NASA’s cargo mission aims to deliver more than 11,000 pounds of supplies and scientific equipment to the International Space Station, enabling scientists to conduct research on future spaceflight experiments.
The mission is known as CRS-24 under NASA’s Commercial Replenishment Service program and is the second flight of the upgraded Cygnus XL vehicle, a larger version designed to carry significantly more cargo than previous versions.
What does the Cygnus XL spacecraft carry?
The spacecraft, operated by Northrop Grumman, is named SS Steven R. Nagel, who completed four Space Shuttle missions and spent 723 hours in space.
The Cygnus XL spacecraft was launched on a SpaceX Falcon 9 rocket, carrying research materials for the Expedition 74 and 75 crew members working on the International Space Station. The system’s increased capacity enables it to transport approximately 33% more cargo than earlier Cygnus spacecraft.
The payload includes scientific instruments, including advanced research instruments and biological research model organisms and systems that enable researchers to conduct extended testing in microgravity conditions.
The most important space mission experiments include an advanced Cold Atom Lab system that enables scientists to investigate core physics topics, including general relativity and dark matter, through research in ultra-cold settings.
Reportedly, researchers plan to develop therapeutic stem cells through microgravity research, which will enable them to create treatments for blood disorders and specific types of cancer.
Will NASA’s Cygnus XL return to Earth?
The spacecraft will reach its destination via NASA astronauts Jack Hathaway and Chris Williams, who will handle its arrival operations. Hathaway will control the Canadarm2 robotic arm while Williams will watch the spacecraft approach the space station.
The Cygnus XL spacecraft will remain attached to the International Space Station for a period of approximately two years. The spacecraft will act as a cargo transporter and perform additional functions as it will enable orbital changes when required.
The mission includes instruments that improve space weather prediction models as the instruments will help protect Earth systems such as GPS networks and radar infrastructure.
The Cygnus XL spacecraft follows a single-use design as it does not allow multiple flights after its initial mission. The space station will use the vehicle for its operational functions, which will be filled with station waste before controlled destruction during atmospheric re-entry.
The process of controlled disposal enables organizations to handle their growing space waste through safe deorbiting upon mission completion.
