| SpaceX CRS-25 | |||||
| Names List: | SpX-25 | ||||
| Mission Type: | ISS resupply | ||||
| Operator: | SpaceX | ||||
| Spacecraft Type: | Cargo Dragon | ||||
| Spacecraft Bus: | SpaceX Dragon 2 | ||||
| Manufacturer: | SpaceX | ||||
| Launch Mass: | 6,000kg (13,000 lb) | ||||
| Launch Date: | 15 July 2022, 00:44:22 UTC[1] | ||||
| Launch Rocket: | Falcon 9 Block 5 (B1067.5) | ||||
| Launch Site: | Kennedy Space Center, LC-39A | ||||
| Landing Date: | 20 August 2022, 18:53 UTC | ||||
| Landing Site: | Atlantic Ocean | ||||
| Orbit Reference: | Geocentric orbit | ||||
| Orbit Regime: | Low Earth orbit | ||||
| Orbit Inclination: | 51.66° | ||||
| Apsis: | gee | ||||
| Docking: |
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| Insignia: | SpaceX CRS-25 Patch.png | ||||
| Insignia Caption: | SpaceX CRS-25 mission patch | ||||
| Insignia Size: | 200px | ||||
| Programme: | Commercial Resupply Services | ||||
| Previous Mission: | NG-17 | ||||
| Next Mission: | NG-18 | ||||
| Programme2: | Cargo Dragon flights | ||||
| Previous Mission2: | SpaceX CRS-24 | ||||
| Next Mission2: | SpaceX CRS-26 | ||||
SpaceX CRS-25, also known as SpX-25, was a Commercial Resupply Service mission (CRS) to the International Space Station (ISS) that was launched on 15 July 2022. The mission was contracted by NASA and was flown by SpaceX using their reusable spacecraft, the . The vehicle delivered supplies to the crew aboard the ISS along with multiple pieces of equipment that will be used to conduct multiple research investigations aboard the ISS.
The launch of CRS-25 was delayed to July 11 to investigate issues in the Dragon's propulsion system detected during pre-launch testing. The previously scheduled launch date was June 10.
SpX-25 was a Commercial Resupply Service mission to the International Space Station (ISS). This flight was the 25th resupply flight of cargo sent to the International Space Station.
SpX-25 was launched on July 15, 2022 [2] (0:44 Universal Time) on a SpaceX Falcon 9 rocket from the Kennedy Space Center in Florida.[3] Dragon arrived at ISS on July 16, 2022. The SpX-25 mission lasted 36 days, 18 hours and 9 minutes, coming down off the Florida coast on August 20, 2022.[4]
According to NASA,[5] elevated levels of monomethyl hydrazine (MMH) vapor were detected in the spacecraft's propulsion system, causing the launch mission to be delayed for repairs. The entire affected area of the spacecraft was removed and investigated before proceeding with the launch.
The Cargo Dragon is a cargo spacecraft designed by SpaceX, and it is currently the only spacecraft capable of not only sending cargo into space but also returning cargo back to Earth.[6] It utilizes the Falcon 9 rocket as its launch vehicle which detaches from the Dragon once it reaches orbit. The Cargo Dragon launched with of crew supplies, tools, and scientific equipment to support NASA and ISS research.[7]
This is the third flight of the particular Cargo Dragon unit[8] to space and SpaceX's 25th commercial resupply mission.[2] The Falcon 9 was used to launch SpX-25 into space and is also partially reusable. Various parts of the Falcon 9 are recoverable and relaunched for future supply missions. The Cargo Dragon spacecraft itself is preserved by the parachute-assisted splashdown technique[9] allowing boats to retrieve and reuse parts. Recycling parts of Cargo Dragon and Falcon 9 significantly minimizes the cost to launch crafts into space and optimizes resources for future missions.
SpX-25 hauled $118 million worth of resources[8] and about of supplies.[3] [6]
Four significant studies on board SpX-25 were delivered and researched at the ISS:
As part of the SpX-25 resupply mission, NASA's Jet Propulsion Laboratory (JPL) developed Earth Surface Mineral Dust Source Investigation (EMIT) in order to track the mineral composition of dust on the arid regions of Earth. Dust can have a cooling effect or heating effect depending on its mineral composition. EMIT is a 1-year investigation that will collect images to track and generate maps of dust patterns and provide insight into the local, regional, or global effects of dust as it travels through the atmosphere.[10]
Immunosenescence is the dysfunction and change of the immune system of the elderly and it occurs as a natural part of the aging process. This process is linked to a higher propensity to infection, a higher risk of autoimmune disorders, and an increased risk of malignancies such as cancer.[11] The ISS is conducting research on how microgravity in space might negatively affect these processes to better understand immune system aging and develop treatments to protect astronauts from the possible of microgravity. Additionally, microgravity provides a medium to study immune system aging at an accelerated rate, making it a helpful tool to study immune system aging and find applications on Earth.
CubeSats are a category of research spacecraft called nano-satellites. A CubeSat allows small satellite cargo to fly on rockets headed to space. CubeSats involve small experiments that can be small and inexpensive to build and launch. Their compact functionality broadens accessibility to spacial research and technology development to students, universities, and other related initiatives.[12]
This is one of many experiment launches sent to the ISS on board SpX-25. This study will observe the process of cell-free protein production in microgravity. This study is conducted without the use of living cells and is carried out by using biosensors to detect particular target molecules present in the cell. The success of this study would create low-resource, portable, and low-cost technology for medical applications.[2]