Zvezda (Russian: Звезда, lit. 'star'), also known as the Zvezda Service Module, is a module of the International Space Station (ISS). It was the third module launched to the station, and provided all of the station's life support systems, some of which are supplemented in the US Orbital Segment (USOS), as well as living quarters for two crew members. It is the structural and functional center of the Russian Orbital Segment (ROS), which is the Russian part of the ISS. Crew assemble here to deal with emergencies on the station.[7][8][9]
Module statistics | |
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COSPAR ID | 2000-037A |
Part of | International Space Station |
Launch date | 12 July 2000, 04:56 UTC |
Launch vehicle | Proton-K |
Docked | 26 July 2000, 01:45 UTC (Zarya aft) |
Mass | 20,320 kg (44,800 lb) |
Length | 13.1 m (43 ft) |
Width | 29.7 m (97 ft) |
Diameter | 4.35 m (14.3 ft) |
Pressurised volume |
|
References: [1][2][3][4][5][6] | |
Configuration | |
On-orbit configuration of the Zvezda service module |
The module was manufactured in the USSR by Energia, with major sub-contracting work by GKNPTs Khrunichev.[10] Zvezda was launched on a Proton launch vehicle on 12 July 2000, and docked with the Zarya module on 26 July 2000 at 01:45 UTC. It is a descendant of the Salyut programme's DOS spacecraft, leading to the alternate name, DOS-8.
Origins
editThe basic structural frame of Zvezda, known as "DOS-8", was initially built in the mid-1980s to be the core of the Mir-2 space station. This means that Zvezda is similar in layout to the core module (DOS-7) of the Mir space station. It was in fact labeled as Mir-2 for quite some time in the factory. Its design lineage thus extends back to the original Salyut stations. The space frame was completed in February 1985 and major internal equipment was installed by October 1986.
The Mir-2 space station was redesigned after the failure of the Polyus orbital weapons platform core module to reach orbit. Zvezda is around 1⁄4 the size of Polyus, and has no armaments.
Design
editZvezda consists of three pressurized compartments and one unpressurized compartment. From forward to aft, the pressurized compartments are: a spherical transfer compartment, a long cylindrical main working compartment, and a short cylindrical transfer tunnel. The unpressurized assembly compartment wraps around the exterior of the transfer tunnel.[10][11] Zvezda weighs about 19,050 kg (42,000 lb)[12] and has a length of 13.1 m (43 ft). The solar panels extend 29.7 m (97 ft).
The transfer compartment (Russian: Переходный Отсек, ПхО, romanized: Perekhodniy Otsek, PKhO) has three docking ports, along with a internal hatch that can seal it off from the rest of the module, allowing it to serve as an airlock. When Zvezda was launched, its forward port docked to the aft port of the Zarya module already in orbit. The nadir (Earth-facing) port was initially intended to be used by the Universal Docking Module, it would instead be used by the Pirs module from 2001 to 2021 and the Nauka module since 2021. The zenith (space-facing) port was initially intended to be used by the Science Power Platform, it would instead be used by the Poisk module since 2009. The transfer compartment's airlock functionality was only used once during Expedition 2, when Yury Usachov and James Voss put a docking cone on the nadir port to prepare for the arrival of the Pirs module.
The working compartment (Russian: Рабочий Отсек, РО, romanized: Rabochii Otsek, RO) is where the crews work and live and makes up the bulk of the module's volume. It comprises two cylinders joined together by a conical adapter. The forward, small-diameter instrument compartment (Russian: Приборой Отсек, ПО, romanized: Priboroi Otsek, PO) contains the station command post (central computer) and related equipment, The aft large-diameter habitable compartment (Russian: Жилой Отсек, ЖО, romanized: Zhloi Otsek, ZhO) contains two sleeping quarters, a NASA-provided Treadmill with Vibration Isolation Stabilization, a kitchen equipped with a refrigerator/freezer and a table, a bicycle for exercise, a toilet and other hygiene facilities, this section also contained the Elektron system that electrolyzes condensed humidity and waste water to provide up to 5.13 kilograms (11.3 lb) per day of oxygen for breathing, while hydrogen is expelled into space. The system also creates condensed water that could be used for drinking in an emergency, but ordinarily fresh water from Earth was used.
Zvezda has 14 windows.[10] There are two 22.5 cm (8.9 in) diameter windows, one in each of the two crew sleep compartments (windows No. 1 and 2), six 22.5 cm (8.9 in) diameter windows (No. 3, 4, 5, 6, 7 and 8) on the forward Transfer Compartment earth-facing floor, a 40 cm (16 in) diameter window in the main Working Compartment (No. 9), and one 7.5 cm (3.0 in) diameter window in the aft transfer compartment (No. 10). There are a further three 22.5 cm (8.9 in) diameter windows in the forward end of the forward transfer compartment (No. 12, 13 and 14), for observing approaching craft. Window No. 11 is unaccounted for in all available sources.
Zvezda is also the home of the Lada Greenhouse, which is a test for growing plants in space.[14]
The "Assembly Compartment" holds external equipment such as thrusters, thermometers, antennas, and propellant tanks. The large movable "Lira satellite communications antenna" is located on the Zvezda service module near the aft or rear of the International Space Station on this Assembly Compartment.[15] The "Transfer Chamber" is equipped with automatic docking equipment and is used to service Soyuz and Progress spacecraft.
The Service Module has 16 small thrusters as well as two large 3,070-newton (690 lbf) S5.79 thrusters that are 2-axis mounted and can be gimballed 5°. The thrusters are pressure-fed from four tanks with a total capacity of 860 kg.[6] The oxidizer used for the propulsion system is dinitrogen tetroxide and the fuel is UDMH, the supply tanks being pressurised with nitrogen.[16] The two main engines on Zvezda can be used to raise the station's altitude. This was done on 25 April 2007. This was the first time the engines had been fired since Zvezda arrived in 2000.[17]
Elektron proved to be rather noisy for the crew and significant maintenance work, having failed several times and requiring the crew to use the Solid Fuel Oxygen Generator canisters (also called "oxygen candles", which were the cause of a fire on Mir) when it has been broken for extended amounts of time. It also contains the Vozdukh, a system which removes carbon dioxide from the air based on the use of regenerable absorbers of carbon dioxide gas.
The Zvezda module inherited a limitation from its predecessor Mir and Salyut stations rooted in a Soviet spacecraft design philosophy favoring the permanent installation of critical hardware. This approach, while providing more internal living space by concealing systems behind closed panels, contrasts with the US Orbital Segment's (USOS) strategy of using easily replaceable 41.3-inch-wide (105 cm) International Standard Payload Racks. USOS modules, connected via the Common Berthing Mechanism (CBM), have 51-inch-wide (130 cm) hatches that accommodate the movement of these racks between modules and spacecraft. Consequently, broken or unfixable hardware on Zvezda remains permanently in place. A notable example is the pre-installed Elektron oxygen-generating system, which required frequent repairs by cosmonauts due to the inability to replace it. Zvezda's 78.74-centimetre-wide (31.00 in) hatch and the lack of available replacement Elektron units hindered the replacement process. The discontinuation of Elektron production further exacerbated this issue. In October 2020, the Elektron system malfunctioned again, leading to its deactivation.[18][19][20][21][22]
Connection to the ISS
editThe rocket used for launch to the ISS carried advertising; it was emblazoned with the logo of Pizza Hut restaurants,[23][24][25] for which they are reported to have paid more than US$1 million.[26] The money helped support Khrunichev State Research and Production Space Center and the Russian advertising agencies that orchestrated the event.[27]
Management and integration of the Service Module into the International Space Station began in 1991. Structural construction was performed by RKK Energia, then handed over to the Khrunichev Design Bureau for final outfitting. Joint reviews between the Russian Space Agency (Roscosmos) and the NASA ISS Program Office monitored construction, solved language and security concerns and ensured flight readiness and crew training. Several years of delay were encountered due to funding constraints between Roscosmos and RKK Energia requiring repeated delays in First Element Launch.
On 26 July 2000, Zvezda became the third component of the ISS when it docked at the aft port of Zarya. (The U.S. Unity module had already been attached to Zarya). Later in July, the computers aboard Zarya handed over ISS commanding functions to computers on Zvezda.[28]
On 11 September 2000, two members of the STS-106 Space Shuttle crew completed final connections between Zvezda and Zarya; during a 6-hour, 14 minute EVA, astronaut Ed Lu and cosmonaut Yuri Malenchenko connected nine cables between Zvezda and Zarya, including four power cables, four video and data cables and a fiber-optic telemetry cable.[29] The next day, STS-106 crew members floated into Zvezda for the first time, at 05:20 UTC on 12 September 2000.[30]
Zvezda provided early living quarters, a life support system, a communication system (Zvezda introduced a 10 Mbit/s Ethernet network to the ISS [31]), electrical power distribution, a data processing system, a flight control system, and a propulsion system. These quarters and some, but not all, systems have since been supplemented by additional ISS components.
Launch risks
editDue to Russian financial problems, Zvezda was launched with no backup and no insurance. Due to this risk, NASA had constructed an Interim Control Module (ICM) in case it was delayed significantly or destroyed on launch.[citation needed]
Air leaks
editSince September 2019, the Zvezda module has been experiencing a worsening air leak. The source appears to be microscopic structural cracks within the small transfer tunnel, known by the Russian acronym PrK, which connects Zvezda to the aft docking port typically used by Progress cargo spacecraft. Initially, the leak rate was minimal, less than 1 pound (0.45 kg) per day, but it has steadily increased, reaching 3.7 pounds (1.7 kg) per day as of April 2024. While both NASA and Roscosmos suspect issues with welds, the exact cause of the leak remains unknown. NASA has classified the leaks as a high-risk threat to spaceflight activities, potentially leading to "catastrophic failure." However, Roscosmos says that it does not believe a catastrophic disintegration of the PrK is realistic, and has expressed confidence in their ability to monitor and manage the leak.[32][33][34]
As of November 2024[update], to mitigate the leak and the risk of a catastrophic failure the normal operating procedure is to keep the hatch leading to the PrK from Zvezda closed except when a spacecraft is being actively accessed. When the hatch leading to the PrK is opened, a hatch leading to the US Orbital Segment of the ISS is closed, which would contain a catastrophic failure and decompression to just the Russian Orbital Segment.[34]
Interior
edit-
Zvezda's space toilet
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Forward view of interior of Zvezda
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Part of the galley
Crew
edit-
Crewmembers celebrating Christmas in Zvezda
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View of one of the Zvezda crew quarters
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Cosmonaut in Zvezda, November 2000.
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Expedition 37 crew in Zvezda
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Roman Romanenko at a window in Zvezda
Exterior
edit-
Zvezda Service Module being manufactured at the Khrunichev factory
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PMA-2, Unity Node 1, PMA-1, Zarya FGB, Zvezda Service Module, and Progress M1-3.
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The location of Zvezda in the Russian Orbital Segment
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Sunrise in orbit overlooking Zvezda and its solar array
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Russian Orbital Segment windows
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Zvezda nadir docking port where Pirs and Nauka were docked
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Zenith docking port on Zvezda where Poisk had docked
Dockings
editAft port
- Progress MS-02 63P, 2016
- Progress M-29M 61P, 2015–2016
- Soyuz TMA-16M, 2015 [35]
- Georges Lemaître ATV-5, 2014–2015
- Progress M-21M, 2013–2014
- Soyuz TMA-09M, 2013[36]
- Albert Einstein ATV-4, 2013
- Progress M-17M 49P, 2012–2013
- Edoardo Amaldi ATV-3 2012
- Progress M-11M 43P, 2011
- Johannes Kepler ATV-2 2011
- Progress M-07M 39P, 2010
- Progress M-06M 38P, 2010
- Soyuz TMA-19, 2010[36]
- Soyuz TMA-17, 2010
- Progress M-04M 36P, 2010
- Soyuz TMA-16, 2009–2010
- Progress M-67 34P, 2009
- Jules Verne ATV-1 2008
- Progress M-65 30P, 2008
- Progress M-60 25P, 2007
- Progress M-58 23P, 2006–2007
- Soyuz TMA-9 2006
- Soyuz TMA-7 2006
- Progress M-56 21P, 2006
- Progress M-54 19P, 2005–2006
- Progress M-53 18P, 2005
- Progress M-52 17P, 2005
- Progress M-51 16P, 2004–2005
- Progress M-50 15P, 2004
- Progress M-49 14P, 2004
- Progress M1-11 13P, 2004
- Progress M-48 12P, 2003–2004
- Progress M-47 10P, 2003
- Progress M1-9 9P, 2002–2003
- Progress M-46 8P, 2002
- Progress M1-8 7P, 2002
- Progress M1-7 6P, 2001–2002
- Progress M-45 5P, 2001
- Progress M1-6 4P, 2001
- Progress M-44 3P, 2001
- Progress M1-3 1P, 2000 (1st)
Nadir
Zenith
- Poisk, 2009–present
Forward
- Zarya, 2000–present
References
edit- ^ This article incorporates text from this source, which is in the public domain: "The ISS to Date". NASA. 22 February 2007. Archived from the original on 3 June 2002. Retrieved 24 June 2007.
- ^ This article incorporates text from this source, which is in the public domain: "International Space Station Status Report #06-7". NASA. 17 February 2006. Archived from the original on 15 June 2006. Retrieved 24 June 2007.
- ^ This article incorporates text from this source, which is in the public domain: "NASA – Zvezda Service Module". NASA. 14 October 2006. Retrieved 10 July 2007.
- ^ "Служебный модуль 'Звезда'" ["Zvezda" service module] (in Russian). Yuri Gagarin Cosmonaut Training Center. Retrieved 11 June 2017.
- ^ "Zvezda Service Module". Khrunichev. Retrieved 11 June 2017.
- ^ a b "ISS Elements Service Module Zvezda". Spaceref. Retrieved 19 June 2020.
- ^ This article incorporates text from this source, which is in the public domain: Williams, Sunita (presenter) (3 July 2015). Departing Space Station Commander Provides Tour of Orbital Laboratory (video). NASA. Event occurs at 17.46-18.26. Archived from the original on 22 December 2021. Retrieved 1 September 2019.
- ^ Roylance, Frank D. (11 November 2000). "Space station astronauts take shelter from solar radiation". The Baltimore Sun. Retrieved 1 September 2019.
- ^ This article incorporates text from this source, which is in the public domain: Stofer, Kathryn (29 October 2013). "Tuesday/Wednesday Solar Punch". NASA. Retrieved 1 September 2019.
- ^ a b c "Service Module | RuSpace". suzymchale.com. Archived from the original on 21 September 2020. Retrieved 10 November 2020.
- ^ "Zvezda service module (SM)". www.russianspaceweb.com. Retrieved 19 November 2024.
- ^ Uri, John (27 July 2020). "Space Station 20th: Zvezda Service Module Reaches ISS". NASA. Retrieved 21 December 2024.
- ^ "Photo-iss006e45076". Spaceflight Insider. 22 June 2003. Archived from the original on 22 June 2003.
- ^ This article incorporates text from this source, which is in the public domain: "Orbiting Agriculture". NASA. 20 October 2005. Retrieved 17 October 2020.
- ^ "COSMONAUTS PERFORM LONGEST RUSSIAN SPACEWALK TO UPGRADE HIGH-GAIN ANTENNA". 3 February 2018.
- ^ Anatoly Zak (18 June 2013). "Zvezda service module (SM)". Russian Space Web. Retrieved 8 April 2016.
- ^ This article incorporates text from this source, which is in the public domain: "International Space Station Status Report: SS07-23". NASA.
- ^ Grand tour of the International Space Station with Drew and Luca | Single take, retrieved 30 July 2021
- ^ "Space station benefits from a wide opening". NBC News. Archived from the original on 2 March 2021. Retrieved 30 July 2021.
- ^ "Oxygen supply system deactivated in Russian ISS section due to malfunction". TASS. Retrieved 30 July 2021.
- ^ Zak, Anatoly. "A Rare Look at the Russian Side of the Space Station". Air & Space Magazine. Retrieved 30 July 2021.
- ^ "Oxygen problems plague space station". NBC News. Archived from the original on 21 January 2021. Retrieved 30 July 2021.
- ^ "Pizza Hut Puts Pie in the Sky with Rocket Logo". Space.com. 30 September 1999. Archived from the original on 14 January 2006. Retrieved 27 June 2006.
- ^ "Proton Set to Make Pizza Delivery to ISS". SpaceDaily. 8 July 2000. Retrieved 5 May 2013.
- ^ Geere, Duncan (2 November 2010). "The International Space Station is 10 today!". wired.co.uk. Wired. Retrieved 20 December 2014.
- ^ "THE MEDIA BUSINESS; Rocket to Carry Pizza Hut Logo". The New York Times. 1 October 1999. Retrieved 21 January 2009.
- ^ "Proton Set to Make Pizza Delivery to ISS". SpaceDaily. AFP. 8 July 2000.
- ^ This article incorporates text from this source, which is in the public domain: "STS-106". NASA.
- ^ This article incorporates text from this source, which is in the public domain: "STS-106 Report # 07". NASA.
- ^ This article incorporates text from this source, which is in the public domain: "STS-106 Report # 10". NASA.
- ^ This article incorporates text from this source, which is in the public domain: William Ivancic; Terry Bell; Dan Shell (April 2002). ISS and STS Commercial Off-The-Shelf Router Testing (PDF) (Report). NASA Technical Memo TM-2002-211310. Archived from the original (PDF) on 26 February 2009.
- ^ Berger, Eric (27 September 2024). "NASA confirms space station cracking a "highest" risk and consequence problem". Ars Technica. Retrieved 28 September 2024.
- ^ Berger, Eric (7 June 2024). "As leaks on the space station worsen, there's no clear plan to deal with them". Ars Technica. Retrieved 28 September 2024.
- ^ a b Clark, Stephen (18 November 2024). "The ISS has been leaking air for 5 years, and engineers still don't know why". Ars Technica. Retrieved 18 November 2024.
- ^ This article incorporates text from this source, which is in the public domain: "Soyuz Relocation". NASA. Retrieved 29 August 2015.
- ^ a b Wright, Jerry (13 April 2015). "Soyuz Move Sets Stage for Arrival of New Crew". NASA.
External links
edit- Zvezda @ RuSpace Archived 21 September 2020 at the Wayback Machine (includes diagrams)