Chinese space program

Shenzhou 9 mission, first Chinese manned spacecraft to dock with a space station

The space program of the People's Republic of China is directed by the China National Space Administration (CNSA). Its technological roots can be traced back to the late 1950s, when China began a ballistic missile program in response to perceived American (and, later, Soviet) threats. However, the first Chinese crewed space program only began several decades later, when an accelerated program of technological development culminated in Yang Liwei's successful 2003 flight aboard Shenzhou 5. This achievement made China the third country to independently send humans into space. Plans currently include a permanent Chinese space station in 2020 and crewed expeditions to the Moon.

Officials have articulated long term ambitions to exploit Earth-Moon space for industrial development. The goal would be the construction of space-based solar power satellites that would beam energy back to Earth.[1][2]

The Chinese Space Program is one of the world's most active, advanced, and successful space programs, making several historic and present achievements, breakthroughs and records.[3][4][5][6][7][8][9][10][11]

History and recent developments

During the period of Sino-Soviet co-operation

After the United States threatened to use nuclear weapons during the Korean War, Chairman Mao Zedong decided that only a nuclear deterrent of its own would guarantee the security of the newly founded PRC. Additionally, he wanted China to gain status among the world's powers that—as he felt—did not respect him. From this, he decided instead to only implement his new plan with the Republic of China (present-day Taiwan) as "China". Thus, Mao announced his decision to develop China's own strategic weapons, including nuclear bombs and associated missiles for the warheads, during a Communist Party of China (CPC) Central Committee meeting held on January 15, 1955. The Chinese nuclear weapons program was designated by the codename of "02".

The Fifth Academy of the National Defense Ministry (国防部第五研究院) was founded on October 8, 1956, with Qian Xuesen, who had just been deported from the United States after being accused of being a communist during the red scare, as director. The Academy started the development of the first ballistic missile program, adopted on March 1, 1956 and known as the first Twelve-Year-Plan for Chinese aerospace.[12]

After the launch of mankind's first artificial satellite, Sputnik 1, by the Soviet Union on October 4, 1957, Mao decided during the National Congress of the CPC on May 17, 1958 to make China an equal with the superpowers (“我们也要搞人造卫星”)(We need to develop the artificial satellite too), by adopting Project 581 with the objective of placing a satellite in orbit by 1959 to celebrate the 10th anniversary of the PRC's founding.[13] This goal would be achieved in three phases: developing sounding rockets first, then launching small satellites and in the final phase, large satellites.

  • The construction of China's first missile test base, code-named Base 20 (西北综合导弹试验基地), started in April 1958 and it entered service on October 20 of the same year.
  • The first Chinese missile was built in October 1958 as a reverse-engineered copy of the Soviet R-2 short-range ballistic missile (SRBM), itself an upgraded version of a German V-2 rocket. Its range was 590 km, weighing 20.5 tons and propelled with liquid oxygen and alcohol.
  • China's first ever T-7 sounding rocket was successfully launched from the Nanhui launch site on February 19, 1960.[14]
  • China started to develop medium-range ballistic missiles (MRBM) in July 1960, with an increased range double that of the R-2.

During the cordial Sino-Soviet relations of the 1950s, the USSR engaged in a cooperative technology transfer program with the PRC under which they trained Chinese students and provided the fledgling program with a sample R-2 rocket. But when Soviet premier Nikita Khrushchev was denounced as revisionist, with Mao asserting that there had been a counter-revolution in the Soviet Union and that capitalism had been restored, the friendly relationship between the two countries turned to confrontation. As a consequence, all Soviet technological assistance was abruptly withdrawn after the 1960 Sino-Soviet split.

Missile and Space development after the Sino-Soviet split

Only 17 days after the last Soviet expert had left China, the first Soviet built R-2 rocket fueled with Chinese-made propellant was launched with success on September 10, 1960. Due to Cold War tension, Mao decided in December 1963 that China should develop missile defence system capacity. During a conference held on February 2, 1964, directive 640 (640指示)was adopted (later known as Project 640).[15]

  • The first successful launch of a Chinese 1059 SRBM missile copy of the R-2 was conducted only two months later on November 5, 1960. The missile was also designated DF-1. The first DF-2 MRBM was tested on March 21, 1962, but failed.
  • Development eventually continued with the redesigned DF-2A MRBM which was successfully tested on June 29, 1964. It would enter service by the end of 1966.
  • The first successful launch and recovery of a T-7A(S1) sounding rocket carrying a biological experiment (transporting eight white mice) was on July 19, 1964 from Base 603 (安徽广德誓节渡中国科学院六〇三基地.[16]
  • China started to develop the DF-5 intercontinental ballistic missile (ICBM) program in August 1965. It was designed to carry a single nuclear warhead and has a maximum range of 12000 km. In November 1966, it was decided to build a second ballistic missile test site, the Northern Missile Test Site (华北导弹试验场)) in Shanxi Province, farther away from China's northern border.
  • On October 27, 1966, a nuclear-tipped DF-2A missile was launched from Jiuquan and the 20 kilotons yield nuclear warhead exploded at the height of 569 meters over the target in Lop Nor or Base 21 situated 894 km away.
  • On December 26, 1966, China tested its first indigenously developed DF-3 intermediate-range ballistic missile (IRBM) with success. The DF-3 was a single-stage, single-warhead missile with a maximum range of 2500 km. The development of the DF-4 IRBM began in 1967 in parallel with the single-stage DF-3.
  • In March 1967, development started on the JL-1 submarine-launched ballistic missile to accompany the Type 092 ballistic missile submarine (SSBN) also in development.
Launch vehicle being transported on highways in Shanghai
Long March 2D lifting off in 2012
Jiuquan Satellite Launch Center, one of the first Chinese spaceport


As the space race between the two superpowers reached its climax with the conquest of the Moon, Mao and Zhou Enlai decided on July 14, 1967 that the PRC should not be left behind, and started China's own crewed space program.[17]

  • China's first spacecraft designed for human occupancy was named Shuguang-1 (曙光一号) in January 1968.[18] China's Space Medical Institute (航天医学工程研究所) was founded on April 1, 1968, and the Central Military Commission issued the order to start the selection of astronauts.
  • As part of the "third line" effort to relocate critical defense infrastructure to the relatively remote interior (away from the Soviet border), it was decided to construct a new space center in the mountainous region of Xichang in the Sichuan province, code-named Base 27.
  • A first liquid-propellant DF-3 medium-range ballistic missile was successfully launched from the Northern Missile Test Site on December 18, 1968, inaugurating the test site.
  • In August 1969, the development of China's first heavy-lift satellite launch vehicle (SLV), the Feng Bao 1 (FB-1) (风暴一号, was started by Shanghai’s 2nd Bureau of Mechanic-Electrical Industry. The all-liquid two-stage launcher was derived from the DF-5 ICBM. Only a few months later, a parallel heavy-lift SLV program, also based on the same DF-5 ICBM and known as CZ-2, was started in Beijing by the First Space Academy.
  • The DF-4 was used to develop the Long March-1 SLV. A newly designed spin-up orbital insertion solid propellant rocket motor third stage was added to the two existing Nitric acid/UDMH liquid propellant stages. An attempt to use this vehicle to launch a Chinese satellite before Japan's first attempt ended in failure on November 16, 1969.[19]
  • The first DF-4 liquid-propellant with two-stage, single-warhead IRBM was tested with success on January 30, 1970. The addition of a second-stage allowed the missile to increase its range to over 4750 km.
  • The second satellite launch attempt on April 24, 1970 was successful. A CZ-1 was used to launch the 173 kg Dong Fang Hong I (东方红一号, meaning The East Is Red I), also known as Mao-1. It was the heaviest first satellite placed into orbit by a nation, exceeding the combined masses of the first satellites of the other four previous countries. The third stage of the CZ-1 was specially equipped with a 40 m2 solar reflector (观察球) deployed by the centrifugal force developed by the spin up orbital insertion solid propellant stage. Therefore, the faint magnitude 5 to 8 brightness of the DFH-1 made the satellite (at best) barely visible with naked eyes was consequently dramatically increased to a comfortable magnitude 2 to 3.
  • The PRC's second satellite was launched with the last of the CZ-1 SLVs on March 3, 1971. The 221 kg ShiJian-1 (SJ-1) was equipped with a magnetometer and cosmic-ray/x-ray detectors.
  • The first crewed space program known as Project 714, was officially adopted in April 1971 with the goal of sending two astronauts into space by 1973 aboard the Shuguang spacecraft. The first screening process for astronauts had already ended on March 15, 1971, with 19 astronauts chosen. The program would soon be cancelled due to political turmoil.
  • A first flight test of the DF-5 ICBM was carried out in October 1971.
  • On August 10, 1972, the new heavy-lift SLV FB-1 made its maiden test flight, with only partial success.
  • The CZ-2A launcher, originally designed to carry the Shuguang-1 spacecraft, was first tested on November 5, 1974, carrying China’s first FSW-0 recoverable satellite, but failed. After some redesign work, the modified CZ-2C successfully launched the FSW-0 No.1 recoverable satellite (返回式卫星) into orbit on November 26, 1975.
  • After expansion, the Northern Missile Test Site was upgraded as a test base in January 1976 to become the Northern Missile Test Base (华北导弹试验基地) known as Base 25.
In 2012, Liu Yang became the first Chinese woman in space.

After Mao Zedong's death

After Mao died on September 9, 1976, his rival, Deng Xiaoping, denounced during the Cultural Revolution as reactionary and therefore forced to retire from all his offices, slowly re-emerged as China's new leader in 1978. At first, new development was slowed. Then, several key projects deemed unnecessary were simply cancelled—the Fanji ABM system, the Xianfeng Anti-Missile Super Gun, the ICBM Early Warning Network 7010 Tracking Radar and the land-based high-power anti-missile laser program. Nevertheless, some development did proceed.

  • The first Yuanwang-class space tracking ship was commissioned in 1979.
  • The first full-range test of the DF-5 ICBM was conducted on May 18, 1980. The payload reached its target located 9300 km away in the South Pacific (7°0′S 117°33′E / 7.000°S 117.550°E / -7.000; 117.550 (DF-5 ICBM test impact)) and retrieved five minutes later by helicopter.
  • Further development of the Long March rocket series allowed the PRC to initiate a commercial launch program in 1985, which has since launched over 30 foreign satellites, primarily for European and Asian interests.
  • The next crewed space program was even more ambitious and proposed in March 1986, as Astronautics plan 863-2. This consisted of a crewed spacecraft (Project 863-204) used to ferry astronaut crews to a space station (Project 863-205). Several spaceplane designs were rejected two years later and a simpler space capsule was chosen instead. Although the project did not achieve its goals, it would ultimately evolve into the 1992 Project 921.
  • The Ministry of Aerospace Industry was founded on July 5, 1988.
  • On September 15, 1988, a JL-1 SLBM was launched from a Type 092 submarine. The maximum range of the SLBM is 2150 km.
2010 Somalian commemorative stamps of Chinese astronauts

After the end of the Cold War

Along Deng's policy of capitalist reforms in the Chinese economy, Chinese culture also changed. Therefore, names used in the space program, previously all chosen from the revolutionary history of the PRC, were soon replaced with mystical-religious ones. Thus, new Long March carrier rockets were renamed Divine arrow (神箭),[20][21] spacecraft Divine vessel (神舟),[22] space plane Divine dragon (神龙),[23] land-based high-power laser Divine light (神光)[24] and supercomputer Divine might (神威).[25]

  • In June 1993, China Aerospace Industry Corporation (National Space Bureau) was founded in Beijing.
  • On February 15, 1996, during the flight of the first Long March 3B heavy carrier rocket carrying Intelsat 708, the rocket veered off course immediately after clearing the launch platform, crashing 22 seconds later. It crashed 1.85 km (1.15 mi) away from the launch pad into a nearby mountain village.
  • On the 50th anniversary of the PRC's founding, China launched the Shenzhou 1 spacecraft on November 20, 1999 and recovered it after a flight of 21 hours. The country became the third country with a successful crewed space program by sending an astronaut into space aboard Shenzhou 5 on October 15, 2003 for more than 21 hours.

China has since turned its focus to extraterrestrial exploration starting with the Moon. The first Chinese Lunar Exploration Program un-crewed lunar orbiter Chang'e 1 was successfully launched on October 24, 2007, making China the fifth nation to successfully orbit the Moon.

Chinese space program and the international community

Dual-use technologies and outer space

The PRC is a member of the United Nations Committee on the Peaceful Uses of Outer Space and a signatory to all United Nations treaties and conventions on space, with the exception of the unpopular 1979 Moon Treaty.[26] The United States government has long been resistant to the use of PRC launch services by American industry due to concerns over alleged civilian technology transfer that could have dual-use military applications to countries such as North Korea, Iran or Syria, and announced an official embargo against the PRC in 2000. Thus, financial retaliatory measures have been taken on many occasions against several Chinese space companies.[27]

Chinese exclusion policy of NASA

Due to security concerns, all researchers from the U.S. National Aeronautics and Space Administration (NASA) are prohibited from working with Chinese citizens affiliated with a Chinese state enterprise or entity.[28] In April 2011, the 112th United States Congress banned NASA from using its funds to host Chinese visitors at NASA facilities.[29] In March 2013, the U.S. Congress passed legislation barring Chinese nationals from entering NASA facilities without a waiver from NASA.[28]

The history of the U.S. exclusion policy can be traced back in 1998 when a U.S. Congressional Commission led by Christopher Cox discovered that the technical information that American companies provided China for its commercial satellite ended up improving Chinese intercontinental ballistic missile technology.[30] This was further aggravated in 2007 when China blew up its space station in the low Earth orbit to test a ground-based anti-satellite (ASAT) missile. The debris created by the explosion contributed to the space junk that litter Earth's orbit, exposing American military space assets at the risk such as accidental collision.[30] The United States also fears the Chinese application of dual-use space technology for nefarious purposes.[31] The U.S. imposed an embargo to the U.S. - China space cooperation throughout the 2000s and by 2011, a clause inserted by then-Congressman Frank Wolf in the 2011 U.S. federal budget forbids NASA from hosting or participating in a joint scientific activity with China.

The Chinese response to the exclusion policy involved its own space policy of opening up its space station to the outside world, welcoming scientists coming from all countries.[31] American scientists have also boycotted NASA conferences due to its rejection of Chinese nationals in these events.[32]

Organization

Initially the space program of the PRC was organized under the People's Liberation Army, particularly the Second Artillery Corps. In the 1990s, however, the PRC reorganized the space program as part of a general reorganization of the defense industry to make it resemble Western defense procurement.

The China National Space Administration, an agency within the Commission of Science, Technology and Industry for National Defense currently headed by Sun Laiyan, is now responsible for launches. The Long March rocket is produced by the China Academy of Launch Vehicle Technology, and satellites are produced by the China Aerospace Science and Technology Corporation. The latter organizations are state-owned enterprises; however, it is the intent of the PRC government that they should not be actively state managed and that they should behave much as private companies would in the West.

Universities and institutes

The space program also has close links with:

Space cities

  • Dongfeng space city (东风航天城),also known as Base 20 (二十基地) or Dongfeng base (东风基地)[33]
  • Beijing space city (北京航天城)
  • Wenchang space city (文昌航天城)
  • Shanghai space city (上海航天城)
  • Yantai space city (烟台航天城)[34][35]
  • Guizhou Aerospace Industrial Park (贵州航天高新技术产业园),also known as Base 061 (航天○六一基地), founded in 2002 after approval of Project 863 for industrialization of aerospace research centers (“国家863计划成果产业化基地”).[36]

Suborbital launch sites

  • Nanhui (南汇县老港镇东进村) First successful launch of a T-7M sounding rocket on February 19, 1960.[14]
  • Base 603 (安徽广德誓节渡中国科学院六〇三基地) Also known as Guangde Launch Site (广德发射场).[37] The first successful flight of a biological experimental T-7A(S1) sounding rocket transporting eight white mice was launched and recovered on July 19, 1964.[38]

Satellite launch centers

The PRC operates 4 satellite launch centers:

Monitoring and control centers

Domestic tracking stations

  • New integrated land-based space monitoring and control network stations, forming a large triangle with Kashi in the north-west of China, Jiamusi in the north-east and Sanya in the south.[43]
  • Weinan Station
  • Changchun Station
  • Qingdao Station
  • Zhanyi Station
  • Nanhai Station
  • Tianshan Station
  • Xiamen Station
  • Lushan Station
  • Jiamusi Station
  • Dongfeng Station
  • Hetian Station

Overseas tracking stations

Plus shared space tracking facilities with France, Brazil, Sweden and Australia.

Crewed landing sites

Crewed spaceflight programs

Project 714

As the Space Race between the two superpowers reached its climax with humans landing on the Moon, Mao Zedong and Zhou Enlai decided on July 14, 1967 that the PRC should not be left behind, and therefore initiated China's own crewed space program. The top-secret Project 714 aimed to put two people into space by 1973 with the Shuguang spacecraft. Nineteen PLAAF pilots were selected for this goal on March 1971. The Shuguang-1 spacecraft to be launched with the CZ-2A rocket was designed to carry a crew of two. The program was officially cancelled on May 13, 1972 for economic reasons, though the internal politics of the Cultural Revolution likely motivated the closure.

The short-lived second crewed program was based on the successful implementation of landing technology (third in the World after USSR and United States) by FSW satellites. It was announced a few times in 1978 with the open publishing of some details including photos, but then was abruptly canceled in 1980. It has been argued that the second crewed program was created solely for propaganda purposes, and was never intended to produce results.[46]

Project 863

A new crewed space program was proposed by the Chinese Academy of Sciences in March 1986, as Astronautics plan 863-2. This consisted of a crewed spacecraft (Project 863-204) used to ferry astronaut crews to a space station (Project 863-205). In September of that year, astronauts in training were presented by the Chinese media. The various proposed crewed spacecraft were mostly spaceplanes. Project 863 ultimately evolved into the 1992 Project 921.

Project 921 (Shenzhou)

Spacecraft

In 1992, authorization and funding was given for the first phase of Project 921, which was a plan to launch a crewed spacecraft. The Shenzhou program had four uncrewed test flights and two crewed missions. The first one was Shenzhou 1 on November 20, 1999. On January 9, 2001 Shenzhou 2 launched carrying test animals. Shenzhou 3 and Shenzhou 4 were launched in 2002, carrying test dummies. Following these was the successful Shenzhou 5, China's first crewed mission in space on October 15, 2003, which carried Yang Liwei in orbit for 21 hours and made China the third nation to launch a human into orbit. Shenzhou 6 followed two years later ending the first phase of the Project 921. Missions are launched on the Long March 2F rocket from the Jiuquan Satellite Launch Center. The China Crewed Space Engineering Office provides engineering and administrative support for the crewed Shenzhou missions.[47]

Space laboratory

The second phase of the Project 921 started with Shenzhou 7, China's first spacewalk mission. Then, two crewed missions were planned to the first Chinese space laboratory. The PRC initially designed the Shenzhou spacecraft with docking technologies imported from Russia, therefore compatible with the International Space Station (ISS). On September 29, 2011, China launched Tiangong 1. This target module is intended to be the first step to testing the technology required for a planned space station.

On October 31, 2011, a Long March 2F rocket lifted the Shenzhou 8 uncrewed spacecraft which docked twice with the Tiangong 1 module. The Shenzhou 9 craft took off on 16 June 2012 with a crew of 3. It successfully docked with the Tiangong-1 laboratory on 18 June 2012, at 06:07 UTC, marking China's first manned spacecraft docking.[48] Another manned mission, Shenzhou 10, launched on 11 June 2013 . The Tiangong 1 target module is then expected to be deorbited.[49]

A second space lab, Tiangong 2, launched on 15 September 2016, 22:04:09 (UTC+8).[50] The launch mass was 8,600 kg, with a length of 10.4m and a width of 3.35m, much like the Tiangong 1. [51] Shenzhou 11 launched and rendezvoused with Tiangong 2 in October 2016, with an unconfirmed further mission Shenzhou 12 in the future. The Tiangong 2 brings with it the POLAR gamma ray burst detector, a space-Earth quantum key distribution and laser communications experiment to be used in conjunction with the Mozi ‘Quantum Science Satellite’, a liquid bridge thermocapillary convection experiment and a space material experiment. Also included is a stereoscopic microwave altimeter, a space plant growth experiment, and a multi-angle wide-spectral imager and multi-spectral limb imaging spectrometer. Onboard TG-2 there will also be the world’s first-ever in-space cold atomic fountain clock. [52]

Space station

Shenzhou 5 re-entry module

A larger basic permanent space station (基本型空间站) would be the third and last phase of Project 921. This will be a modular design with an eventual weight of around 60 tons, to be completed sometime before 2020. The first section, designated Tiangong 3, is scheduled for launch after Tiangong 2.[53] Tiangong 3 will weigh 22 tons and be 18.1 metres long. Additional modules will be connected over several missions to build the space station.

This could also be the beginning of China's crewed international cooperation, the existence of which was officially disclosed for the first time after the launch of Shenzhou 7.[54]

The Chinese space station is scheduled to be completed in 2020.[55]

Proposed lunar exploration

In February 2004, the PRC formally started the implementation phase of its uncrewed Moon exploration project. According to Sun Laiyan, administrator of the China National Space Administration, the project will involve three phases: orbiting the Moon; landing; and returning samples. The first phase planned to spend 1.4 billion renminbi (approx. US$170 million) to orbit a satellite around the Moon before 2007, which is ongoing. Phase two involves sending a lander before 2010. Phase three involves collecting lunar soil samples before 2020.

On November 27, 2005, the deputy commander of the crewed spaceflight program announced that the PRC planned to complete a space station and a crewed mission to the Moon by 2020, assuming funding was approved by the government.

On December 14, 2005, it was reported "an effort to launch lunar orbiting satellites will be supplanted in 2007 by a program aimed at accomplishing an uncrewed lunar landing. A program to return uncrewed space vehicles from the moon will begin in 2012 and last for five years, until the crewed program gets underway" in 2017, with a crewed Moon landing some time after that.[56]

Nonetheless, the decision to develop a totally new moon rocket in the 1962 Soviet UR-700M-class (Project Aelita) able to launch a 500-ton payload in LTO and a more modest 50 tons LTO payload LV has been discussed in a 2006 conference by academician Zhang Guitian (张贵田), a liquid propellant rocket engine specialist, who developed the CZ-2 and CZ-4A rockets engines.[57][58][59]

On June 22, 2006, Long Lehao, deputy chief architect of the lunar probe project, laid out a schedule for China's lunar exploration. He set 2024 as the date of China's first moonwalk.[60]

In September 2010, it was announced that the country is planning to carry out explorations in deep space by sending a man to the Moon by 2025. China also hopes to bring a moon rock sample back to Earth in 2017, and subsequently build an observatory on the Moon's surface. Ye Peijian, Commander in Chief of the Chang’e programme and an academic at the Chinese Academy of Sciences, added that China has the "full capacity to accomplish Mars exploration by 2013."[61][62]

On December 14, 2013[63] China's Chang'e 3 became the first object to soft-land on the Moon since Luna 24 in 1976.[64]

As indicated by the official Chinese Lunar Exploration Program insignia, denoted by a calligraphic Moon ideogram (月) in the shape of a nascent lunar crescent, with two human footsteps at its center, the ultimate objective of the program is to establish a permanent human presence on the Earth's natural satellite.

Yang Liwei declared at the 16th Human in Space Symposium of International Academy of Astronautics (IAA) in Beijing, on May 22, 2007 that building a lunar base was a crucial step to realize a flight to Mars and farther planets.[65]

According to practice, since the whole project is only at a very early preparatory research phase, no official crewed Moon program has been announced yet by the authorities. But its existence is nonetheless revealed by regular intentional leaks in the media.[66] A typical example is the Lunar Roving Vehicle (月球车) that was shown on a Chinese TV channel (东方卫视) during the 2008 May Day celebrations.

Mission to Mars and beyond

Sun Laiyan, administrator of the China National Space Administration, said on July 20, 2006 that China would start deep space exploration focusing on Mars over the next five years, during the Eleventh Five-Year Plan (2006–2010) Program period.[67]

The first uncrewed Mars exploration program could take place sometime between now and 2033, followed by a crewed phase in 2040-2060.[68] The Mars 500 study of 2011 prepared for this manned mission.

Moreover, in order to make crewed flight in deep space toward Mars safer, a space weather forecast system will be completed by 2017 with the Kuafu[69] mission satellites placed at the Lagrangian Point L1.[70]

The Chief designer of the Shenzhou spacecraft has stated in 2006 in an interview that:

Space-based solar power

According to the China Academy of Space Technology (CAST) presentation at the 2015 International Space Development Congress in Toronto, Canada, Chinese interest in space-based solar power began in the period 1990–1995. By 2011 there was a proposal for a national program, with advocates such as Pioneer Professor Wang Xiji stating in an article for the Ministry of Science and technology that "China had built up a solid industrial foundation, acquired sufficient technology and had enough money to carry out the most ambitious space project in history. Once completed, the solar station, with a capacity of 100MW, would span at least one square kilometre, dwarfing the International Space Station and becoming the biggest man-made object in space" and "warned that if it did not act quickly, China would let other countries, in particular the US and Japan, take the lead and occupy strategically important locations in space."[72] Global Security cites a 2011-01 Journal of Rocket propulsion that articulates the need for 620+ launches of their Long March-9 (CZ-9) heavy lift system for the construction of an orbital solar power plant with 10,000 MW capacity massing 50,000 tonnes.[73]

Impression of the Chinese Space Station by the artist

By 2013 there was a national goal, that "the state has decided that power coming from outside of the earth, such as solar power and development of other space energy resources, is to be China's future direction" and the following roadmap was identified: "In 2010, CAST will finish the concept design; in 2020, we will finish the industrial level testing of in-orbit construction and wireless transmissions. In 2025, we will complete the first 100kW SPS demonstration at LEO; and in 2035, the 100MW SPS will have electric generating capacity. Finally in 2050, the first commercial level SPS system will be in operation at GEO."[74] The article went on to state that "Since SPS development will be a huge project, it will be considered the equivalent of an Apollo program for energy. In the last century, America's leading position in science and technology worldwide was inextricably linked with technological advances associated with implementation of the Apollo program. Likewise, as China's current achievements in aerospace technology are built upon with its successive generations of satellite projects in space, China will use its capabilities in space science to assure sustainable development of energy from space."[74]

In 2015, the CAST team won the International SunSat Design Competition with their video of a Multi-Rotary Joint concept.[75] The design was presented in detail in a paper for the Online Journal of Space Communication.[76][77]

In 2016, Lt Gen. Zhang Yulin, deputy chief of the [PLA] armament development department of the Central Military Commission, suggested that China would next begin to exploit Earth-Moon space for industrial development. The goal would be the construction of space-based solar power satellites that would beam energy back to Earth.[1][2]

Goals

The China National Space Administration stated that their long-term goals are:

  • Improve their standing in the world of space science
  • Establish a crewed space station
  • Crewed missions to the moon[78]
  • Establish a crewed lunar base[79]
  • Unmanned mission to Mars
  • Exploit Earth-Moon space for industrial development. The goal would be the construction of space-based solar power satellites that would beam energy back to Earth.[1][2]

List of projects

Satellites and science

Satellite launch center

  • Hainan Spaceport Fourth and southernmost space center, will be upgraded to suit the new CZ-5 Heavy ELV and crewed lunar missions

Launch vehicles

  • LM-5D
  • Air-Launched SLV able to place a 50 kilogram plus payload to 500 km SSO[88]
  • Kaituozhe-2
  • Kaituozhe-1 (开拓者一号), KT-1A (开拓者一号甲), KT-2 (开拓者二号), KT-2A (开拓者一二甲) New class of all-solid orbital launch vehicles
  • Kaituozhe-1B (开拓者一号乙) with addition of two solid boosters[89]
  • CZ-1D based on a CZ-1 but with a new N2O4/UDMH second stage
  • CZ-2E(A) Intended for launch of Chinese space station modules. Payload capacity up to 14 tons in LEO and 9000 (kN) liftoff thrust developed by 12 rocket engines, with enlarged fairing of 5.20 m in diameter and length of 12.39 m to accommodate large spacecraft[90]
  • CZ-2F/G Modified CZ-2F without escape tower, specially used for launching unmanned missions such as Shenzhou cargo and space laboratory module with payload capacity up to 11.2 tons in LEO[91]
  • CZ-3B(A) More powerful Long March rockets using larger-size liquid propellant strap-on motors, with payload capacity up to 13 tons in LEO
  • CZ-3C Launch vehicle combining CZ-3B core with two boosters from CZ-2E
  • Chang Zheng 5 Second generation ELV with more efficient and nontoxic propellents (25 tonnes in LEO)
  • Chang Zheng 6 or Small Launch Vehicle, with short launch preparation period, low cost and high reliability, to meet the launch need of small satellites up to 500 kg to 700 km SSO, first flight for 2010; with Fan Ruixiang (范瑞祥) as Chief designer of the project[92][93][94]
  • Chang Zheng 7 used for Phase 4 of Lunar Exploration Program (嫦娥-4 工程), that is permanent base (月面驻留) expected for 2024; Second generation Heavy ELV for lunar and deep space trajectory injection (70 tonnes in LEO), capable of supporting a Soviet L1/L3-like lunar landing mission[95]
  • Project 921-3 Space Shuttle – second generation manned spacecraft Shenlong Spaceplane
  • HTS Maglev Launch Assist Space Shuttle New second generation manned, reusable spacecraft
  • Long March 9
  • Long March 11

Space exploration

Insignia of the Chinese Lunar Exploration Program (CLEP)
  • Project 921-1Shenzhou spacecraft
  • Project 921-11 – X-11 spacecraft
  • Project 921-2 – Chinese Space Laboratory and Chinese Permanent Space Station, short term and then permanent occupation[96][97]
  • Shenzhou Cargo (货运飞船) – unmanned version of the Shenzhou spacecraft to resupply the Chinese Permanent Space Station and return cargo back to Earth
  • Tianzhou – unmanned cargo vessel to resupply the Chinese Permanent Space Station based on the design of Tiangong-1, not meant for reentry, but usable for garbage disposal.[98][99]
  • Chinese Lunar Exploration Program
    • First phase lunar program (嫦娥-1 工程) – launched in 2007 with CZ-3A: two unmanned lunar orbital probes
    • Second phase lunar program (嫦娥-2 工程) – launched in 2013 with CZ-5/E:first Moon landing of a couple of rovers
    • Third phase lunar program (嫦娥-3 工程) – to be launched in 2019 with CZ-5/E: automated Moon landing and return sample[100]
    • Fourth phase lunar program (嫦娥-4 工程) – to be launched in 2024 with CZ-7: manned mission and permanent bases (月面驻留)[101]
  • Chinese exploration of Mars – The Yinghuo-1 orbiter was launched in November 2011 in the joint Fobos-Grunt mission with Russia, but it failed to leave Earth orbit and underwent destructive re-entry on 15 January 2012. Further planned missions include rover landers and possible crewed missions in the far future. Anatoly Perminov, head of the Russian Space Agency has revealed in September 2006 in RIA Novosti that China was about to sign a contract by the end of 2006 to participate in a Russian project to bring soil back to Earth from Phobos, one of Mars two moons.[102] The mission will also collect samples on Mars, according to Xinhua.[103] Five decades after the first American mission to Mars, the People's Daily announced that China was finally "technically ready to explore Mars".[104]
  • Deep space exploration – spacefaring through the entire Solar system

Research

The Center for Space Science and Applied Research (CSSAR), was founded in 1987 by merging the former Institute of Space Physics (i.e. the Institute of Applied Geophysics founded in 1958) and the Center for Space Science and Technology (founded in 1978). The research fields of CSSAR mainly cover 1. Space Engineering Technology; 2. Space Weather Exploration, Research, and Forecasting; 3. Microwave Remote Sensing and Information Technology.

See also

References

  1. 1 2 3 "Exploiting earth-moon space: China's ambition after space station". news.xinhuanet.com. Retrieved 2016-05-22.
  2. 1 2 3 宋薇. "Exploiting earth-moon space: China's ambition after space station". www.chinadaily.com.cn. Retrieved 2016-05-22.
  3. Dillow, Clay (March 28, 2017). "China's secret plan to crush SpaceX and the US space program".
  4. de selding, Peter B. (June 8, 2017). "U.S. Defense Department summarizes China's 2016 space program".
  5. "China's quantum satellite makes breakthrough in secure communications". Reuters. 2017.
  6. Koren, Marina. "China's Growing Ambitions in Space". The Atlantic.
  7. "Chinese Experiment Reaches Space Station in Historic First". Space.com.
  8. "China to open space station to scientists worldwide". Space Daily.
  9. "Space Partnership Proposed Between Russia And China On Lunar Missions And Space Station". The Inquisitr. 23 June 2017.
  10. "With a Strong Partner Like Russia, Nothing Would Stop China's New Space Station". Space Daily.
  11. Pease, Roland (15 June 2017). "China's quantum satellite in big leap". BBC News.
  12. "中国航天大事记(1956~2005)". CNSA. 2006-05-17. Archived from the original on May 15, 2008. Retrieved May 2, 2008.
  13. "赵九章与中国卫星". 中国科学院. 2007-10-16. Archived from the original on March 14, 2008. Retrieved July 3, 2008.
  14. 1 2 "中国第一枚自行设计制造的试验 探空火箭T-7M发射场遗址". 南汇医保信息网. 2006-06-19. Archived from the original on February 14, 2009. Retrieved May 8, 2008.
  15. "解密—640工程:中国超级反导大炮项目 图". 第三媒体. 2006-09-02. Archived from the original on May 10, 2008. Retrieved May 4, 2008.
  16. "回收生物返回舱". 雷霆万钧. September 19, 2005. Archived from the original on December 22, 2005. Retrieved July 24, 2008.
  17. "首批航天员19人胜出 为后来积累了宝贵的经验". 雷霆万钧. September 16, 2005. Archived from the original on December 22, 2005. Retrieved July 24, 2008.
  18. "第一艘无人试验飞船发射成功—回首航天路". cctv.com. October 5, 2005. Retrieved August 2, 2007.
  19. "《东方红卫星传奇》". 中国中央电视台. 2007-07-03. Retrieved August 29, 2008.
  20. "江泽民总书记为长征-2F火箭的题词". 平湖档案网. January 11, 2007. Archived from the original on October 8, 2011. Retrieved July 21, 2008.
  21. "中国机械工业集团公司董事长任洪斌一行来中国运载火箭技术研究院考察参观". 中国运载火箭技术研究院. 2008-07-28. Archived from the original on February 13, 2009. Retrieved July 28, 2008.
  22. "江泽民为"神舟"号飞船题名". 东方新闻. 2003-11-13. Retrieved July 21, 2008.
  23. "中国战略秘器"神龙号"空天飞机惊艳亮相". 大旗网. 2008-06-06. Archived from the original on December 23, 2007. Retrieved July 21, 2008.
  24. "基本概况". 中国科学院上海光学精密机械研究所. 2007-09-07. Retrieved July 21, 2008.
  25. "金怡濂让中国扬威 朱镕基赞他是"做大事的人"". 搜狐. 2003-02-23. Retrieved July 21, 2008.
  26. "Status of International Agreements relating to activities in outer space as at 1 January 2014" (PDF). United Nations Office for Outer Space Affairs. Retrieved 26 March 2015.
  27. "中方反对美以出售禁运武器为由制裁中国公司". 新浪. 2007-01-09. Retrieved August 21, 2008.
  28. 1 2 Ian Sample. "US scientists boycott Nasa conference over China ban". The Guardian. Retrieved 5 October 2013.
  29. Seitz, Virginia (11 September 2011), "Memorandum Opinion for the General Counsel, Office of Science and Technology Policy" (PDF), Office of Legal Counsel, 35, archived from the original (PDF) on 13 July 2012, retrieved 23 May 2012
  30. 1 2 Oberhaus, Daniel (October 18, 2016). "Will NASA Ever Work With China?". Popular Mechanic. Retrieved July 31, 2018.
  31. 1 2 Kavalski, Emilian (2016). The Ashgate Research Companion to Chinese Foreign Policy. Oxon: Routledge. p. 404. ISBN 9781409422709.
  32. Sample, Ian (2013-10-05). "US scientists boycott Nasa conference over China ban". the Guardian. Retrieved 2018-07-31.
  33. "航天科技游圣地—东风航天城". 新华网内蒙古频道. 2007-12-05. Archived from the original on 2009-07-24. Retrieved May 7, 2008.
  34. "烟台航天城"起航"了 力争成我国航天技术发展基地". 水母网. 2005-04-02. Retrieved May 9, 2008.
  35. "烟台大众网一神舟六号专题:513所简介". 烟台大众网. 2007-06-06. Retrieved May 9, 2008.
  36. "航天○六一基地自主创新促发展". 国家航天局网. 2008-07-14. Archived from the original on September 29, 2008. Retrieved July 22, 2008.
  37. "军事史话(第七部) 导弹部队史话". 蓝田玉PDF小说网. 2008-03-01. Archived from the original on October 7, 2008. Retrieved June 4, 2008.
  38. "贝时璋院士:开展宇宙生物学研究". 新浪. 2006-11-15. Retrieved May 8, 2008.
  39. "远望六号航天测量船交付将执行神七任务". 人 民 网. 2008-04-14. Retrieved April 15, 2008.
  40. "我国首颗中继卫星发射成功 将测控神七飞行". 人 民 网. 2008-04-26. Retrieved April 27, 2008.
  41. "天链一号01星发射现场DV实录". 新浪. 2008-04-27. Retrieved May 5, 2008.
  42. "精密测轨嫦娥二号 "即拍即显"". 上海科技. 2008-06-18. Archived from the original on February 13, 2009. Retrieved June 18, 2008.
  43. "海南省三亚市新型综合航天测控站建成并投入使用". 中国政府网. 2008-04-25. Retrieved April 25, 2008.
  44. "South Tarawa Island, Republic of Kiribati". Global Security. Retrieved 29 June 2012.
  45. Londoño, Ernesto (July 28, 2019). "From a Space Station in Argentina, China Expands Its Reach in Latin America". The New York Times.
  46. "Chinese Crewed Capsule 1978". Encyclopedia Astronautica. Archived from the original on 2012-08-28. Retrieved 2009-05-13. "Archived copy". Archived from the original on 2012-08-28. Retrieved 2009-05-13.
  47. "China's Crewed Space Program Takes the Stage at 26th National Space Symposium". The Space Foundation. April 10, 2010. Archived from the original on April 12, 2010. Retrieved March 15, 2010.
  48. Jonathan Amos (18 June 2012). "Shenzhou-9 docks with Tiangong-1". BBC. Retrieved 21 June 2012.
  49. "Chinese Shenzhou craft launches on key space mission". BBC News. October 31, 2011. Retrieved December 6, 2014.
  50. Katie Hunt and Deborah Bloom (15 September 2016). "China launches Tiangong-2 space lab". CNN. Retrieved 26 September 2016.
  51. Rui Barbosa (14 September 2016). "China launches Tiangong-2 orbital module". NASASPACEFLIGHT.com. Retrieved 26 September 2016.
  52. Rui Barbosa (14 September 2016). "China launches Tiangong-2 orbital module". NASASPACEFLIGHT.com. Retrieved 26 September 2016.
  53. David, Leonard (2011-03-11). "China Details Ambitious Space Station Goals". SPACE.com. Retrieved 2011-03-09. China is ready to carry out a multiphase construction program that leads to the large space station around 2020. As a prelude to building that facility, China is set to loft the Tiangong-1 module this year as a platform to help master key rendezvous and docking technologies.
  54. "权威发布:神舟飞船将从神八开始批量生产". 新华网. 2008-09-26. Archived from the original on September 29, 2008. Retrieved September 26, 2008.
  55. "China takes first step towards space station". September 20, 2011.
  56. http://www.cio-today.com/news/China-To-Send-People-to-Moon/story.xhtml?story_id=032001DRNFR4%5Bpermanent+dead+link%5D
  57. "针对我们国家登月火箭的猜测". 虚幻军事天空. Archived from the original on 2016-03-04. Retrieved 2007-11-20.
  58. "中国载人登月火箭及其动力系统设想". 国家航天局网. 2006-07-25. Archived from the original on March 14, 2008. Retrieved May 9, 2008.
  59. "河北院士联谊". 河北院士联谊会秘书处. Archived from the original on 2007-09-14. Retrieved 2007-11-20.
  60. "news.com.com". news.com.com. Retrieved 2013-11-16.
  61. "China a Step Ahead in Space Race". The Wall Street Journal. September 28, 2010.
  62. "China to send man to moon by 2025". French Tribune. 2010-09-21. Retrieved 2013-11-16.
  63. "China lands Jade Rabbit robot rover on Moon". BBC. 14 December 2013.
  64. Simon Denyer (December 14, 2013). "China carries out first soft landing on moon in 37 years". Washington Post.
  65. "Astronauts share their experiences". People Daily. 2007-05-22. Retrieved May 22, 2007.
  66. "China has no timetable for crewed moon landing". Xinhua News Agency. 2007-11-26. Archived from the original on 2009-02-14. Retrieved 2008-10-07.
  67. People's Daily Online - Roundup: China to develop deep space exploration in five years
  68. "中国嫦娥探月工程进展顺利 进度将有望加快-军事频道-中华网-中国最大职业人士门户". Archived from the original on 2012-02-09. Retrieved 2017-08-11.
  69. 1 2 我国目光超越月球 "夸父计划"雄心勃勃-科技-人民网
  70. People's Daily Online. "China plans new space project probing Sun-Earth environment"
  71. "戚发韧:神六后中国航天面临极大挑战". 人 民 网. 2006-01-15. Retrieved May 13, 2008.
  72. Thevision (2011-09-04). "Billion Year Plan: China Space Agency Looks To Capture Sun's Power". Billion Year Plan. Retrieved 2016-05-22.
  73. Pike, John. "CZ-9 Chinese Manned Lunar Booster". www.globalsecurity.org. Retrieved 2016-05-22.
  74. 1 2 Communication, Online Journal of Space. "Online Journal of Space Communication". spacejournal.ohio.edu. Retrieved 2016-05-22.
  75. https://www.youtube.com/watch?v=XhgJwnpYRGc
  76. http://spacejournal.ohio.edu/issue18/cast.html
  77. Communication, Online Journal of Space. "Online Journal of Space Communication". spacejournal.ohio.edu. Retrieved 2016-05-22.
  78. "Senior officer expects moon visit by 2036".
  79. "China's plans for the Moon, Mars and beyond".
  80. "中国深空前沿:军事潜力巨大的小卫星研究(组图)". 腾讯新闻. 2004-07-19. Retrieved May 3, 2008.
  81. "The first Sino-European satellite completes its mission". ESA. 16 Oct 2007. Retrieved 29 September 2011.
  82. "我国现役和研制中的卫星与飞船谱系图:上排右一会不会是TL-2". 虚幻天空. 2008-06-08. Archived from the original on 2016-03-03. Retrieved June 8, 2008.
  83. "China constructs space information "highway"". People Daily. 2007-05-23. Retrieved May 23, 2007.
  84. "硬X射线调制望远镜HXMT". 硬X射线天文望远镜项目组. 2004-04-16. Archived from the original on 2007-01-07. Retrieved July 14, 2008.
  85. "China pulls plug on solar observatory". Science. 2014-10-31.
  86. "500米口径球面射电望远镜(FAST)". 中科院大科学装置办公室. 2008-04-21. Archived from the original on February 11, 2009. Retrieved June 23, 2008.
  87. "After US, China plans 'Deep Impact' mission - The Economic Times". Reuters. Web.archive.org. Archived from the original on August 30, 2005. Retrieved 2013-11-16.
  88. "空射运载火箭亮相珠海航展". 新华网. 2006-11-01. Archived from the original on February 7, 2008. Retrieved May 3, 2008.
  89. "开拓者一号乙固体运载火箭". 虚幻军事天空. 2008-07-17. Archived from the original on 2016-03-03. Retrieved July 18, 2008.
  90. "CZ-2EA地面风载试验". 中国空气动力研究与发展中心. 2008-02-04. Archived from the original on February 13, 2009. Retrieved June 30, 2008.
  91. "独家:"神八"将用改进型火箭发射 2010年左右首飞". 人民网. June 25, 2008. Retrieved June 26, 2008.
  92. "让年轻人与航天事业共同成长". 中国人事报. 2008-03-14. Archived from the original on 2011-07-15. Retrieved July 19, 2008.
  93. 中国科学技术协会 (2007). 航天科学技术学科发展报告. Beijing, PRC: 中国科学技术协会出版社. p. 17. ISBN 7504648663. Archived from the original on 2008-09-11.
  94. "国际空间大学公众论坛关注中国航天(3)". People Daily. 2007-07-11. Retrieved July 13, 2007.
  95. "Chinese Crewed Space Program: The Future". Go Taikonauts!. 2006-02-04. Archived from the original on 2007-10-31. Retrieved August 2, 2007.
  96. "中国空间实验室". 虚幻军事天空. 2006-02-13. Archived from the original on 2016-03-07. Retrieved July 9, 2008.
  97. "中国航天921-III计划". 虚幻军事天空. 2008-07-15. Archived from the original on 2016-03-03. Retrieved April 28, 2008.
  98. "China expects to launch cargo ship into space around 2016". Space Daily. 6 March 2014.
  99. Morris Jones (3 March 2014). "The Next Tiangong". Space Daily.
  100. Nowakowski, Tomasz (9 August 2017). "Chine Eyes Manned Lunar Landing by 2036". Retrieved 17 August 2017.
  101. "我国将建首个月球天文台". 新浪网. 2005-11-04. Retrieved July 18, 2008.
  102. "Russia, China could sign Moon exploration pact in 2006". RIA Novosti. 2006-09-11. Retrieved September 12, 2006.
  103. "China and Russia to launch joint mission to Mars". PhysOrg.com. 2006-08-23. Archived from the original on August 31, 2006. Retrieved September 11, 2006.
  104. "China is technically ready to explore Mars."
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.