Roscosmos is scheduled to launch Progress MS-21 atop a Soyuz-2.1a rocket from the Baikonur Cosmodrome, in Kazakhstan, at 8:20 PM EDT on Oct. 25 (00:20 UTC on Oct. 26). After launching from Site 31/6 in Baikonur, Roscosmos plans to have the Progress MS-21 spacecraft conduct a standard two-day autonomous rendezvous with the International Space Station (ISS).
This comes after the then-head of Roscosmos, Dmitry Rogozin, said in June that this mission would conduct a single-orbit rendezvous. Rogozin has since been replaced as head of Roscosmos by Yury Borisov, who was previously the Deputy Prime Minister of Russia and the Deputy Minister of Defense.
Once docked to the ISS, the spacecraft will deliver more than 2.5 tons of supplies to the Expedition 68 crew aboard the Station. This includes 702 kilograms of fuel for the ISS, 420 kilograms of drinking water, fresh food, clothes, and hygiene equipment.
The launch comes after Progress MS-19 undocked from the Poisk Module on the ISS at 22:45 UTC on Oct. 23, and subsequently deorbited at 01:45 UTC on Oct. 24. The spacecraft then reentered over the southern Pacific Ocean, concluding a resupply mission that launched on Feb. 15.
The Progress MS-21 mission marks the 65th launch of a Soyuz-2.1a rocket and the eighth this year. It is also the 174th flight of a Progress spacecraft, which was originally developed and launched in 1978 to resupply the Soviet Salyut 6 space station; subsequent variants have been developed to modernize the design.
The mission comes as the ISS program is one of the few areas in which collaboration between the U.S. and Russia, along with other international partners, has continued amid the ongoing conflict in Ukraine.
Progress is the Russian counterpart to the American Cygnus spacecraft, developed by Northrop Grumman, and JAXA’s future HTV-X spacecraft. These spacecraft are designed to resupply the station and later are filled with trash and disposed of during reentry into the Earth’s atmosphere.
The Progress MS-21 spacecraft was manufactured at the RSC Energia plant in Russia. In 2021, the spacecraft was loaded onboard a train and was transported to the Baikonur Cosmodrome in Kazakhstan.
Upon arrival in Baikonur, the spacecraft was unloaded at Site 254. The complex was originally built as the orbiter processing facility for the Soviet Buran orbiter. In the post-Soviet era, Site 254 has been used to process Progress and Soyuz spacecraft as well as the Nauka module.
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Progress MS-21 was then put into temporary storage until further pre-launch processing began.
On Sept. 12, 2022, engineers and personnel from RSC Energia and the Yuzhny Space Center began pneumatic vacuum tests on the spacecraft using a vacuum chamber at Site 254. The spacecraft later passed these tests without any issues.
Later, tests on the Progress MS-21 spacecraft solar arrays were conducted, this included the deployment of the arrays. High-powered lights were then used on the arrays to make sure the photovoltaic cells on the arrays were working nominally and that the spacecraft was generating power.
The spacecraft was then loaded with its cargo destined for the crew aboard the ISS.
Progress MS-21 was then rotated horizontally and was encapsulated inside its fairing, which will protect it from the atmosphere during launch. It was then moved to the Site 31 assembly building by rail on Oct. 20.
There, it was integrated with the third stage of the Soyuz-2.1a rocket. After this, the spacecraft was assembled with the rest of the launch vehicle inside the Site 31 assembly building.
The Soyuz-2.1a rocket was then rolled out from the Site 31 assembly building and was integrated with the launch pad at Site 31/6. Site 31/6 is the only active Soyuz launch pad at Baikonur following the last flight of the Soyuz-FG from Site 1/5 in 2019 for the Soyuz MS-15 mission.
Before launch, the Soyuz-2.1a rocket is loaded with RP-1 kerosene and the two large gantry towers are lowered to the launch position.
After engine ignition, the engines on the first and second stages will spool up to full thrust and the Soyuz-2.1a rocket will lift off from Site 31/6. The vehicle will then roll to the proper launch azimuth of 51.6 degrees and pitch downrange for a two-day trip to the ISS.
Later, the first stage boosters will separate in a formation known as the Korolev Cross, leaving the second stage to continue the ascent. As the second stage nears fuel depletion, the engine on the third stage will ignite while attached to the second stage, in a sequence known as hot staging.
The third stage will then separate and insert the Progress MS-21 spacecraft into the desired orbit. From there, the spacecraft will separate and continue the journey to the ISS on its own.
(Featured image: The Soyuz-2.1a rocket for the Progress MS-21 mission is seen being integrated with the launch site at Pad 31/6. Credit: RSC Energia)
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