloads.

A WIN-WIN FOR SPACE EXPLORATION

NASA is paying for their employees to work on the SpaceX mission, but the agency doesn’t have to cover any of the costs associated with building and designing a spacecraft. In the end, NASA gets the knowledge gained from such a mission without the risks, said Jason Callahan, a space policy advisor with The Planetary Society in Pasadena.

“SpaceX is leapfrogging all of the necessary learning curves and getting direct access to everyone that has already done the work,” Callahan said. “If NASA can leverage the capabilities of industry and industry can leverage the capabilities of NASA, I see this absolutely as a win-win.”

The arrangement isn’t out of the ordinary, though the destination is very new for these types of collaborations.

“It’s just an indication of how far along the industry has come in the last 40 years that they can actually be talking about doing a private mission to another planet,” Callahan said.

NASA is not sending any scientific instruments along with Red Dragon, a sign the space agency is not confident in SpaceX’s ability to land on the first try, he said. It’s not a jab at SpaceX — landing on Mars is extremely difficult.

“I think NASA is absolutely thrilled to have anyone trying to get to Mars. The more people you have working on it, the more likely you are to succeed,” Callahan said.

The collaboration aligns with President Donald Trump’s desire for NASA to work more closely with the aerospace industry to create jobs and drive innovation in space. Once NASA has access to the Red Dragon’s data, others in the industry can learn from it too.

The partnership is already well underway. JPL and SpaceX are narrowing in on a potential landing site for the Red Dragon.

The most promising Martian region is Arcadia Planitia, a smooth plain with close proximity to ice deposits, according to Matt Golombek, a JPL project scientist who has worked on Mars landing site selections since Pathfinder in the 1990s.

SpaceX wants to land near ice deposits while staying as close to the equator as possible, Golombek said. Though SpaceX’s first Red mission to Mars is an unmanned technology demonstration, the goal is to land near resources that could prove valuable for future colonization efforts.

“My suspicion is that their desire to go there is to help verify that is the location they would want to go eventually with humans,” Golombek said “I don’t think they’re thinking of this as a single mission, I think they’re thinking of this as the beginning of a bunch of missions.”

About four regions fit SpaceX’s criteria, but Arcadia is the most promising because it is mostly flat and rock free, making it an ideal landing zone for the Red Dragon.

The capsule would use supersonic retro-propulsion to slow itself down in Mars’ atmosphere and land much like the Falcon 9 does here on Earth. SpaceX on Thursday proved the viability of their re-usable Falcon 9 rocket by re-launching the rocket on a second mission. To make Mars missions cost-effective, SpaceX CEO Elon Musk said Thursday the company would need to be able to immediately refly rockets by the thousands.

NASA will use the experience from SpaceX’s mission to improve their selection of landing sites for their own missions to Mars, Golombek said.

“Every time you do a site selection, you learn things that you didn’t know before,” he said. “Every time you do it, you use that information for the next one, to your advantage.”

SpaceX approaches and solves problems in a much different way than NASA, giving both an opportunity to learn from each other.

“This is the kind of public-private partnership that I think NASA has been talking about,” Golombek said. “There is always room for improvement — just seeing a different organization go through this, that’s totally cool.”

Quelle: Pasadena Star News

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