Long March 10
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 1:10 scale model of the Long March 10 at the National Museum of China | |
| Function | Super heavy-lift launch vehicle |
|---|---|
| Manufacturer | China Academy of Launch Vehicle Technology |
| Country of origin |  People's Republic of China |
| Size | |
| Height | 89–93.2 m (292–306 ft) |
| Diameter | 5.0 m (16.4 ft) |
| Mass | 2,187,000–2,189,000 kg (4,822,000–4,826,000 lb) |
| Stages | 3 |
| Capacity | |
| Payload to Low Earth orbit | |
| Mass | 70,000 kg (150,000 lb) |
| Payload to Trans-lunar injection | |
| Mass | 27,000 kg (60,000 lb) |
| Associated rockets | |
| Family | Long March (rocket family) |
| Comparable |
|
| Launch history | |
| Status | In development |
| Boosters | |
| No. boosters | 2 |
| Diameter | 5 m (16 ft) |
| Powered by | 7 YF-100K |
| Maximum thrust | Sea level: 8,750 kN (1,970,000 lbf) Vacuum: 9,772 kN (2,197,000 lbf) |
| Total thrust | Sea level: 17,500 kN (3,900,000 lbf) Vacuum: 19,544 kN (4,394,000 lbf) |
| Specific impulse | Sea level: 301.6 s (2.958 km/s) Vacuum: 337 s (3.30 km/s) |
| Propellant | RP-1 / LOX |
| First stage | |
| Diameter | 5 m (16 ft) |
| Powered by | 7 YF-100K |
| Maximum thrust | Sea level: 8,750 kN (1,970,000 lbf) Vacuum: 9,772 kN (2,197,000 lbf) |
| Specific impulse | Sea level: 301.6 s (2.958 km/s) Vacuum: 337 s (3.30 km/s) |
| Propellant | RP-1 / LOX |
| Second stage | |
| Diameter | 5 m (16 ft) |
| Powered by | 2 YF-100M |
| Maximum thrust | 2,920 kN (660,000 lbf) |
| Specific impulse | 352.3 s (3.455 km/s) |
| Propellant | RP-1 / LOX |
| Third stage | |
| Diameter | 5 m (16 ft) |
| Powered by | 3 YF-75E |
| Maximum thrust | 276.3 kN (62,100 lbf) |
| Specific impulse | 451.1 s (4.424 km/s) |
| Propellant | LH2 / LOX |
Long March 10[1] (Chinese: 长征十号), also known as the “Next Generation crewed launch vehicle” (Chinese: 新一代载人运载火箭), and previously and unoffically as the “921 rocket” (Chinese: 921火箭) or the "Long March 5G" (a development of the Long March 5), is a Chinese super-heavy carrier rocket for crewed lunar missions that is currently under development. The nickname "921" refers to the founding date of China's human spaceflight program. In 2022, the first flight of the Long March 10 was targeted for 2027.[2] By January 2024, the first flight's target was moved up to 2025-26.[3]In an April 2024 update, it was announced that program development of the vehicle was complete.[4]
The standard Long March 10 will be capable of lifting 70 tonnes into low Earth orbit (LEO) and 27 tonnes into trans-lunar injection trajectories.[5]
There are also plans for a variant, the Long March 10A,[6] which is designed primarily for future low Earth orbit crew and cargo transport to the Chinese Space Station. It will be partially reusable and capable of lifting at least 14 tonnes into LEO.[5]
Overview[edit]
The Long March 10 is a human-rated super heavy launch vehicle designed to launch China's Mengzhou crewed lunar spacecraft and its future Lanyue crewed lunar lander, as part of its manned space program, codenamed Project 921. Its notional debut was at the 12th China International Aviation & Aerospace Exhibition in November 2018, where it was announced that the China Academy of Launch Vehicle Technology (CALT) is developing a vehicle with a lunar orbit capacity of up to 30 tons, meeting the requirements for crewed lunar exploration.[7] Documents and presentations in subsequent years depicted modified Long March 5 configurations known as CZ-5DY (pinyin abbreviation for 'Deng Yue' 登月 or lunar landing), CZ-5G, and CZ-5H.[2]
In February 2023, at the "30 Years of China's Manned Spaceflight" exhibition held at the National Museum of China, a model of the next-generation crew launch vehicle was labeled as "Long March 10." An article later published by China Aerospace Science and Technology Corporation also used the term "Long March 10" to refer to the rocket.[1][7]
Configuration[edit]
The standard variant of the vehicle consists of two boosters, first, second and third stage cores, escape tower, and fairing. The first-stage core and the two boosters each has a diameter of 5.0 meters and is equipped with 7 YF-100K engines (for a total of 21 operational engines at liftoff). The second-stage core has a diameter of 5.0 meters and is equipped with 2 YF-100M engines. The third-stage core has a diameter of 5.0 meters and is equipped with 3 YF-75E engines.[2][7][8] The vehicle's total length is approximately 90 meters, with a liftoff weight of 2,187 tons. The diameter of its core stage is the same as that of the Long March 5, but its height is about one-third taller.
The rocket has a payload capacity of 70 tonnes to low Earth orbit and at least 27 tonnes to a trans-lunar injection trajectory.[9] The proposed crewed lunar mission would use two Long March 10s; the crewed spacecraft and the lunar landing stack would launch separately and subsequently rendezvous in lunar orbit, prior to a crewed lunar landing attempt.[10] The development of the rocket along with relatively detailed specifications were announced at the 2020 China Space Conference.[9]
The Long March 10A is a single stick variant with only 2 stages; it has 7 YF-100K engines on the first stage and a single YF-100M engine on the second stage, This variant is designed for low Earth orbit crew and cargo flights; it is part of the Chinese space program's plan to increase lift capacity, explore reusability, and phase out hypergolic fuels for its carrier fleet. The 10A will have a capability to low Earth orbit of at least 14 tonnes when the first stage is recovered and at least 18 tonnes when used in a completely expendable arrangement;[5] it will use kerosene as fuel and liquid oxygen as the oxidizer. The rocket's first stage will have restartable engines and grid fins to enable reuse after stage recovery.[6] First stage landing and recovery will employ "tethered landing devices" in lieu of landing legs; this tethered system involves the deployment of "hooks" by the stage which would be caught by a tensioned wire system on the ground.[5]
Precursor design[edit]
An old proposal from 1992 for China's "project 921" envisioned the adoption of a modular design for a new generation of human-rated launch vehicles that would allow various payload combinations ranging from 11 tons to 70 tons to low Earth orbit. One such combination would have allowed China to pursue its own crewed lunar exploration program, including lunar orbit, circumlunar, and lunar landing missions. This proposal was not adopted.[11] However, elements of this old proposal appear to have survived in the current Long March 10 designs.
History[edit]
Proposal and development[edit]
- 2017
- China Aerospace Science and Technology Corporation (CASC) initiated preliminary research on the next-generation crew launch vehicle.[7]
- CASC completes the first test run of the first-stage engine, YF-100K.[7]
- 2018
- 2019
- Sep, CASC announced the successful development of the first 5-meter diameter conical bottom structure storage tank, achieving a 15% weight reduction.[7]
- Oct, a project named "5-meter Diameter Module of the Next-Generation Crew Launch Vehicle – Overall Technology and Engineering Application" successfully passed the acceptance review organized by the CMSA.[7]
- Nov, CASC announced the successful development of a 5-meter liquid oxygen-kerosene storage tank.[7]
- 2020
- Oct, full-scale structural prototype of the thrust transfer structure, which parallel-mounts seven new liquid oxygen-kerosene engines on the first stage had been manufactured and completed static load testing.[7]
- 2022
- Jun 14, CASC conducts the first long-duration ignition test of the third-stage engine, YF-75E.[12]
- July 28, CASC conducts static and dynamic test of multiple engines in parallel[13]
- July 29, CASC conducts high-altitude, high-thrust long-duration test of the YF-75E third-stage engine.[12]
- Sep–Oct, CASC completes three test runs (650 seconds in total) of the second-stage engine, YF-100M, using a large-sized titanium alloy nozzle extension concept. The engine passed the 105% high-altitude and high mixture ratio assessments and met the overall requirements.[14][7]
- Oct, CASC announced that the cumulative test duration of the YF-75E third-stage engine had exceeded 10,000 seconds.[7]
- Nov 26, CASC completes the first two ignition test runs of the YF-100K first-stage engine, achieving breakthroughs in key technologies such as high-pressure staged combustion with two ignitions, low-pressure start-up, and continuous thrust variation for reusable engines[7]
- Nov–Dec, CASC conducted four consecutive test runs (a total of 2,100 seconds) of the YF-100K first-stage engine, with each engine working more than 8 times the mission duration.[7]
- 2023
- Feb 24, an exhibition held at the National Museum of China showed the next-generation crew launch vehicle was officially named "Long March 10".[7]
- March 29, the first eight-piece accumulator successfully passed the cryogenic shock and 1.4 MPa pressure tests. This component is used in the core stage's oxygen delivery system for the Long March 10.[7]
- May 19, CASC successfully completes grid fin deployment test for the next-generation crew launch vehicle. This test, conducted at the conceptual verification stage, verified the correctness of the grid fin design. The grid fin is an aerodynamic control mechanism for rockets, often referred to as the "small wings" of the rocket. When deployed, it helps maintain the rocket's stability during descent and enables precise landing of the booster stage.[15]
- May 28, CASC conducted the sixth test run of the YF-100K first-stage engine, with a cumulative test duration of 3,300 seconds, setting a new record for single-engine testing of a Chinese engine in the hundred-ton class.[7]
- May 29, CMSA commences the lunar landing phase (Phase 4) of the Chinese Lunar Exploration Program, with the Long March 10 being developed as the main vehicle for the program.[16]
- June 12, CASC completed the eighth test run of the YF-100K first-stage engine, with a cumulative test duration of 4,400 seconds, once again breaking the record for single-engine testing of a Chinese rocket engine in the hundred-ton class.[17]
- 2024
- April 24, Lin Xiqiang, deputy director of China Manned Space Agency (CMSA), stated that the development of various articles necessary for China's lunar missions such as the Long March 10 carrier rocket have been completed; he added that mechanical and thermal products for the Mengzhou, Lanyue, and possibly for the carrier rocket as well have also been completed and that the needed rocket engines are undergoing hot fire tests. Furthermore, the crewed lunar exploration launch site for the Long March 10 is currently under construction near the existing coastal Wenchang spaceport in Hainan province.[4]
See also[edit]
- China National Space Administration
- Comparison of orbital launchers families
- Comparison of orbital launch systems
- Falcon Heavy
- Long March 9
- Shenzhou spacecraft
- Space program of China
References[edit]
- ^ a b 汪淼 (2023-02-24). "我国新一代载人运载火箭命名为"长征十号",将用于登月任务" (in Simplified Chinese). IT之家. Retrieved 2023-02-25.
- ^ a b c Jones, Andrew (11 November 2022). "China's huge new crew-launching moon rocket could fly for 1st time in 2027". Space.com. Retrieved 18 November 2022.
- ^ 【长征十号甲载人运载火箭预计2025 2026年首飞】长征七号甲运载火箭副总设计师徐利杰:下一代运货以及载人运载火箭已经正式立项了,预计2025~2026年实现飞行, retrieved 2024-01-21
- ^ a b Jones, Andrew (24 April 2024). "China on track for crewed moon landing by 2030, space official says". SpaceNews. Retrieved 24 April 2024.
- ^ a b c d Jones, Andrew (6 March 2022). "China wants its new rocket for astronaut launches to be reusable". Space.com. Retrieved 5 October 2023.
- ^ a b https://twitter.com/CNSpaceflight/status/1677895887153160193
- ^ a b c d e f g h i j k l m n o p q r 中国航天科技集团. "2030年前实现载人登月!速览火箭飞船研制进展". 微信公众号. Retrieved 2023-05-30.
- ^ Jones, Andrew (17 December 2021). "China's new rocket for crewed moon missions to launch around 2026". SpaceNews. Retrieved 19 December 2021.
- ^ a b Jones, Andrew (October 1, 2020). "China is building a new rocket to fly its astronauts on the Moon". SPACE.com.
- ^ Jones, Andrew (October 30, 2020). "China outlines architecture for future crewed moon landings". SpaceNews.
- ^ Wade, Mark (2019). "Project 921".
- ^ a b "新一代载人运载火箭三级发动机试验再获成功". 中新网. Archived from the original on 2022-08-24. Retrieved 2022-08-24.
- ^ 许诺; 付毅飞 (2022-07-28). "我国新一代载人火箭有重要进展!_试验_技术_并联". 搜狐 (in Chinese). Archived from the original on 2022-07-28. Retrieved 2022-07-28.
- ^ "我国新一代载人火箭二级发动机取得重大突破". 央视网 (in Chinese). 2022-10-27. Retrieved 2023-05-31.
- ^ 长十火箭栅格舵展开试验成功!
- ^ "神舟十六号载人飞行任务新闻发布会召开". 中国载人航天官方网站. Retrieved 2023-05-30.
- ^ "我国载人登月主动力发动机试车时长纪录,再刷新!". 北京日报 (in Chinese (China)). Retrieved 2023-06-17.
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