This article is about the Chinese permanent modular space station. For preceding experimental space stations also named Tiangong, seeTiangong program.
Tiangong space station
A rendering of the station with theTianhe at centre of picture, aTianzhou on its aft port, theWentian on its starboard port to the left, theMengtian on its portside port to the right and twoShenzhou spacecraft, sharing its multi-docking hub
Tiangong (Chinese:天宫;pinyin:Tiāngōng;lit. 'Heavenly Palace'),[5][6] officially theTiangong space station[7] (Chinese:天宫空间站;pinyin:Tiāngōng kōngjiānzhàn), is a permanently crewedspace station constructed byChina and operated byChina Manned Space Agency.[8] Tiangong is a modular design, with modules docked together while inlow Earth orbit, between 340 and 450 km (210 and 280 mi) above the surface. It is China's first long-term space station, part of theTiangong program and the core of the "Third Step" of theChina Manned Space Program; it has a pressurised volume of 340 m3 (12,000 cu ft), slightly over one third the size of theInternational Space Station. The space station aims to provide opportunities for space-based experiments and a platform for building capacity for scientific and technological innovation.[9]
The construction of the station is based on the experience gained from its precursors,Tiangong-1 andTiangong-2.[10][11][12] The first module, theTianhe ("Harmony of the Heavens") core module, was launched on 29 April 2021.[5][6] This was followed by multiple crewed and uncrewed missions and the addition of twolaboratory cabin modules. The first,Wentian ("Quest for the Heavens"), launched on 24 July 2022; the second,Mengtian ("Dreaming of the Heavens"), launched on 31 October 2022.[10]
The names used in the space program, previously all chosen from the revolutionary history of the People's Republic, have been replaced with mystical-religious ones. Thus, the space capsuleDivine Vessel (神舟;Shénzhōu),[13] spaceplaneDivine Dragon (神龙;Shénlóng),[14] land-based high-power laserDivine Light (神光;Shénguāng),[15] and supercomputerDivine Might (神威;Shénwēi).[16]
These poetic[17] names continue as thefirst,second,third,fourth,fifth and future probes of theChinese Lunar Exploration Program are calledChang'e – after the Moon goddess. The name "Tiangong" means "heavenly palace". Across China, the launch of Tiangong-1 was reported to have inspired a variety of feelings, including love poetry. The rendezvous of the space vehicles has been compared to the reunion ofthe cowherd and the weaver girl.[18]
"Considering past achievements and the bright future, we feel the manned space programme should have a more vivid symbol, and that the future space station should carry a resounding and encouraging name. We now feel that the public should be involved in the names and symbols, as this major project will enhance national prestige and strengthen the national sense of cohesion and pride."[17][19][20]
On 31 October 2013, CMSA announced the new names for the whole space station program:[11]
The precursor space labs would be calledTiangong (天宫;Tiān Gōng; 'Sky Palace'), codeTG.Tiangong-1 andTiangong-2 were launched respectively in 2011 and 2016.
The large modular space station would be calledTiangong as well, without number.[7]
Thecargo transport spacecraft would be calledTianzhou (天舟;Tiān Zhōu; 'Heavenly Ship'), codeTZ. The firstTianzhou mission successfully launched and deorbited in 2017. The first mission to the space station,Tianzhou 2, flew on 29 May 2021. Subsequently,Tianzhou 3,Tianzhou 4 andTianzhou 5 were launched respectively on 20 September 2021, 9 May 2022 and 12 November 2022.
The Modular Space StationCore Module would be calledTianhe (天和;Tiān Hé; 'Harmony of the Heavens'), codeTH.[21]Tianhe was successfully launched on 29 April 2021.[22][23][24]
The Modular Space StationExperiment Module I would be calledWentian (问天;Wèn Tiān; 'Quest for the Heavens[25]'), codeWT.[21]Wentian was successfully launched on 24 July 2022.[22][26]
The Modular Space StationExperiment Module II would be calledMengtian (梦天;Mèng Tiān; 'Dreaming of the Heavens[25]'), codeMT.[21]Mengtian was successfully launched on 31 October 2022.[22][27]
The separatespace telescope module would be calledXuntian (巡天;Xún Tiān; 'Touring the Heavens'), codeXT (telescope), receiving the previously intended name for the Experiment Module II. Launch is planned for 2026.[28]
According to CMSA, which operates the space station, the purpose and mission of Tiangong is to develop and gain experience inspacecraft rendezvous technology, permanent human operations in orbit, long-term autonomous spaceflight of the space station, regenerative life support technology and autonomous cargo and fuel supply technology. It will also serve the platform for the next-generation orbit transportation vehicles, scientific and practical applications at large-scale in orbit, and technology for futuredeep space exploration.[29][30][31]
CMSA also encourages commercial activities led by the private sector and hopes their involvement could bring cost-effective aerospace innovations.[32]Space tourism aboard the station is also being considered.[33]
Basic space experiment cabinet of Tiangong space station
The space station will have 23 experimental racks in an enclosed, pressurised environment. There will also be platforms for exposed experiments; 22 and 30 on the Wentian and Mengtian laboratory modules, respectively.[34] Over 1,000 experiments are tentatively approved by CMSA,[35] and scheduled to be conducted on the space station.[36]
The space station features space lectures andpopular science experiments to educate, motivate and inspire the younger Chinese generation and world audience in science and technology. Each lecture is concluded with a question-and-answer session with school children's questions from classrooms across China.[38] The first and second Tiangong space lesson was conducted in December 2021 and March 2022, as a part of theShenzhou 13 mission.[39][40] This tradition continued with theShenzhou 14.[41]
The CSSARC is the Amateur Radio payload for the Chinese Space Station, proposed by the Chinese Radio Amateurs Club (CRAC), Aerospace System Engineering Research Institute of Shanghai (ASES) andHarbin Institute of Technology (HIT). The payload will provide resources for radio amateurs worldwide to contact onboard astronauts or communicate with each other, aim to inspire students to take interests and careers in science, technology, engineering, and math, and encourage more people to get interested inamateur radio.[42][43]
The first phase of the payload is capable of providing the following functions utilising the VHF/UHF amateur radio band:
T-shaped early concept of the Chinese large modular space station
The space station is a third-generation modularspace station. First-generation space stations, such as earlySalyut,Almaz, andSkylab, were single-piece stations and not designed for resupply. Second generationSalyut 6 and 7, andTiangong 1 and 2 stations, are designed for mid-mission resupply. Third-generation stations, such asMir and theInternational Space Station, are modular space stations, assembled in orbit from pieces launched separately. Modular design can greatly improve reliability, reduce costs, shorten development cycles, and meet diversified task requirements.[10]
Rear view of Tiangong Space Station, taken byTianzhou cargo spacecraft ahead of docking.A mockup of theTiangong displayed in Hong Kong in 2022
The initial target configuration for the end of 2022 consisted of three modules. Previous plans suggested expanding to six modules by duplicating the initial three,[44] but as of 2023, planning has shifted to adding a single multi-functional module with six docking ports instead.[45] In October 2023, China announced revised plans to expand the station to six modules starting in 2027.[46]
TheTianhe Core Cabin Module (CCM) provides life support and living quarters for three crew members and provides guidance, navigation, andorientation control for the station. The module also provides the station's power, propulsion, and life support systems. The module consists of three sections: living quarters, a service section, and a docking hub. The living quarters will contain a kitchen and toilet, fire control equipment, atmospheric processing and control equipment, computers, scientific apparatus, communications equipment to send and receive communications via ground control inBeijing, and other equipment.
In 2018 a full-scale mockup of CCM was publicly presented atChina International Aviation & Aerospace Exhibition in Zhuhai.[47] The video from CMSA revealed that two of these core modules have been built. Artist impressions have also depicted the two core modules docked together to enlarge the overall station.
The first of twoLaboratory Cabin Modules (LCM),Wentian, provides additional avionics, propulsion, and life support systems as backup functions for the CCM.[48] TheWentian is also fitted with an independent airlock cabin to serve as the main entry-exit point forextravehicular activities (EVA), replacing theTianhe docking hub.[49] For the scientific payload, the LCM is equipped with multiple internal science racks and 22 payload adapters on the exterior for various types of experiments.[50] Aside from scientific equipment, the module features three additional living quarters designed for short-term stay, which will be used during crew rotation.[51]Wentian was launched and docked with theTianhe on 24 July 2022.[52]
The second LCM,Mengtian, was launched on 31 October 2022. TheMengtian module is equipped with expanded in-orbit experiment capacity.[53] The module is divided into multiple sections, including the pressurised crew working compartment, the unpressurised cargo section, the cargo airlock/on-orbit release mechanism, as well as the control module section featuring external experiment adapters, a communication antenna, and two solar arrays.[27] In total, it carries 13 experimental racks and 37 external payload adapters.[54] The cargo airlock is specifically designed for conveying payloads from inside the station to the exterior.[54]
Both LCMs provide a pressurised environment for researchers to conduct science experiments in freefall ormicrogravity which could not be conducted on Earth for more than a few minutes. Experiments can also be placed on the outside of the modules for exposure to thespace environment,cosmic rays, vacuum, andsolar winds.[55] Overall,Wentian prioritiseslife science, while theMengtian focus onmicrogravity experiments.[54]
The axial port of the LCMs is fitted with rendezvous equipment for docking at the axial port of the CCM. A mechanical arm called the indexing robotic arm, externally resembling theLyappa arm used on the Mir space station, movesWentian LCM to the starboard side, and theMengtian LCM module to a port-side port of the CCM.[56] The Indexing robot arms differentiate from the Lyappa arm as they are used when docking is needed in the same plane, while the Lyappa arm controls the pitch of the spacecraft to re-dock it at a different plane. TheChinarm on theTianhe module can be used as a backup for docking relocation.[57][58]
First lab module, also serves as backup to core module's station control and management functions. Equipped with an EVA airlock and a 5-metre-long (16 ft) robotic arm.[60]
Real-time communications, including live audio and video links, are provided by theTianlian II series of data relay satellites. Aconstellation of three satellites was launched intogeostationary orbits, providing communication and data support for the station.[65]
Tiangong is fitted with theChinese Docking Mechanism used by Shenzhou spacecraft and previousTiangong prototypes. The Chinese docking mechanism is based on the RussianAPAS-89/APAS-95 system. Despite NASA describing it as a "clone" to APAS,[66] there have been contradictory claims on the compatibility of the Chinese system with both current and future docking mechanisms on the ISS, which are also based on APAS.[67][68][69] It has a circular transfer passage that has a diameter of 800 mm (31 in).[70][71] The androgynous variant has a mass of 310 kg and the non-androgynous variant has a mass of 200 kg.[72]
The Chinese Docking Mechanism was used for the first time onShenzhou 8 andTiangong 1 space stations and will be used on future Chinese space stations and with future CMSA cargo resupply vehicles.[73][67]
Electrical power is provided by two steerablesolar power arrays on each module, which usegallium arsenidephotovoltaic cells to convert sunlight into electricity. Energy is stored to power the station when it passes into the Earth's shadow. Resupply spacecraft will replenish fuel for the station's propulsion engines for station keeping, to counter the effects of atmospheric drag. The solar arrays are designed to last up to 15 years.[74]
The Tiangong space station is fitted with conventional chemical propulsion andion thrusters to adjust and maintain the station's orbit. FourHall-effect thrusters are mounted on the hull of theTianhe core module.[75] The development of the Hall-effect thrusters is considered a sensitive topic in China, with scientists "working to improve the technology without attracting attention". Hall-effect thrusters are created with crewed mission safety in mind with an effort to prevent erosion and damage caused by the accelerated ion particles.[76]
A magnetic field and specially designed ceramic shield were created to repel damaging particles and maintain the integrity of the thrusters. According to a report by theChinese Academy of Sciences, the ion drive used on Tiangong ran continuously for 8,240 hours without a glitch during the testing phase, indicating its suitability for Tiangong's designated 15-year lifespan.[76] These are the world's first Hall thrusters to be used on a human-rated mission.[77][78]
The Tiangong station features five robotic arms. The longest one is the 10-meter-long,ISS Canadian-style SSRMS robotic arm, nicknamedChinarm, mounted on theTianhe core module.[79]
TheWentian module features a smaller, 5 m (16 ft) long SSRMS robotic arm that is 5 times more accurate in positioning than theChinarm. TheWentian arm is primarily used to transfer extravehicular experiments and other hardware outside the station during astronaut EVAs. A dual-arm connector is installed on theChinarm, providing it the capability to link with the Wentian robotic arm, extending its reach and weight-carrying limits.[80]
TheMengtian module carries a payload release mechanism,[54] installed to assist in cargo transfer.[27] The robotic arm can retrieve experiments from the cargo airlock, then install them onto the external adapters fitted on the module exterior.[81] It can also be used to launchmicrosatellites.[27][82]
Planned independent Chinesespace station telescope currently under development. It will feature a 2-metre (6.6 ft; 79 in) diameterprimary mirror and is expected to have a field of view 300–350 times larger than theHubble Space Telescope. This will allow the telescope to image up to 40 percent of the sky using its 2.5gigapixel camera over ten years. It will co-orbit with the space station in a slightly different orbital phase, which will allow for periodic docking with the station for maintenance.[85]
In 2011, it was announced that the future space station was planned to be assembled from 2020 to 2022.[86] By 2013, the space station's core module was planned to be launched earlier, in 2018, followed by the first laboratory module in 2020, and a second in 2022.[87] By 2018, it was reported that this had slipped to 2020–2023.[23][88] In February 2020, a total of 11 launches were planned for the whole construction phase, beginning in 2021.[89][90] In 2021, it was reported China National Space Administration planned to complete the construction of the space station in 2022.[91]
Tiangong modules are self-contained and pre-assembled, in contrast to theUS Orbital Segment of the ISS, which required spacewalking to interconnect cables, piping, and structural elements manually. The assembly method of the station can be compared with the Soviet-Russian Mir space station and the Russian orbital segment of the International Space Station, making China the second nation to develop and use automatic rendezvous and docking for modular space station construction. The technologies in the construction are derived from decades of Chinese crewed spaceflight experiences, including those gained fromTiangong-1 andTiangong-2 prototypes,[92] as well as the purchase of aerospace technology from Russia in the early 1990s.[93] A representative of the Chinese crewed space program stated that around 2000, China and Russia were engaged in technological exchanges regarding the development of a docking mechanism used for space stations.[94] Deputy Chief Designer, Huang Weifen, stated that near the end of 2009,China Manned Space Agency (CMSA) began to train astronauts on how to dock spacecraft.[95]
In accordance to the plan, by the end of 2022, the fully assembled Tiangong space station had three 22 metric-ton modules in a basic T-shape.[96][97] Because of the modular design, the Tiangong space station can be further expanded into six modules possibly enabling more astronaut participation in the future.[98]
The construction of the Chinese Space Station officially began in April 2021. The planned 11 missions include three module launches, four crewed missions, and four autonomous cargo flights.[99] On 29 April 2021, the first component of the station,Tianhe core module, was launched to the orbit aboard theLong March 5B rocket fromWenchang Spacecraft Launch Site.[100] On 29 May 2021,Tianzhou 2 autonomous cargo spacecraft was launched to theTianhe core module in preparation for theShenzhou 12 crew, who will be responsible for testingTianhe's various systems and preparing for future operations.[101] On 17 June 2021, Shenzhou 12 team docked with the space station, marking them the first visitors to the Tiangong station.[102] The first crew mission began the examination of the core module and verification of key technologies.[103] On 4 July 2021,Liu Boming andTang Hongbo began their first spacewalk in upgraded ChineseFeitian spacesuits, outfitting the space stations withextravehicular activity (EVA) equipment, such as foot restraints and the standing platform forChinarm. Shenzhou 12 commander Nie Haisheng stayed inside the station and tested the robotic arm movements.[104] Liu Boming andNie Haisheng completed the second spacewalk on 20 August 2021 and installed various devices outside of the station, including a thermal control system, a panoramic camera, and other equipment.[105] On 16 September 2021, the Shenzhou 12 crew entered the returning spacecraft and undocked fromTianhe. Before leaving the orbit, the crew performed variousradial rendezvous (R-Bar) maneuvers to circumnavigate around the space station. They tested the guidance system and recorded lighting conditions while approaching theTianhe from different angles.[106][107] The crew landed in the Gobi Desert ofInner Mongolia on the same day.[108]Tianzhou 3 cargo spacecraft, which arrived at the launch facility a month earlier,[109] was immediately rolled out onto the launch pad for the next supply mission.[107]
On 20 September 2021,Tianzhou 3 autonomous freighter was launched from the Wenchang Satellite Launch Center in preparation for the arrival ofShenzhou 13 crew.[110] The Shenzhou 13 was the first six-month mission on the Tiangong station, whereas previous Shenzhou 12 was only three months in length.[111] The Shenzhou 13 docked with the space station on 15 October 2021.[112][113][114] Missions for the Shenzhou 13 crew included orbit experiments, spacewalks, and for the station's future expansion.[115] On 7 November 2021, Shenzhou 13 crewZhai Zhigang andWang Yaping conducted the first spacewalks to test the next-generation EVA suit and roboticChinarm, making Wang Yaping China's first female spacewalker.[116] One of the missions in the 6.5-hour extravehicular activity was to install a dual-arm connector to the 10-meter-long robotic arm. The connector can provide the capability forChinarm to extend in length with another 5-meter-long segment mounted on theWentian module that will arrive in 2022. According to Gao Shen of theChina Academy of Space Technology (CAST), the combined 15-meterChinarm will have greater range and weight-carrying capacity.[80] During spacewalks, various preparations were performed on the robotic arm for manipulation and construction of future modules.[80]
On 26 December 2021, Shenzhou 13 crewZhai Zhigang andYe Guangfu conducted the second spacewalk to install a panoramic camera, which will be used for space station monitoring and robotic arm observation.[117] They also practiced various movements with the help ofChinarm controlled by the monitoring astronaut Wang Yaping inside the station.[118] During the construction phase of the station in 2021, according to documents filed byChina Manned Space Agency (CMSA) with theUnited Nations Office for Outer Space Affairs and reported by Reuters, the station had two "close encounters" withSpaceX'sStarlink satellites on 1 July and 21 October, with the station conducting evasive adjustment maneuvers.[119][120][121] On 5 January 2022, Shenzhou 13 team used the 10-meter longChinarm to relocate theTianzhou 2 supply ship by 20 degrees before returning it to the original location. This maneuver was conducted to practice the procedures, equipment, and backup operation system needed for future module assembly.[79] On 13 January, the crew tested the emergency docking system by controlling the cargo spacecraft manually.[122] In March 2022, Shenzhou 13 crew began the preparation to undock from the space station.[123] The crew landed in China on 16 April 2022, after staying 182 days in the low-Earth orbit.[124][125] Soon afterward, China launchedTianzhou 4 cargo spacecraft in preparation for the next crewed mission in May.[126] The automated freighter docked with the space station on 9 May 2022, and carried vital maintenance equipment and a refrigerator for scientific experiment.[127]
AstronautZhai Zhigang ofShenzhou 13 crew performing spacewalk on Tiangong Space Station on 7 November 2021.AstronautFei Junlong ofShenzhou 15 crew performing spacewalk on Tiangong Space Station on 9 February 2023.A Long March 5B launching theMengtian lab cabin module in October 2022
Beginning with theShenzhou 14, China officially started the final construction phase for the space station, with three astronauts tasked to oversee the arrival of two labotorary modules in 2022.[128] On 5 June 2022, Shenzhou 14 crew arrived at the space station,[129] docking at the Earth-facing nadir port.[130] Shenzhou 14 crew will begin the assembly for bothWentian andMengtian modules, arriving in second half of the year.[130] The crew installed carbon dioxide reduction system for the space station, tested Feitian spacesuits, and debuggedTianhe core module.[131] On 19 July 2022,Tianzhou 3 was undocked from the station, making way for the arrival of theWentian module.[132] On 24 July 2022, theWentian laboratory module was launched from theWenchang space center and rendezvoused with theTianhe core module on the same day.[133][48]Wentian is the second module for the Tiangong space station, and the first laboratory cabin module (LCM). The module is equipped with anairlock cabin, which will become the primary entry-exit point for future EVAs.[49] The module also feature backup avionics, propulsion, and life support systems, improving Tiangong space station'soperational redundancy.[48][134] On 2 September 2022, the crew memberChen Dong andLiu Yang performed their first spacewalk from the newWentian airlock, installing and adjusting various external equipment as well as testing emergency return procedures.[135][50] On 17 September 2022, astronauts Chen Dong andCai Xuzhe performed the second spacewalk, installing external pumps and verified emergency rescue capability.[136] On 30 September 2022, all crew members worked in coordination, moving theWentian module from the forward port to the starboard lateral docking port, which is its planned permanent location on 30 September 2022 at 04:44 UTC.[137] The relocation process was largely automated with the assistance of the Indexing robotic arm.[138] In October 2022, CMSA prepared to launch the third and final module,Mengtian, to complete the construction for the Tiangong space station.[98][139]
On 31 October 2022,Mengtian module was launched from the Wenchang space center,[140] and docked with the station 13 hours later.[55][141][142] The assembly of theMengtian marks the final step in the 1.5-year construction process.[143][144][145] According toChina Academy of Space Technology, the rendezvous and docking process forMengtian was conducted expeditiously, as then L-shaped Tiangong station consumed large amount of energy to stay oriented in its asymmetrical arrangement.[81] On 3 November 2022,Mengtian was relocated autonomously from the forward docking port to port-side lateral docking port via Indexing robotic arm, and successfully berthed at its planned permanent location withTianhe module at 01:32UTC (9:32BJT), forming a T-shape.[146] Subsequently, CMSA announced the construction of the Tiangong space station is officially complete.[147] Designer ofMengtian module, Li Guangxing, explained the space station was maneuvered to a special position, utilizing the Earth's gravity to help stabilize the docking process.[147] At 07:12UTC, TheShenzhou 14 crew entered theMengtian module.[147][148] On 10 November 2022,Tianzhou 4 cargo spacecraft undocked from the Tiangong, andTianzhou 5 was prepared to launch on the same day.[149] Tianzhou 5 was launched on 12 November 2022, carrying supplies, experiments, and microsatellites to the space station.[150][151] It also contained gifts for China's first crew handover ceremony in orbit.[152] The completed station had extra capacity for expanded crew activities and living space for six, allowing crew rotation.[153] On 29 November 2022, theShenzhou 15 crewFei Junlong,Deng Qingming, andZhang Lu[154] was launched to the space station.[155] The crew spent one week together for handover and verification for sustainable six-man operations.[156][157] With the crew rotation operation, China commenced its permanent space presence.[158][159][160]
On 17 December 2024,Cai Xuzhe broke the record withSong Lingdong for the longest spacewalk in human history, of 9 hours and 6 minutes, with the assistance of the space station's robotic arms and ground-based scientific personnel, completed tasks such as the installation of space debris protection devices, inspection, and maintenance of external equipment and facilities.[161]
Possible future expansion of Tiangong space station
According to CMSA, the Tiangong space station is expected to be expanded from three to six modules,[140][162] with improved versions of theTianhe,Wentian, andMengtian modules.[162]
According to Wang Xiang, commander of the space station system at theChina Academy of Space Technology (CAST), the potential next phase would be adding a new core module. "Following our current design, we can continue to launch an extension module to dock with the forward section of the space station, and the extension module can carry a new hub for docking with the subsequent space vehicles," Wang toldCCTV.[163][164] In October 2023, CAST presented new plan on the 74thInternational Astronautical Congress to expand the Tiangong to 180 tons, six-module assembly, with at least 15 years of operational life.[165] A multi-functional module with six docking ports was planned as the foundation for the expansion. New sections included3D printers, robots, improved robotic arms, and space debris observation, detection, and warning systems.[166]
TheXuntian space telescope module is planned to launch in 2026.[167]
China's incentive to build its own space station was amplified after US Congress prohibitedNASA from any direct engagement & cooperation withCNSA thus effectively prohibiting any Chinese participation in theInternational Space Station (ISS) in 2011,[168] although China, Russia and Europe mutually vowed intentions to maintain a cooperative and multilateral approach in space.[169] Between 2007 and 2011, the space agencies of Russia, Europe, and China carried out the ground-based preparations in theMars500 project, which complement theISS-based preparations for ahuman mission to Mars.[170]
Tiangong has involved cooperation with France, Sweden, and Russia.[171]
Cooperation in the field of crewed space flight between theChina Manned Space Agency (CMSA, formerly known as CMSEO) and theItalian Space Agency (ASI) was examined in 2011, and participation in the development of China crewed space stations and cooperation with China in the fields such as visiting astronauts, and scientific research was discussed.[172]
In November 2011, the China National Space Administration and the Italian Space Agency signed an initial cooperative agreement, covering areas of collaboration within space transportation, telecommunications, Earth observation, and so on.[173]
On 22 February 2017, theCMSA and theItalian Space Agency (ASI) signed an agreement to cooperate on long-term human spaceflight activities.[174] The agreement holds importance due to Italy's leading position in the field of human spaceflight with regards to the creation and exploitation of the International Space Station (Node 2, Node 3, Columbus, Cupola, Leonardo, Raffaello, Donatello, PMM, etc.) and it signified Italy's increased anticipation in China's developing space station programme.[175] TheEuropean Space Agency (ESA) started human spaceflight training with CMSA in 2017, with the ultimate goal of sending ESA astronauts to Tiangong.[176] To prepare for the future missions, selected ESA astronauts lived together with their Chinese counterparts and engaged in training sessions such as splashes-down survival, language learning, and spacecraft operations.[177][178] However, in January 2023, ESA announced that the agency will not send its astronauts to China's space station due to political and financial reasons.[179]
In 2019, an Italian experiment High Energy cosmic-Radiation Detection (HERD) was scheduled on board the Chinese station.[180]
In 2019, international experiments were selected by theCMSA and theUnited Nations Office for Outer Space Affairs (UNOOSA) in a UN session. 42 applications were submitted, and 9 experiments were accepted.[181] Some of the experiments are a continuation to the ones on Tiangong-2 such as POLAR-2, an experiment of researchingGamma-ray burstpolarimetry, proposed bySwitzerland,Poland,Germany, andChina.[182] Canadian Professor Dr. Tricia Larose of theUniversity of Oslo has been developing a cutting-edge cancer research experiment for the station.[183] The 31-day experiment is to research whether weightlessness has a positive effect in stopping cancer growth.[184] The High Energy Cosmic Ray Detector project is conducted by a 200 scientists team from Europe, mainland China,Hong Kong, andTaiwan.[147] Under UNOOSA framework, Tiangong is also expected to host experiments fromBelgium,France, Germany,India, Italy,Japan,Mexico, theNetherlands,Peru, Russia,Saudi Arabia, andSpain,[182] involving 23 institutions and 17 countries.[35][185]
Regarding the participation of foreign astronauts,CMSA has repeatedly communicated its support for such proposals. During the press conference of theShenzhou 12 mission,Zhou Jianping, the chief designer ofChina Manned Space Program, explained that multiple countries had expressed their wishes to participate. He told journalists that the future participation of foreign astronauts "will be guaranteed".[186] Ji Qiming, an assistant director at CMSA, told reporters that he believes:
"In the near future, after the completion of the Chinese space station, we will see Chinese and foreign astronauts fly and work together."[187]
In 2025, China andPakistan signed an agreement to send the first foreign astronaut to the Tiangong Space Station.[189] In an October 2025 press conference, a CMAS spokesperson stated that the Pakistani astronaut would carry out a "short-duration flight mission as a payload expert", with media speculation suggesting this would occur as part of theShenzhou 23 mission in late 2026.[190]
AstronautNie Haisheng doing running exercise on Tiangong Space StationInterior ofWentian lab module at Tiangong Space Station
Astronauts on the Tiangong station followChina Standard Time (CST) for their daily schedule. The crew often wakes up around 7:00 and begins their daily conference withMission Control in Beijing before starting work at 08:00 (00:00UTC). The crew will then follow their planned schedule until 21:00, after which they report their work process to Mission Control. At 13:30, astronauts enter their living quarters to take anap, which typically takes an hour. The crew also has multiple breaks for eating and resting.[191] The Tiangong station features a lighting scene function to simulate lighting conditions on Earth, including daylight, dusk, and night. As the station experiences 16 sunrises and sunsets per day inlow Earth orbit, this function helps to avoid disruption to the crew'scircadian rhythm.[191][192]
The Tiangong space station is fitted withhome automation functions, including remote-controlled appliances and a logistics management system.[192] The crew can use theirtablet computers to identify, locate, and organize items inside the station, as all items in the station are marked byQR codes. This will help ensure an orderly environment as more cargo arrives.[192] Inter-device communication inside the station is completely wireless via the Wi-Fi network to avoid acord mess.[192]
Meals consisting of 120 different types of food, selected based on astronauts' preferences, are stored aboard. Staples including shredded pork in garlic sauce,kung pao chicken, black pepper beef,yuxiang shredded pork, pickled cabbage, and beverages, including a variety of teas and juices, are resupplied by trips of theTianzhou-class roboticcargo spacecraft. Fresh fruit and vegetables are stored in coolers. Huang Weifen, the chief astronaut trainer of CMSA, explains that most of the food is prepared to be solid, boneless, and in small pieces. Condiments such as pork sauce and Sichuan pepper sauce are used to compensate for the changes in the sense oftaste in microgravity. The station is equipped with a small kitchen table for food preparation, a refrigerator, a water dispenser, and the first-evermicrowave oven in spaceflight[191][193][194] so that astronauts can "always have hot food whenever they need."[195][196] Following the astronauts' feedback, larger supplies of vegetables have been included sinceTianzhou 4, increasing the variety of vegetable to 32.[197] Later,Shenzhou 21 delivered anair fryer to the Tiangong, which features built-in air purification and residue collector to allow safe usage inside microgravity. The new oven allowsbaking andgrilling of food, instead of simple reheating. Chinese astronauts cookedbarbecuechicken wings and grilledsteak with it.[198][199]
The station's core module,Tianhe, provides the living quarters for the crew members,[200][201] consisting of three separate sleeping berths,[202] aspace toilet, shower facility, and gym equipment.[203] Each berth features one small circular window,[204] a headphone set, ventilation, and other amenities.[205]Neuromuscular electrical stimulation is used to prevent muscle atrophy. The noise level in the working area is set at 58 decibels, while in the sleeping area, the noise is kept at 49decibels.[206][207] The ventilation system provides air circulation to the crew, with 0.08 m/s wind speed for the working areas and 0.05 m/s for the sleeping stations.[192] Three additional living quarters for short-term stay are located in theWentian laboratory module.[51]
Since 5 June 2022, Tiangong has been a permanently crewed station, typically staffed with a crew of three but capable of supporting up to six people.[8][1] After the completion of the station in November 2022, it housed a crew of 6 for the first time for 5 days during the crew rotation fromShenzhou 14 toShenzhou 15 in December 2022.[1] Operations are controlled from theBeijing Aerospace Flight Control Center in China. To guarantee the safety of astronauts on board, aLong March 2F/G with aShenzhou spacecraft will always be on standby for an emergency rescue mission.[208]
First gathering of two Chinese astronaut crews (Shenzhou 14 and 15) on Tiangong on November 30, 2022.
The first crewed mission to Tiangong,Shenzhou 12, lasted 90 days. Starting withShenzhou 13, subsequent missions have had a normal duration of about 180 days.[209]
TheShenzhou 20 crew was expected to return to Earth in early November 2025 after the arrival of theShenzhou 21 crew. However, due to suspectedspace debris damage, the return of the Shenzhou 20 spacecraft has been delayed indefinitely, and the Shenzhou 20 crew returned to Earth on November 14 using the Shenzhou 21 spacecraft instead.[210]
CMSA has announced the testing of theMengzhou spacecraft to eventually replace Shenzhou. It is designed to carry astronauts to Tiangong and offer the capability for lunar exploration. China's next-generation crew carrier is reusable with a detachable heat shield built to handle higher-temperature returns through Earth's atmosphere. According to CMSA officials, the new capsule design is larger than the Shenzhou. Mengzhou is capable of carrying astronauts to theMoon, and can accommodate up to six to seven crew members at a time, three more astronauts than Shenzhou.[211] The new crewed spacecraft has a cargo section that allows astronauts to bring cargo back to Earth, whereas the Tianzhou cargo resupply spacecraft is not designed to bring any cargo back to Earth.[211]
Tianzhou (Heavenly Vessel), a modified derivative of the Tiangong-1 spacecraft, is used as robotic cargo spacecraft to resupply this station.[212] The launch mass of Tianzhou is around 13,000 kg with a payload of around 6,000 kg.[213] Launch, rendezvous and docking shall be fully autonomous, with mission control and crew used in override or monitoring roles.[214]
All dates areUTC. Dates are the earliest possible dates and may change.
Forward ports are at the front of the station according to its normal direction of travel and orientation (attitude). Aft is at the rear of the station, used by spacecraft to boost the station's orbit.Nadir is closest to the Earth,zenith is on top.Port is to the left if pointing one's feet towards the Earth and looking in the direction of travel;starboard to the right.
Key (Based on launch)
Uncrewed cargo spacecraft are in light blue colour
Tiangong is designed to be used for 10 years, though it could be extended to 15 years[248] and will accommodate three astronauts.[249] CMSA crewed spacecraft usedeorbital burns to slow their velocity, resulting in their re-entry to the Earth's atmosphere. Vehicles carrying a crew have a heat shield which prevents the vehicle's destruction caused byaerodynamic heating upon contact with the Earth's atmosphere. The station itself has no heat-shield; however, small parts of space stations can reach the surface of the Earth, so uninhabited areas will be targeted for de-orbit manoeuvres.[87]
Photograph of the Chinese Space Station as captured inBrazil.
Similar to the ISS, the Tiangong space station can also be seen from Earth with the naked eye due tosunlight illumination reflected off the modules and solar panels, seen a few hours after sunset and before sunrise, reaching a brightness magnitude of at least -2.2mag.[250][251]
^ab"集大众智慧于探索融中华文化于飞天". 5 November 2013.Archived from the original on 2 May 2021. Retrieved1 May 2021.最终决定沿用"天宫"作为载人空间站的整体名称,但后面不再加序号 (The final decision was to use "Tiangong" as the overall name of the crewed space station, but without the serial number at the end)
^ab"Planned space station details made public".China Daily. 26 April 2018.Archived from the original on 30 September 2022. Retrieved29 April 2021.The two space labs, Wentian, or Quest for Heavens, and Mengtian, or Dreaming of Heavens
^abGraham, William; Gebhardt, Chris (28 April 2021)."China readies launch of Tianhe module, the start of ambitious two-year station construction effort".NASASpaceflight.com.Archived from the original on 19 May 2021. Retrieved22 June 2021.This means the two future science modules, Wentian ("Quest for the heavens") and Mengtian ("Dreaming of the heavens"), cannot dock directly to their planned radial port locations. [...] To account for this, each module will carry a Russian Lyappa robotic arm — like the ones used on Mir for the same purpose — to move the module from the forward port to its respective permanent location on a radial port of Tianhe's docking hub.
^abYang, Hong (2020).Manned Spacecraft Technologies. China: Springer. p. 355.ISBN978-9811548970.
^Ping, Wu (23 April 2016)."空间站工程研制进展" [Space Station Project Development Progress](PDF). China Manned Space Engineering. Archived fromthe original(PDF) on 14 September 2016. Retrieved29 June 2016.
^John Cook; Valery Aksamentov; Thomas Hoffman; Wes Bruner (1 January 2011).ISS Interface Mechanisms and their Heritage(PDF). AIAA Space 2011 (Long Beach, CA). p. 26. JSC-CN-24225.Archived(PDF) from the original on 25 April 2022. Retrieved31 March 2015 – via NTRS - NASA Technical Reports Server.The Chinese APAS is a clone of the Russian APAS. A view of the Chinese APAS is shown in Figure 19
^abJones, Morris (18 November 2011)."Shenzhou for Dummies".SpaceDaily.Archived from the original on 19 October 2021. Retrieved1 February 2012.
^Cattaneo, Paolo W.; et al. (HERD Collaboration) (21 October 2019). "The space station based detector HERD: precise high energy cosmic rays physics and multimessenger astronomy".Nuclear and Particle Physics Proceedings.306–308 (306–308):85–91.Bibcode:2019NPPP..306...85C.doi:10.1016/j.nuclphysbps.2019.07.013.S2CID209954022.
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