| 中国载人航天工程 Zhōngguó Zàirén Hángtiān Gōngchéng | |
 Logo of CMS in the shape of a space station, or the Chinese character "中" as in "中国" (China). | |
| Program overview | |
|---|---|
| Country |  China |
| Organization | China Manned Space Agency |
| Purpose | Human spaceflight |
| Status | Active |
| Program history | |
| Duration | 21 September 1992–present |
| First flight | Shenzhou 1 19 November 1999; 26 years ago (1999-11-19) |
| First crewed flight | Shenzhou 5 15 October 2003; 22 years ago (2003-10-15) |
| Last flight | Shenzhou 20 24 April 2025; 6 months ago (2025-04-24) |
| Successes | 34 |
| Failures | 0 |
| Launch site(s) | Jiuquan Satellite Launch Center Wenchang Space Launch Site |
| Vehicle information | |
| Uncrewed vehicle | Tianzhou cargo spacecraft |
| Crewed vehicle | Shenzhou spacecraft |
| Crew capacity | 3 |
| Launch vehicle(s) | Long March 2F Long March 7 Long March 5B |
TheChina Manned Space Program (CMS;Chinese:中国载人航天工程;pinyin:Zhōngguó Zàirén Hángtiān Gōngchéng), also known asProject 921 (Chinese:九二一工程;pinyin:Jiǔèryī Gōngchéng) is a space program developed by thePeople's Republic of China and run by theChina Manned Space Agency (CMSA) under theEquipment Development Department of the Central Military Commission, designed to develop and enhancehuman spaceflight capabilities for China. It was approved on 21 September 1992 and has been in operation ever since. TheCMS commander and director are currentlyXu Xueqiang andZhou Jianping respectively; the latter has held this position since 2006, after taking over fromWang Yongzhi, who served as the first director from 1992 to 2006.
As one of the most complex programs within the Chinese space agency, CMS was split into "three steps":[1]
On 29 November 2022, with the launch and docking ofShenzhou 15 with theTiangong space station, the CMSA successfully completed all three of the above steps, thereby making China the third nation to achieve human spaceflight (after the Soviet Union/Russia and the United States), as well as the second nation to operate a single-nation modular space station (after the Soviet Union/Russia'sMir).
Formal research of China's human spaceflight began in 1968. An institute for medical and space engineering was founded in Beijing.[2] It was the predecessor of The China Astronaut Research and Training Center, at which China's astronauts were trained in the following decades. Before that, in 1964, China launched asounding rocket, carrying several small animals to an altitude of 70 km as an attempt to study the effects of spaceflight on living creatures.[2]
On 24 April 1970, China launched its first satellite,Dong Fang Hong I into orbit. In 1970,Qian Xuesen, the father of China's space program, introduced his human spaceflight project, which was later calledProject 714. An early version of a crewed spacecraft calledShuguang I was under research. However, this program was cancelled due to a lack of funds and political interest. Instead, China decided in 1978 to pursue a method of sending astronauts into space using the more familiar FSW-derived ballistic reentry capsules. Two years later. in 1980, the Chinese government cancelled the program citing cost concerns.[3]
In order to gain relative experience, China launched and recovered its first recoverable satellite,Fanhui Shi Weixing, on 26 November 1975.[4] The success of the mission demonstrated China's capabilities of controlledatmospheric entry.
In 1986, the863 Program was funded by the Chinese government. It was intended to stimulate the development of science and technologies in several key areas, in which space capabilities were included.[5]
The Chinese human spaceflight program, formally titled the China Manned Space Program, was formally approved on September 21, 1992, by the Standing Committee of Politburo as Project 921,[6] with work beginning on 1 January 1993. The initial plan has three steps:[1]
The program was led by a chief commander and a chief designer, who handled administrative and technical issues respectively. A joint meeting between these two was responsible for making decisions on important issues during the implementation of the project.[6] The first chief designer of the program wasWang Yongzhi. A new organization,China Manned Space Agency (CMSA) under theEquipment Development Department of the Central Military Commission, was founded for the administration of the program.
In 1994, China signed a cooperation agreement with Russia to purchase aerospace technologies. In 1995, a deal was signed between the two countries for the transfer of Russian Soyuz spacecraft technology to China. Included in the agreement were schedules for astronaut training, provision ofSoyuz capsules, life support systems, docking systems, and space suits. In 1996, two Chinese astronauts,Wu Jie andLi Qinglong, began training at theYuri Gagarin Cosmonaut Training Center inRussia. After training, these men returned toChina and proceeded to train other Chinese astronauts at sites nearBeijing andJiuquan.[7]
The hardware and know-how purchased from Russia led to modifications of the original Step One spacecraft, later known calledShenzhou, roughly translated as "divine vessel". New launch facilities were built at the Jiuquan launch site inInner Mongolia, and in the spring of 1998, a mock-up of theLong March 2F launch vehicle with Shenzhou spacecraft was rolled out for integration and facility tests.[7]
The development ofLong March 2F, China's first human-rated launch vehicle, began in September 1992.[8] It was derived from theLong March 2E, but with alaunch escape system and control system redundancy.
In December 1994, the first hot test fire of a human-rated rocket's engine was completed successfully.[8]
In 1996, two pilots from the Air Force, Wu Jie and Li Qinglong, were handpicked and sent to Russia for training at the Yuri Gagarin Cosmonaut Training Centre.[9]
In January 1998, 14 pilots were selected as the first batch of Chinese astronaut candidates.[10]
In November 1998, a new flight control center,Beijing Aerospace Flight Control Center, was opened to support CMS missions.[9] Also in that year, a new launch complex adapting the advanced "three verticals" (vertical assembly, vertical testing and vertical transport) strategy was put into service inJiuquan Satellite Launch Center to support CMS missions exclusively.[11]
On 19 November 1999,Shenzhou 1, the first uncrewedShenzhou spacecraft, was launched fromJiuquan Satellite Launch Center and entered predetermined orbit. The ground electrical test model was used during this test flight to meet the deadline by the end of 1999.[9] The return capsule of the spacecraft successfully separated with other parts and landed intact inInner Mongolia the next day. Despite only limited systems being tested, the mission was still a successful test flight for theShenzhou spacecraft and Long March 2F rocket.
The second test flight ofShenzhou occurred on 10 January 2001.Shenzhou 2, the first formal uncrewed spaceship of China, was launched into orbit and stayed for seven days before the return capsule separated and performed a safe landing.[12]
In 2002, China launchedShenzhou 3 andShenzhou 4; both ended in success. All systems of the program had passed the tests perfectly, indicating a crewed mission was ready to be conducted.[9]
The fifth launch,Shenzhou 5, was the first to carry a human (Yang Liwei) and occurred at 01:00:00 UTC on 15 October 2003.[13] At 587 seconds after taking off, the spaceship separated from the rocket and entered an elliptical orbit with an inclination of 42.4°, the perigee height of 199.14 km and the apogee height of 347.8 km.[14] Yang became the first Chinese launched into space with Chinese launch vehicle and spacecraft. At 22:23 UTC on 15 October 2003, the re-entry module landed safely in central Inner Mongolia. The whole mission lasted for 21 hours and 23 minutes, making China the third country capable of sending humans to space and back independently, after Russia and the United States.
The first "multi-person and multi-day" crewed space flight,Shenzhou 6, was conducted during 12–17 October 2005. AstronautsFei Junlong andNie Haisheng spent more than 4 days in space and orbited the Earth for 76 orbits.[15]
The goal of the Second Step of CMS was to make technology breakthroughs inextravehicular activities (EVA) as well asspace rendezvous anddocking to support short-term human activities in space.[16] To complete the goal, China launched multiple crewed and uncrewed missions, including two prototypes of China's space station.
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On 25 September 2008,Shenzhou 7 was launched into space with three astronauts,Zhai Zhigang,Liu Boming andJing Haipeng. During the flight, Zhai Zhigang and Liu Boming completed China's first EVA with the Feitian extravehicular space suit made in China and the Sea Hawk extravehicular space suit imported from Russia respectively.[17]
In order to practice space rendezvous and docking, China launched an 8,000 kg (18,000 lb) target vehicle,Tiangong 1, in 2011 with a variant ofLong March 2F,[18] followed byShenzhou 8, the first uncrewed Shenzhou spacecraft sinceShenzhou 5. The two spacecraft performed China's first automatic rendezvous and docking on 3 November 2011, which verified the performance of docking procedures and mechanisms.[19] About 9 months later,Tiangong 1 completed the first manual rendezvous and docking withShenzhou 9, a crewed spacecraft carryingJing Haipeng,Liu Wang and China's first female astronautLiu Yang.[20]
On 11 June 2013, crewed spacecraftShenzhou 10 carrying astronautsNie Haisheng,Zhang Xiaoguang andWang Yaping was launched into orbit and docked withTiangong 1. The three astronauts spent 12 days inTiangong 1 by conducting scientific experiments, giving lectures to over 60 million students in China, and performing more docking tests before returning to Earth safely.[21] The completion of the missions fromShenzhou 6 toShenzhou 10 demonstrated China's technical advancement in human spaceflight, ending phase 1 of the Second Step.[22]
To further enhance China's human spaceflight capabilities and make preparation for the construction of future space station, China launched the second phase of the Second Step, which consisted of four space laboratory missions.
In June 2016, China conducted the maiden flight ofLong March 7, a new generation medium-lift launch vehicle with higher payload capability tolow Earth orbit, from the newly builtWenchang Space Launch Site located in the coastalHainan Province.[23]
In September 2016,Tiangong 2 was launched into orbit. It was a space laboratory with more advanced functions and equipment thanTiangong 1. A month later,Shenzhou 11 was launched and docked withTiangong 2. Two astronauts,Jing Haipeng andChen Dong enteredTiangong 2 and were stationed for about 30 days, breaking China's record for the longest human spaceflight mission while verifying the viability of astronauts' medium-term stay in space.[23]
In April 2017, China's first cargo spacecraft,Tianzhou 1 docked withTiangong 2 and completed multiple in-orbit propellant refueling tests, which marked the successful completion of the Second Step of CMS.[23]
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On 5 May 2020, China successfully launched the maiden flight ofLong March 5B, whose payload capability was greater than 22,000 kg (49,000 lb), allowing China to put a large space station module into low Earth orbit.[24] The mission inaugurated the Third Step of CMS.[25]
The Third Step aims to complete the construction of China's space stationTiangong. It can be divided into two phases:[26]
On 29 April 2021, the second Long March 5B rocket lifted off fromWenchang, carrying the 22,500 kg (49,600 lb)Tianhe core module, the most complex spacecraft independently developed by China. The core module entered the predetermined orbit about 494 seconds after launch, marking the start of the in-orbit construction of China's space station.[26]
On 29 May 2021,Tianzhou 2, the first cargo spacecraft to the space station, was launched by a Long March 7 rocket and docked withTianhe core module 8 hours later.[27] The shipment included astronaut supplies, space station equipment, extravehicular space suits and propellant.[28]
The first crewed mission toTianhe,Shenzhou 12, was launched fromJiuquan Satellite Launch Center on 17 June 2021. The spacecraft conducted China's first crewed autonomous rapid rendezvous and docking 6 hours 32 minutes after launch.[29] Three crew members,Nie Haisheng,Liu Boming andTang Hongbo, became the first inhabitants ofTiangong Space Station.
At 00:11 UTC on 4 July 2021, two of theShenzhou 12 crew members,Liu Boming andTang Hongbo, conducted the firstEVA on the space station, which lasted for 6 hours 46 minutes, breaking the previous 20-minute EVA record made duringShenzhou 7 mission in 2008 by a huge margin.[30]
TheShenzhou 12 crew returned to Earth safely on 17 September 2021.[31]
On 20 September 2021,Tianzhou 3 cargo spacecraft was launched to Tiangong Space Station.[32]
On 15 October 2021,Shenzhou 13 was launched and docked with theTianhe core module 6.5 hours later. The plan was for the crew, includingZhai Zhigang,Wang Yaping andYe Guangfu, to complete a six-month stay, the longest one since the beginning of the program.[33] About three weeks later, Zhai Zhigang and Wang Yaping completed the crew's firstEVA on 7 November 2021, making Wang the first Chinese female astronaut to perform an EVA.[34]
At 07:59 UTC on 27 March 2022, theTianzhou 2 cargo spacecraft was undocked from theTianhe core module after completing its mission,[35] followed by its controlled reentry into the atmosphere over the south Pacific on 31 March 2022.[36] TheShenzhou 13 crew returned to Earth safely on 16 April 2022.[37]
Following the conclusion of phase 1, 6 more missions will be conducted to implement phase 2, including launches of 2laboratory modules ofTiangong, 2 cargo spacecraft and 2 crewed spacecraft. All these missions are scheduled to be carried out by the end of 2022.[38]
On 9 May 2022,Tianzhou 4 cargo spacecraft was launched to Tiangong Space Station,[39] which docked with the station the next day.
On 5 June 2022,Shenzhou 14 was launched and docked to theTianhe core module almost 7 hours later. The crew, includingChen Dong,Liu Yang andCai Xuzhe, spent six months on the space station during this very first crewed mission of the construction phase.[40]
On 17 July 2022 at 02:59 UTC, Tianzhou 3 cargo spacecraft was undocked from the Tianhe core module after completing its mission.[41]
On 24 July 2022, the third Long March 5B rocket lifted off fromWenchang, carrying the 23,200 kg (51,100 lb)Wentian laboratory cabin module, the largest and heaviest spacecraft launched by China. The module docked with the space station less than 20 hours later, adding the second module and the first laboratory module to it.[42]
At 10:26 UTC on 1 September 2022, two of theShenzhou 14 crew members, Chen Dong and Liu Yang, conducted the firstEVA from theWentian module's airlock, which lasted 6 hours 7 minutes.[43] About two weeks later, on 17 September 2022, at 05:35 UTC, the second spacewalk carried out by Chen Dong and Cai Xuzhe through the airlock of the Wentian lab module, with Liu Yang assisting the pair from inside the Tianhe core module.[44]
On 31 October 2022, the fourth Long March 5B rocket lifted off fromWenchang, carrying the 23,200 kg (51,100 lb)Mengtian laboratory cabin module. The module docked with the space station less than 13 hours later, adding the third module and the second laboratory module to it.[45] On 3 November 2022, the 'T-shape' Tiangong space station was formed with the transpositioning of the last module.[46]
On 9 November 2022 at 06:55 UTC, Tianzhou 4 cargo spacecraft was undocked from the Tianhe core module after completing its mission.
On 12 November 2022,Tianzhou 5 cargo spacecraft was launched to Tiangong Space Station and docked after 2 hours and 7 minutes, breaking the world record for the fastest rendezvous and docking between a spacecraft and a space station.[47]
On 17 November 2022 at 03:16 UTC, the third spacewalk was carried out, again by Chen Dong and Cai Xuzhe through the airlock of the Wentian lab module, with Liu Yang assisting the pair from inside the Tianhe core module.
On 29 November 2022 at 15:08 UTC,Shenzhou 15 launched fromJiuquan Satellite Launch Center; the spacecraft docked with the space station about 6 and one-half hours later at 21:42 UTC. AstronautsFei Junlong,Deng Qingming, andZhang Lu (theShenzhou 15 crew) were greeted by the Shenzhou 14 crew, completing the first crew handover on the China space station.[48]
With the completion of construction, the Space Station began the application and permanently crewed phase in which crew rotations would become routine. The station is expected to operate in orbit for no less than 10 years,[38] and perhaps up to 15 years, until 2038.[49]
China Manned Space Program is composed of 14 systems, with more than one thousand units from various sectors involved.[50][1]
The 14 systems (plus four more systems currently under development) and their main objectives are:
Astronaut System
Ensuring the health and performance of astronauts during long-term space flight
Space Application System
Making use of the on-board application support capacity to enable space science experiments and investigations.
Manned Spacecraft System (initial)
Development ofShenzhou series crewed spacecraft used for transporting humans into space and back.
Space Laboratory System
Development of two prototypes of future space station,Tiangong 1 andTiangong 2, for the purpose of technology demonstrations.
Permanently-Crewed Space Station
Development of a permanently-crewed long-term modular space station. The station is designed to allow the long-term study of astronomical, biological, and physical phenomena inlow Earth orbit.
Long March 2F
Development ofLong March 2F, the human-rated carrier rocket used to launchShenzhou spacecraft and space laboratories.
Long March 5B
Development ofLong March 5B carrier rocket, which is responsible for carrying space station modules for the construction ofTiangong Space Station.
Long March 7
Development ofLong March 7 carrier rocket designed forTianzhou cargo spacecraft launching.
Long March 10
Development of theLong March 10 carrier rocket is currently underway. It is designed to launch crewed spacecraft to the Moon by the year 2030.
Long March 10A
Development of theLong March 10A is currently underway. It is designed to launch a new generation of crewed spacecraft tolow Earth orbits. The first stage of this launcher will be recoverable and reusable; its first flight is anticipated to occur in 2027.
Mengzhou crewed spacecraft
Development of thenext-generation crewed spacecraft is currently underway. It is designed to carry up to seven crew members toLEOs and three crew members to lunar orbit.
Lanyue crewed lunar lander
Development of thecrewed lunar lander is currently underway. It is designed to carry two astronauts to the lunar surface and to ferry them back to lunar orbit after a period of time.
Jiuquan Launch Center
Carrying out launch missions for crewed spaceship and space laboratory.
Wenchang Space Launch Site
Carrying out the launching ofTiangong space station modules andTianzhou cargo spaceships.
TT&C and Communications System
Measuring, monitoring and controlling the flight path, altitude and operating status of the rockets and spacecraft, providing channels for video and voice communications with the astronauts and sending scientific data back to Earth.
Landing Site System
Tracking, searching and locating the landed re-entry capsules, rescuing the astronauts and refurbishing and recycling the re-entry capsules and payloads.
Cargo Vehicle System
Research and development ofTianzhou cargo vehicle.
Optical Module
Research and development of optical facilities and optical platforms.
The list below includes all missions operated by CMS, including crewed and uncrewed spacecraft, cargo spaceships, launch vehicle test flights and space station modules.
| Sequence No. | Mission | Launch | Launch Vehicle | Launch Site | Duration | Landing/Re-entry | Landing/Re-entry Location | Crew | Outcome | Notes |
|---|---|---|---|---|---|---|---|---|---|---|
| ↓ First Step ↓ | ||||||||||
| 1 | Shenzhou 1 | 19 November 1999 | Long March 2F | Jiuquan | 21 h 11 m | 20 November 1999 | Dorbod Banner | (uncrewed) | Success | First mission of CMS. Uncrewed test flight ofShenzhou spacecraft and Long March 2F rocket. |
| 2 | Shenzhou 2 | 9 January 2001 | Long March 2F | Jiuquan | 7 d 10 h 22 m | 16 January 2001 | Dorbod Banner | (uncrewed) | Partial success | Carried scientific payload including monkey, dog, rabbit and other animals. |
| 3 | Shenzhou 3 | 25 March 2002 | Long March 2F | Jiuquan | 6 d 18 h 51 m | 1 April 2002 | Dorbod Banner | (uncrewed) | Success | Carried a test dummy. |
| 4 | Shenzhou 4 | 29 December 2002 | Long March 2F | Jiuquan | 6 d 18 h 36 m | 5 January 2003 | Dorbod Banner | (uncrewed) | Success | Carried 2 test dummies and several science experiments. |
| 5 | Shenzhou 5 | 15 October 2003 | Long March 2F | Jiuquan | 21 h 22 m 45 s | 15 October 2003 | Dorbod Banner | Yang Liwei | Success | First crewed spaceflight of China; flight completed 14 Earth orbits. With this flight, China became the third nation capable of independent human spaceflight, after Russia and the U.S. |
| 6 | Shenzhou 6 | 12 October 2005 | Long March 2F | Jiuquan | 4 d 19 h 33 m | 16 October 2005 | Dorbod Banner | Fei JunlongNie Haisheng | Success | Multiple days in space, 75 orbits. |
| ↓ Second Step, phase 1 ↓ | ||||||||||
| 7 | Shenzhou 7 | 25 September 2008 | Long March 2F | Jiuquan | 2 d 20 h 27 m | 28 September 2008 | Dorbod Banner | Zhai ZhigangLiu BomingJing Haipeng | Success | First three-person crew, first Chinese spacewalk. |
| 8 | Tiangong 1 | 29 September 2011 | Long March 2F | Jiuquan | — | 2 April 2018 | Southern Pacific | (uncrewed) | Success | Target vehicle for space rendezvous and docking testing. |
| 9 | Shenzhou 8 | 31 October 2011 | Long March 2F | Jiuquan | 16 d 13 h 34 m | 17 November 2011 | Dorbod Banner | (uncrewed) | Success | Uncrewed mission, completed China's first space rendezvous and docking with Tiangong-1. |
| 10 | Shenzhou 9 | 16 June 2012 | Long March 2F | Jiuquan | 12 d 15 h 24 m | 29 June 2012 | Dorbod Banner | Jing Haipeng (2)Liu WangLiu Yang | Success | First Chinese woman in space; first repeated flight; first crewed docking with Tiangong-1. |
| 11 | Shenzhou 10 | 11 June 2013 | Long March 2F | Jiuquan | 14 d 14 h 29 m | 26 June 2013 | Dorbod Banner | Nie Haisheng (2)Zhang XiaoguangWang Yaping | Success | Second Chinese woman in space, second crewed docking with Tiangong-1. |
| ↓ Second Step, phase 2 ↓ | ||||||||||
| 12 | Long March 7 test flight | 25 June 2016 | Long March 7 | Wenchang | — | 26 June 2016 | Jiuquan | (uncrewed) | Success | Long March 7 test flight carrying scaled model ofnext-generation crewed spacecraft. |
| 13 | Tiangong 2 | 15 September 2016 | Long March 2F | Jiuquan | — | 19 July 2019 | Southern Pacific | (uncrewed) | Success | Space laboratory with rich equipment, capable of in-orbit refueling and supporting mid-term spaceflight. |
| 14 | Shenzhou 11 | 17 October 2016 | Long March 2F | Jiuquan | 32 d 06 h 29 m | 18 November 2016 | Dorbod Banner | Jing Haipeng (3)Chen Dong | Success | First and only crewed docking with Tiangong-2, crew set record for longest Chinese crewed spaceflight prior to the Third Step. |
| 15 | Tianzhou 1 | 20 April 2017 | Long March 7 | Wenchang | — | 22 September 2017 | (burnt up in atmosphere) | (uncrewed) | Success | First cargo spacecraft, completed in-orbit propellant refueling tests. |
| ↓ Third Step, phase 1 ↓ | ||||||||||
| 16 | Long March 5B test flight | 5 May 2020 | Long March 5B | Wenchang | — | 8 May 2020 | Jiuquan | (uncrewed) | Success | Long March 5B test flight carrying test vehicle ofnext-generation crewed spacecraft. |
| 17 | Tianhe Core Module | 29 April 2021 | Long March 5B | Wenchang | — | — | — | (uncrewed) | Success | First module ofTiangong Space Station being launched into orbit. |
| 18 | Tianzhou 2 | 29 May 2021 | Long March 7 | Wenchang | — | 31 March 2022 | (burnt up in atmosphere) | (uncrewed) | Success | First cargo spacecraft to the space station. Undocked from Tianhe on 27 March 2022 at 07:55:29. |
| 19 | Shenzhou 12 | 17 June 2021 | Long March 2F | Jiuquan | 92 d 04 h 11 m | 17 September 2021 | Jiuquan | Nie Haisheng (3)Liu Boming (2)Tang Hongbo | Success | First crewed mission to dock with theTianhe Core Module to begin construction of theTiangong space station.[51] |
| 20 | Tianzhou 3 | 20 September 2021 | Long March 7 | Wenchang | — | 27 July 2022 | (burnt up in atmosphere) | (uncrewed) | Success | Second cargo spacecraft to the space station. Undocked from Tianhe on 17 July 2022 at 02:55. |
| 21 | Shenzhou 13 | 15 October 2021 | Long March 2F | Jiuquan | 182 d 09h 32 m | 16 April 2022 | Jiuquan | Zhai Zhigang (2)Wang Yaping (2)Ye Guangfu | Success | Second crewed mission to the space station to continue its construction. First spacewalk by a female Chinese astronaut. |
| ↓ Third Step, phase 2 ↓ | ||||||||||
| 22 | Tianzhou 4 | 9 May 2022 | Long March 7 | Wenchang | — | 14 November 2022 | (burnt up in atmosphere) | (uncrewed) | Success | Third cargo spacecraft to the space station. Undocked from Tianhe on 9 November 2022 at 06:55. |
| 23 | Shenzhou 14 | 5 June 2022 | Long March 2F | Jiuquan | 182 d 09h 25 m | 4 December 2022 | Jiuquan | Chen Dong (2)Liu Yang (2)Cai Xuzhe | Success | Third crewed mission to the space station to continue its construction: two lab modules added during this mission thus completing the construction of the station. |
| 24 | Wentian Laboratory Cabin Module | 24 July 2022 | Long March 5B | Wenchang | — | — | — | (uncrewed) | Success | Laboratory Cabin Module I of the Tiangong Space Station. |
| 25 | Mengtian Laboratory Cabin Module | 31 October 2022 | Long March 5B | Wenchang | — | — | — | (uncrewed) | Success | Laboratory Cabin Module II of the Tiangong Space Station. |
| 26 | Tianzhou 5 | 12 November 2022 | Long March 7 | Wenchang | — | 13 September 2023 | (burnt up in atmosphere) | (uncrewed) | Success | Broke the record of shortest time from launch to docking (2 hours 07 minutes). |
| 27 | Shenzhou 15 | 29 November 2022 | Long March 2F | Jiuquan | 186 d 07h 25 m | 3 June 2023 | Jiuquan | Fei Junlong (2)Deng QingmingZhang Lu | Success | Fourth crewed mission to the space station for its final stage of construction. First set of rotation of crew members. |
| ↓ Space station application and development phase ↓ | ||||||||||
| 28 | Tianzhou 6 | 10 May 2023 | Long March 7 | Wenchang | — | 19 January 2024 | (burnt up in atmosphere) | (uncrewed) | Success | Reduced launch frequency starting from this mission due to less demand for cargo resupply. The world'slargest active cargo supply spacecraft in terms of capacity.[52] |
| 29 | Shenzhou 16 | 30 May 2023 | Long March 2F | Jiuquan | 153 d 22h 41 m | 31 October 2023 | Jiuquan | Jing Haipeng (4)Zhu YangzhuGui Haichao | Success | Fifth crewed mission to the Tiangong space station. Includes civilian astronaut (payload specialist) for the first time. |
| 30 | Shenzhou 17 | 26 October 2023 | Long March 2F | Jiuquan | 187 d 6h 32 m | 30 April 2024 | Jiuquan | Tang Hongbo (2)Tang ShengjieJiang Xinlin | Success | Sixth crewed mission to the Tiangong space station. |
| 31 | Tianzhou 7 | 17 January 2024 | Long March 7 | Wenchang | — | 17 November 2024 | (burnt up in atmosphere) | (uncrewed) | Success | |
| 32 | Shenzhou 18 | 25 April 2024 | Long March 2F | Jiuquan | 192 d 4 h 25 m | 3 November 2024 | Jiuquan | Ye Guangfu (2)Li CongLi Guangsu | Success | Seventh crewed mission to the Tiangong space station. |
| 33 | Shenzhou 19 | 29 October 2024 | Long March 2F | Jiuquan | 182 d 8 h 41 m | 30 April 2025 | Jiuquan | Cai Xuzhe (2)Song LingdongWang Haoze | Success | Eighth crewed mission to the Tiangong space station. |
| 34 | Tianzhou 8 | 15 November 2024 | Long March 7 | Wenchang | — | 08 July 2025 | (burnt up in atmosphere) | (uncrewed) | Success | |
| 35 | Shenzhou 20 | 24 April 2025 | Long March 2F | Jiuquan | 6 months (planned) | November 2025 (planned) | Jiuquan | Chen Dong (3)Chen ZhongruiWang Jie | Partial failure ( planned to return uncrewed) | Ninth crewed mission to the Tiangong space station. Launched, crewed but landed uncrewed due to cracks in spacecraft's porthole caused by external space debris impact. Crew landed viaShenzhou 21. |
| 36 | Tianzhou 9 | 14 July 2025 | Long March 7 | Wenchang | — | ~8 months (planned) | — | (uncrewed) | Ongoing | |
| 37 | Shenzhou 21 | 31 October 2025 | Long March 2F | Jiuquan | 13 days | 14 November 2025 | Jiuquan | Zhang LuWu FeiZhang Hongzhang | Success | Tenth crewed mission to the Tiangong space station. Landed withShenzhou 20 crew due to cracks inShenzhou 20 spacecraft's porthole caused by external space debris impact. Crew will land viaShenzhou 22. |
| Sequence No. | Mission | Launch (planned) | Launch Vehicle | Launch Site | Duration | Landing/Re-entry | Landing/Re-entry Location | Crew | Notes |
|---|---|---|---|---|---|---|---|---|---|
| 38 | Xuntian Space Station Telescope | 2026 | Long March 5B | Wenchang | — | — | — | (uncrewed) | Space telescope of the Tiangong. |
There were two astronaut trainers selected for Project 921. They trained at theYuri Gagarin Cosmonauts Training Center in Russia.
18 people - 17 men, 1 woman, 6 of whose names have yet to be revealed - had been selected as new astronauts. The positions were broken down as 7 spacecraft pilots ("aviators of the People's Liberation Army Air Force"), 7 flight engineers ("former researchers or technicians in aeronautics, astronautics and other related fields"), and 4 mission payload specialists ("those involved in space science and through applications for China's manned space program").[53]
CMSA began selecting a fourth batch of astronauts in 2022. The agency had expected to select 7-8 spacecraft pilots ("aviators of the People's Liberation Army Air Force") and 5-6 spaceflight engineers ("former researchers or technicians in aeronautics, astronautics and other related fields"). Up to two of the latter group will become payload specialists ("those involved in space science and through applications for China's manned space program"). Candidacy was extended to include Hong Kong and Macau.[54]
On 11 June 2024, CMSA announced that 10 new astronauts were selected after the completion of the 2022 selection process. 8 of the 10 new astronauts are pilots while the remaining 2 are payload specialists. Notably, the two new payload specialists are China’s first astronauts from Hong Kong and Macao special administrative regions; in addition, the payload specialist from Hong Kong SAR is female.[55] The new astronauts will undergo two years of basic training for space station missions as well as for crewed lunar missions.[55][56]
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.[57]
In 2016, theChina Manned Space Agency (CMSA) signed a Framework Agreement and a Funding Agreement with theUnited Nations Office for Outer Space Affairs (UNOOSA) to increase cooperation on a future Chinese space station.[58]
On 22 February 2017, theCMSA and theItalian Space Agency (ASI) signed an agreement to cooperate on long-term human spaceflight activities.[59] 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.[60] TheEuropean Space Agency (ESA) started human spaceflight training with CMSA in 2017, with the ultimate goal of sending ESA astronauts to Tiangong.[61] 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.[62][63] 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.[64]
On 28 May 2018, UNOOSA and CMSA announced an initiative to accept applications fromUnited Nations Member States to conduct experiments onboard China's space station.[65]
On 12 June 2019, the winners of the competition were announced. 9 projects, involving 23 institutions from 17 Member States of theUnited Nations, were selected by experts.[66]
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