SpaceX plans to reuse the Cargo Dragons up to five times. Since it does not support a crew, the Cargo Dragon launches without SuperDraco abort engines, seats, cockpit controls or the life support system required to sustain astronauts in space.[2][3]Dragon 2 improves onDragon 1 in several ways, including lessened refurbishment time, leading to shorter periods between flights.[4]
The new Cargo Dragon capsules under the NASA CRS Phase 2 contract splash down under parachutes in theGulf of Mexico rather than the previous recovery zone in thePacific Ocean west ofBaja California under the NASA CRS Phase 1 contract.[2][4]
NASA contracted for the CRS-22 mission from SpaceX and therefore determines the primary payload, date of launch, andorbital parameters for theCargo Dragon.[5] The total mission payload is 3,328 kg (7,337 lb).
First pair of new roll-out solar arrays, namely, 2B and 4B; using XTJ Prime space solar cells, based on design tested at ISS in 2017. They will be delivered to the station in the unpressurized trunk of the SpaceX Cargo Dragon CRS-22 spacecraft. A second pair was delivered to the ISS onCRS-26 in late 2022, followed by another pair onCRS-28 due to be delivered in June 2023.[7][8] The installation of these new solar arrays requires two spacewalks: one to prepare the worksite with a modification kit, on 16 June 2021, and another to install the new panel, on 20 June 2021.[9]
Commercial Crew Vehicle Emergency Breathing Air Assembly (CEBAA) Regulator Manifold Assembly (RMA): completing the first set of emergency air supply capability, this integrated system supports as many as five crew members for up to 1 hour during an ISS emergency ammonia leak
Zarya Kurs Electronics Unit: critical hardware for cosmonaut remote-control docking of Russian spacecraft is launching to support planned maintenance activity during 2021
Potable Water Dispenser (PWD) Filter: major filter assembly used to remove iodine from water consumed by the crew during nominal operations
Commercial off-the-shelf (COTS) Air Tanks: critical disposable air tanks to support gas resupply for routine cabin repress activities in-orbit
Iceberg: critical cold stowage capability to support expanded payload operations[6]
The new experiments arriving at the orbiting laboratory on the SpaceX CRS-22 mission supports science from human health to high-powered computing, and utilizes the space station as a proving ground for new technologies.[10]
Among the investigations arriving inside the Dragon's pressurized capsule will be a variety of research experiments and studies, including:
Develop better pharmaceuticals and therapies for treating kidney disease onEarth
Using cotton root systems to identify varieties of plants that require less water and pesticides
Test new portable ultrasound technology in microgravity (Butterfly IQ Ultrasound)[11]
Two model organism investigations:
One study will look atbobtail squidEuprymna scolopes as a model to examine the effects of spaceflight on interactions between beneficial microbes and their animal hosts.[12]
Second study will examinetardigrades' adaptation to the harsh environment of space, which could contribute to long-term problem solving for vaccine production, distribution, and storage on Earth
The vehicles docked to the ISS prior to the departure of SpaceX CRS-22.
Beginning with returning capsules or lifting bodies under the CRS-2 contract, NASA reports major hardware (failed or expended hardware for diagnostic assessment, refurbishment, repair, or no longer needed) returning from the International Space Station. The SpaceX CRS-22 mission ends on 10 July 2021, this is a two-day delay from the original undocking target of 6 July 2021 as a result ofTropical Storm/Hurricane Elsa causing weather concerns at the splashdown zones,[23] with re-entry intoatmosphere of Earth and splash down in theGulf of Mexico near the western coast ofFlorida with 2,404 kg (5,300 lb) of return cargo.
Catalytic Reactor Developmental Test Objective (DTO): developmental environmental control and life support system (ECLSS) unit returning for testing, teardown, and evaluation (TT&E) to determine the cause of failure and subsequent re-flight
Urine Processing Assembly (UPA) Distillation Assembly: critical ECLSS orbital replacement unit used for urine distillation, processing, and future use returning for TT&E and refurbishment to support future spares demand
Sabatier Main Controller: major Sabatier system hardware used in conjunction with the Oxygen Generation System (OGS) for water production needs on-orbit
Rodent Research Habitats (AEM-X): habitats used during Rodent Research missions returning for refurbishment to support future missions in early 2022
Nitrogen/Oxygen Recharge System (NORS) Recharge Tank Assembly (RTA): empty gas tanks returning for reuse to support high-pressure gas operations and activities on-orbit[6]
^"SpaceX Commercial Resupply".ISS Program Office. NASA. 1 July 2019. Retrieved27 September 2020. This article incorporates text from this source, which is in thepublic domain.
^"ISS Research Program".Glenn Research Center. NASA. 1 January 2020. Retrieved27 September 2020. This article incorporates text from this source, which is in thepublic domain.
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).
.jpg)
.jpg)
.jpg)
.jpg)
This article incorporates text from this source, which is in thepublic domain.
