Sojuz MS-21
| Sojuz MS-21 (Союз МС-21) | |||
| Beställare | Roskosmos | ||
|---|---|---|---|
| Modell | Sojuz-MS | ||
| Tillverkare | RKK Energia | ||
| Operatör | Roskosmos | ||
| Färdens tid | 194 dag, 19 tim, 2 min | ||
| NSSDC-ID | 2022-028A[1] | ||
| Uppskjutning | |||
| Startplats | Bajkonur 31/6 | ||
| Start | 18 mars 2022, 15:55:18 UTC[2] | ||
| Raket | Sojuz-2.1a | ||
| Landning | |||
| Landningsplats | Kazakstan | ||
| Landning | 29 september 2022, 10:57 UTC | ||
| Omloppsbana | |||
| Banlutning | 51,6° | ||
| Besättning | |||
| Besättning | Oleg Artemyev  (3)Denis Matveev (1)Sergey Korsakov (1) | ||
 | |||
| Dockning | |||
| Rymdstation | ISS | ||
| Dockning | 18 mars 2022, 19:12 UTC | ||
| Port | Pritjal, nadir | ||
| Ur dockning | 29 september 2022, 07:34 UTC | ||
| Tid dockad | 194 dag, 12 tim, 22 min | ||
| Kronologi | |||
| |||
Sojuz MS-21 (ryska: Союз МС-21) är en flygning i det ryska rymdprogrammet, till Internationella rymdstationen (ISS). Farkosten sköts upp med en Sojuz-2.1a-raket, från Kosmodromen i Bajkonur, den 18 mars 2022.[2] Några timmar efter uppskjutningen dockade farkosten med rymdstationen.
Flygningen transporterade Oleg Artemyev, Denis Matveev och Sergey Korsakov till och från rymdstationen.
Den 29 september 2022 lämnade farkosten rymdstationen. Några timmar senare återinträdde den i jordens atmosfär och landade i Kazakstan.
Besättning
| Befälhavare | Oleg Artemyev, RSA Hans tredje rymdfärd |
|---|---|
| Flygingenjör 1 | Denis Matveev, RSA Hans första rymdfärd |
| Flygingenjör 2 | Sergey Korsakov, RSA Hans första rymdfärd |
Reservbesättning
| Befälhavare | Sergey Prokopyev, RSA |
|---|---|
| Flygingenjör 1 | Anna Kikina, RSA |
| Flygingenjör 2 | Dmitry Petelin, RSA |
Referenser
Noter
- ^ ”NASA Space Science Data Coordinated Archive” (på engelska). NASA. https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=2022-028A. Läst 9 april 2022.
- ^ [a b] ”Russian space program in 2022” (på engelska). russianspaceweb.com. 9 mars 2022. http://www.russianspaceweb.com/2022.html. Läst 9 mars 2022.
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Media som används på denna webbplats
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Soyuz-A manned spacecraft concept (1963). It was to have been part of the Soyuz A-B-C circumlunar complex.
Soyuz-A manned spacecraft concept (1963). It was to have been part of the Soyuz A-B-C circumlunar complex.
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Soyuz 7K-TM (APAS) drawing.png
Apollo-Soyuz Test Project (ASTP) Soyuz. The APAS-75 docking unit is located at left.
Apollo-Soyuz Test Project (ASTP) Soyuz. The APAS-75 docking unit is located at left.
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Soyuz-TM spacecraft. Compare the antennas on the orbital module to those on Soyuz-T. Differences reflect the change from the Igla rendezvous system used on Soyuz-T to the Kurs rendezvous system used on Soyuz-TM.
Soyuz-TM spacecraft. Compare the antennas on the orbital module to those on Soyuz-T. Differences reflect the change from the Igla rendezvous system used on Soyuz-T to the Kurs rendezvous system used on Soyuz-TM.
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The Soyuz TMA-04M spacecraft is seen after being rolled out by train to the launch pad at the Baikonur Cosmodrome in Kazakhstan, May 13, 2012. The launch of the Soyuz spacecraft, with Expedition 31 Soyuz Commander Gennady Padalka, Flight Engineer Sergei Revin of Russia and NASA Flight Engineer Joe Acaba, is scheduled for 9:01 a.m., May 15 (Kazakhstan time).
The Soyuz TMA-04M spacecraft is seen after being rolled out by train to the launch pad at the Baikonur Cosmodrome in Kazakhstan, May 13, 2012. The launch of the Soyuz spacecraft, with Expedition 31 Soyuz Commander Gennady Padalka, Flight Engineer Sergei Revin of Russia and NASA Flight Engineer Joe Acaba, is scheduled for 9:01 a.m., May 15 (Kazakhstan time).
STS-121-DiscoveryEnhanced.jpg
Rotated and color enhanced version of original (ISS013-E-48788 (6 July 2006) --- The Space Shuttle Discovery approaches the International Space Station for docking but before the link-up occurred, the orbiter went through a series of inspection photos by station crew to inspect the vehicle for any damage to its Thermal Protection System. This was known as the Rendezvous Pitch Maneuver and was implemented after the Columbia Disaster in 2003. The Leonardo Multipurpose Logistics Module can be seen in the shuttle's cargo bay. Discovery docked at the station's Pressurized Mating Adapter 2 at 9:52 a.m. CDT, July 6, 2006.)
Rotated and color enhanced version of original (ISS013-E-48788 (6 July 2006) --- The Space Shuttle Discovery approaches the International Space Station for docking but before the link-up occurred, the orbiter went through a series of inspection photos by station crew to inspect the vehicle for any damage to its Thermal Protection System. This was known as the Rendezvous Pitch Maneuver and was implemented after the Columbia Disaster in 2003. The Leonardo Multipurpose Logistics Module can be seen in the shuttle's cargo bay. Discovery docked at the station's Pressurized Mating Adapter 2 at 9:52 a.m. CDT, July 6, 2006.)
Soyuz TMA-6 spacecraft.jpg
Backdropped by a blue and white Earth, this close-up view features the Soyuz TMA-6 spacecraft approaching the International Space Station (ISS). Onboard the spacecraft are cosmonaut Sergei K. Krikalev, Expedition 11 commander representing Russia's Federal Space Agency; astronaut John L. Phillips, NASA ISS science officer and flight engineer; and European Space Agency (ESA) astronaut Roberto Vittori of Italy. The Soyuz linked to the Pirs Docking Compartment at 9:20 p.m. (CDT) on April 16, 2005 as the two spacecraft flew over eastern Asia. The docking followed Friday’s launch from the Baikonur Cosmodrome in Kazakhstan.
Backdropped by a blue and white Earth, this close-up view features the Soyuz TMA-6 spacecraft approaching the International Space Station (ISS). Onboard the spacecraft are cosmonaut Sergei K. Krikalev, Expedition 11 commander representing Russia's Federal Space Agency; astronaut John L. Phillips, NASA ISS science officer and flight engineer; and European Space Agency (ESA) astronaut Roberto Vittori of Italy. The Soyuz linked to the Pirs Docking Compartment at 9:20 p.m. (CDT) on April 16, 2005 as the two spacecraft flew over eastern Asia. The docking followed Friday’s launch from the Baikonur Cosmodrome in Kazakhstan.
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SpaceX Crew Dragon (tight crop).jpg
In this illustration, a SpaceX Crew Dragon spacecraft approaches the International Space Station for docking. NASA is partnering with Boeing and SpaceX to build a new generation of human-rated spacecraft capable of taking astronauts to the station and expanding research opportunities in orbit. SpaceX's upcoming Demo-1 flight test is part of NASA’s Commercial Crew Transportation Capability contract with the goal of returning human spaceflight launch capabilities to the United States.
In this illustration, a SpaceX Crew Dragon spacecraft approaches the International Space Station for docking. NASA is partnering with Boeing and SpaceX to build a new generation of human-rated spacecraft capable of taking astronauts to the station and expanding research opportunities in orbit. SpaceX's upcoming Demo-1 flight test is part of NASA’s Commercial Crew Transportation Capability contract with the goal of returning human spaceflight launch capabilities to the United States.
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Författare/Upphovsman: Pascal (Flickr user: pasukaru76), Licens: CC0
Vostok spacecraft replica at the Technik Museum Speyer, Germany.
Författare/Upphovsman: Pascal (Flickr user: pasukaru76), Licens: CC0
Vostok spacecraft replica at the Technik Museum Speyer, Germany.
Soyuz MS-21 crew portrait.jpg
A NASA portrait of the three-member Soyuz MS-21 crew. From left are, Flight Engineer Denis Matveev; Commander Oleg Artemyev; and Flight Engineers Sergey Korsakov all of Roscosmos.
A NASA portrait of the three-member Soyuz MS-21 crew. From left are, Flight Engineer Denis Matveev; Commander Oleg Artemyev; and Flight Engineers Sergey Korsakov all of Roscosmos.