What's new

China Outer Space Science, Technology and Explorations: News & Updates

今天上午九时许,远望21号、远望22号运载火箭运输船从江阴港出发前往天津港,随后将长征五号遥五运载火箭运往海南文昌,长征五号遥五运载火箭将于2020年11月24日发射我国首次月球采样返回任务即嫦娥五号月球探测器。我们的嫦娥五号来啦
[鼓掌]
[鼓掌]
[鼓掌]
#微博公开课##航天那些事儿# 详见航天爱好者网超话发射贴:O网页链接

Lin Xiaoyi
Today at 09:44 from the Space Enthusiast Network Super Talk Edited


At 9 o’clock this morning, the Yuanwang 21 and Yuanwang 22 rockets carrier ship departed from Jiangyin Port to Tianjin Port, from there they will then transport the Long March 5-Y5 carrier rocket to Wenchang, Hainan. The Long March 5-Y5 will launch China's first lunar sample return mission - Chang'e-5 on November 24, 2020.


今天 16:33 已编辑​
#嫦娥五号# 长征五号遥5火箭已从清澜港运往文昌航天发射场 ,火箭抵达发射场后按计划进行发射前各项测试准备工作。长征五号遥5火箭计划11月24日择机发射嫦娥五号探测器! LChina航天的微博视频

China Aerospace
60 minutes ago edited


#嫦娥五号# The Long March 5Y5 rocket has been transported from Hainan's Qinglan Port to Wenchang Space Launch Site. After the rocket arrives at the launch site, various pre-launch test preparations will be carried out as planned. The Long March 5Y5 rocket is set to launch the Chang'e 5 probe on November 24th!

Video link -> China航天的微博视频
 
. . .
Chinese Deep Space Exploration


Moon

2007: Chang'e-1 Orbiter
2010: Chang'e-2 Orbiter
2013: Chang'e-3 Softlanding, Rover
2018: Chang'e-4 Lander and Rover, Exploration of Far side of the Moon
2019: Chang'e-5 Return sample (in Oceanus Procellarum and collect 2 kilograms of regolith)
2024: Chang'e-6 Return sample (Exploration of South Pole of the Moon?)

Mars

2011: Yinghuo-1 Mars orbiter (failed)
2020: Orbiter (1 Martian Year), landing, cruising (90 Martian days for Rover)
2028: Sample Return (3 years mission)

Asteroids

2012: Chang'e-2 flyby of asteroid 4179 Toutatis
2024: Flying by, touch down or sample return; 2-3 asteroids explorations in one mission

Jupiter

2030: Orbiter launch

Arrival at Jupiter and its satellites by 2036

Saturn

Arrival at Saturn by 2045

Uranus

Arrival at Uranus by 2048

dbe7uofvqaa4j7e-jpg.467537

▲ Chinese Deep Space Exploration

:enjoy:

__________________________

Chinese Deep Space Exploration: Solar System Boundary Mission


Introduction

The three key directions of China's deep space exploration are by chronological and difficulty level order: the Earth's suburb with the Moon, the interplanetary neighborhood with Mars, the remote part of the interplanetary regions with the giant planets Jupiter, Saturn and Uranus.

And finally, the next frontier, uncharted Terra Incognita boundaries of our Solar System, bordering the next neighboring stellar systems, door to the interstellar space.

As far as we know this ultimate phase has no official name to date.

Therefore, Galactic Penguin names the first of the planned Interstellar Heliosphere Probes, after a famous Chinese ancient voyager and Admiral: "KOXINGA-1" (太阳系边际探测器“英雄郑成功一号”).

ee5e28fe33e5163e01f08fb4a19e2b07ff9e78ee.jpg

http://archive.vn/Qfpkm/ee5e28fe33e5163e01f08fb4a19e2b07ff9e78ee.jpg ; https://archive.vn/Qfpkm/20d856a958775ce1d1725578b9208ca7fae32167/scr.png ; http://web.archive.org/web/20200807.../2014/02/6c6b54a79635386c63762616598a6112.jpg
1. Admiral 'KOXINGA' Zheng Chengong's (郑成功) statue honored in Japan.

Full video 英雄郑成功(潇湘福建2001) Hero Zheng Chengong (2002)

https://www.youtube.com/watch?v=Ocs0dCD7BK0 英雄郑成功(潇湘福建2001). Posted Aug 25, 2017

As a legacy to Admiral 'KOXINGA' Zheng Chengong's acts of conspicuous gallantry in the presence of the European enemy land-grabbers and squatters, whether on land or at sea, his immortal feats would inspire and give courage four centuries later, to a full son of the Empire Of Japan's, Marshal-Admiral Togo Heihachiro, to repel the Northern Russian invaders who had illegally de facto seized Manchuria from the Qing Empire under the pretence of anti-Boxer-Rebellion intervention, in the epochal Battle of Tsushima in May 1905.

__________________________

Interstellar Heliosphere Probe's Design

For a mission that will see two probes sent in two opposite directions to reach the Interstellar space, the duration will exceed several decades to last over a century!

No power plant other than nuclear can be envisaged: a 10kW fast reactor thermoelectric generator.

To keep the radiation level below the critical threshold level, the reactor section will be separated by a lengthy boom from the sensitive electronic compartments of the probe.

Turned toward the Earth, ion thrusters will be fixed to the same section, together with the oversized deployable communication radio antenna.

4c2b4b64c9dbb7cb9d2039dd49ffc15acc9d66e0.jpg

https://archive.vn/K9UA0/4c2b4b64c9dbb7cb9d2039dd49ffc15acc9d66e0.jpg ; https://archive.vn/K9UA0/1c3ad7b3ef8ad3e6aa42ce779a8897217dcb1fb2/scr.png ; http://web.archive.org/web/20201013230402/https://pbs.twimg.com/media/EkOuSeUXcAYeM8f?format=jpg&name=medium
1. Admiral KOXINGA-1 Interstellar Heliosphere Probe.

c0aba09d20ae7a6351dc9891586198c4f912fcec.jpg

https://archive.vn/W593I/c0aba09d20ae7a6351dc9891586198c4f912fcec.jpg ; https://archive.vn/W593I/cec2e2bb000acf920241e1d8537ded7c6a54fab6/scr.png ; http://web.archive.org/web/20201013230338/https://pbs.twimg.com/media/EkOuSeFWoAEBjzb?format=jpg&name=medium
2. The three key directions of China's deep space exploration.

088d33a1d9b92e213d006d2b863b9a85c6aebba2.jpg

https://archive.vn/dWZvx/088d33a1d9b92e213d006d2b863b9a85c6aebba2.jpg ; https://archive.vn/dWZvx/9a2faabf866d9f6f2ae5d266e4056450ab65bfca/scr.png ; http://web.archive.org/web/20201013225117/https://pbs.twimg.com/media/EkOuSeFX0AAf5dP?format=jpg&name=large
3. 10kW fast reactor thermoelectric generator.

6e323515d66ee30841cae4a9a7318d3b72b3e685.gif

ae4ffdaeb02c2ea160fb33e41686a846f36755ca.gif

022c2d783cdf337beef335add6afdbf99880963d.png
4b7f704c1b6a7a2291742bd3986353bc70cc2569.png
 
Last edited:
.
State-owned space giant prepares for giant step in space
By Zhao Lei | chinadaily.com.cn | Updated: 2020-10-19 15:38

5f8d4258a31024adbd9ac95f.jpeg
The sixth China International Commercial Aerospace Forum opens in Wuhan, capital of Hubei's province, on Oct 19, 2020. [Photo by Zhao Lei/chinadaily.com.cn]

China Aerospace Science and Industry Corp, a State-owned space conglomerate, has made many strides in its commercial space businesses, according to a company executive.

Fu Zhimin, chief technical officer at CASIC, said at the opening ceremony of the sixth China International Commercial Aerospace Forum, which opened in Hubei's provincial capital of Wuhan on Monday morning, that his company has made many achievements in carrier rocket and satellite industries.

The State-owned giant has launched 11 Kuaizhou-series solid-propellant carrier rockets: two Kuaizhou 1s and nine Kuaizhou 1As, becoming a competitive player in the domestic space launch arena, he said.

It is now working on the development of what designers expect to be the most powerful solid-propellant rocket in China.

Once in service, the 25-meter Kuaizhou 11 will boast a liftoff weight of 78 metric tons and will be able to place a 1-ton payload into a sun-synchronous orbit at an altitude of 700 kilometer.

CASIC began to develop the Kuaizhou series in 2009 as a low-cost, quick-response product for the commercial space market. Kuaizhou is the largest solid-propellant rocket family in China, as opposed to the Long March series that mainly relies on liquid fuel.

In the satellite industry, CASIC's Hongyun system, China's first low-orbit broadband communications experimental system, has completed hundreds of in-orbit tests and produced a large quantity of data, laying a solid foundation for the construction of a space-based internet, Fu said.

Hongyun, currently consisting of a satellite and ground facilities, has effectively proven the technological feasibility of a low-orbit, satellite-enabled internet system. The company intends to place more than 150 Hongyun satellites into orbit about 1,000 kilometers above Earth by around 2023.

Once in full service, the system will allow online browsing, video display and instant messaging service in remote regions now having difficulties doing these things, he said.

Another major space-based asset of CASIC, Xingyun is China's first and only space-based internet of things network and now has two satellites. CASIC aims to deploy 12 Xingyun 2-series satellites in 2021 to join the first two such spacecraft and then establish a small system for trial run.

Fu said that in CASIC's plan, the Xingyun network will have about 80 low-orbiting, narrowband communications satellites upon its completion around 2023 and will provide global coverage to users by that time.

Once the network becomes fully operational, it will offer users round-the-clock access to the internet of things, which is defined as a network of almost all physical items, bringing numerous advantages to users ranging from better control of their devices and higher operational efficiency to optimized utilization of resources, the executive noted.

More than 200 government officials, company representatives and researchers took part in the forum's opening ceremony. Scientists, businesspeople and observers from China and nine foreign nations are expected to partake in several online themed discussions on Monday and Tuesday.
 
.
.
NEWS RELEASE 4-NOV-2020
FAST helps reveal the origin of fast radio bursts | EurekAlert! Science News
CHINESE ACADEMY OF SCIENCES HEADQUARTERS

IMAGE
Left: Time stamp of multi-band observations of SGR J1935+2154. Right: The detection threshold of FAST.
CREDIT: NAOC


Researchers from Beijing Normal University, Peking University and National Astronomical Observatories of the Chinese Academy of Sciences (NAOC) found that there is weak correlation between fast radio bursts(FRBs) and soft gamma-ray repeater J1935+2145(SGRs). The study was published in Nature on Nov. 4.

The detection of FRB 200428 associated with the galactic magnetar SGR J1935+2154 provides crucial clues to the generation of FRBs.

They used the Five-hundred-meter Aperture Spherical radio Telescope (FAST) to conduct multi-band joint observations of the Milky Way magnetar SGR J1935+2145.

In April, Dr. LIN Lin from Beijing Normal University, first author of the study, proposed monitoring SGR J1935+2154, a soft gamma-ray repeater showing FRB like pulses, to explore the origin of FRBs. FAST detected no pulse during the campaign, particularly around the arrival time of 29 high-energy bursts.

Combined with CHIME and STARE-2 detections?FAST's results cover eight orders of magnitude on the brightness scale, thus providing the most stringent limit to the radio flux of this Galactic fast radio burst (FRB) sources.

"The weak correlation could be explained by special geometry and/or limited bandwidth of FRBs," said Prof. ZHANG Bing from University of Nevada, corresponding author of the study. "The observations of SGR J1935 start to reveal the magnetar origin of FRBs, although other possibilities still exist."

While continuing the monitoring of SGR J1935+2154, the unprecedented sensitivity of FAST has potential for revolutionizing our understanding of radio transients. In May of this year, Prof. ZHU Weiwei from NAOC, co-author of the study, published the first new FRB discovered by FAST.

According to Prof. LI Di, co-corresponding author of the study, FAST's chief scientist, "FAST has discovered more than five new FRBs and has detected more than 1,600 pulses from known repeating sources. FAST is and will be making unique contributions to this young and active field."


 
.
China's advanced radio telescope identifies 240 pulsars
Source: Xinhua| 2020-11-05 16:33:30|Editor: huaxia

BEIJING, Nov. 5 (Xinhua) -- China's Five-hundred-meter Aperture Spherical Radio Telescope (FAST), the world's largest single-dish radio telescope, has identified more than 240 pulsars, according to the National Astronomical Observatories of the Chinese Academy of Sciences.

Based on the data collected by FAST, scientists have published over 40 quality papers. With the help of the advanced telescope, Chinese research teams have become a key force in studying fast radio bursts.

Researchers from the National Astronomical Observatories used FAST to observe a repetitive fast radio burst called FRB180301 and found various polarization angle swings, which gives an insight into the origin of fast radio bursts. The research was published in the journal Nature in October.

Researchers from Beijing Normal University, Peking university and the National Astronomical Observatories used FAST to detect an extremely intense radio burst from the Galactic magnetar SGR 1935+2154 and found the phenomenon to be related to very special physical conditions. The research was published in the journal Nature on Thursday.

FAST has immense potential to detect fast radio bursts and gravitational waves, providing data support for research into the physical process of the Big Bang.
 
.
近日,北京天兵科技有限公司(以下简称天兵科技)首台“天火三号”(TH-3)液体火箭发动机在北京天兵总装基地完成全系统总装工作。通过一年多的研制,天兵科技独立研制、拥有自主知识产权的30吨HCP液体发动机日前破壳露出真容。
天火三号发动机主要由头部装置、燃烧室、喷管、点火装置组成,作为国内首台大吨位HCP液体火箭发动机,具有高性能、无毒无污染、常温贮存、多次重复点火和深度变推能力,大幅降低了发动机零组件数量和成本的同时,也同步提升了发动机产品的可靠性。​

Missile hit_Aerospace
57 minutes ago from Honor 30 5G


Recently, Beijing Tianbing Technology Co., Ltd. (hereinafter referred to as Tianbing Technology)'s first "Tianhuo-3" (TH-3) liquid rocket engine completed the system-wide assembly work at the Beijing Tianbing Assembly Base. After more than a year of research and development, the 30-ton HCP liquid engine independently developed by Tianbing Technology and with independent intellectual property rights has recently broken its veil to show its true appearance.

Tianhuo No. 3 engine is mainly composed of head unit, combustion chamber, nozzle, and ignition device. As the first large-tonnage HCP liquid rocket engine in China, it has high performance, non-toxic and pollution-free, normal temperature storage, multiple repeated ignitions and deep variable thrust Ability, which greatly reduces the number and cost of engine components, while simultaneously improving the reliability of engine products.

1604636401425.png

1604636438139.png
 
.
近日,火箭院703所牵头,联合总体设计部研制出我国首个“3.35米铝锂合金箱底”。该箱底为整体成形,一条焊缝都没有,而且材料实现了升级换代,标志着我国运载火箭贮箱制造技术取得重大突破!(最后一张图是传统箱底)​

Missile hit_Aerospace
Today at 07:42 from Honor 30 5G


Recently, CATL 703 Institute led the joint overall design department to develop China’s first "3.35m aluminum-lithium alloy tank bottom". The tank bottom is integrally formed, there is no weld, and the material has been upgraded, marking a major breakthrough in the manufacturing technology of China's launch vehicle propellant tank!

1604675408587.png

1604675282103.png
 
.
China sets targets for smart, recoverable and reusable launch vehicles

1604676245629.png



HELSINKI — China’s main space contractor is developing launch vehicles capable of learning and adapting as well as multiple technologies for recovering and reusing rockets.

China will develop a first launch vehicle capable of vertical takeoff, vertical landing by 2025, Wu Yansheng, a senior official with the China Aerospace Science and Technology Corporation (CASC), said at a major conference (Chinese) in Chengdu, southwest China Nov. 3.

Wu, presenting on the prospects for space transportation system development, also stated that CASC is working on rockets capable of learning and acting autonomously.

The efforts, involving the China Academy of Launch Vehicle Technology (CALT), one of two major launch vehicle entities under CASC, would see existing launchers upgraded to be capable of making adjustments to changes in, for example thrust, and returning data to the ground for the benefit of future missions. Tests involving the Long March 2C are expected in the near future.

According to media reports the “intelligent” rockets would carry guidance, navigation and control systems capable of reacting to multi-source information including flight status, trajectory and environmental conditions.

Statistics were offered claiming that from 1990 to 2000, about 40% of launch vehicle failures in Europe, US, Japan, and Russia could have been avoided through advanced GNC technology, allowing the mission to be completed or remedied to prevent complete failure, such as entering alternative orbits.

Wu said 2035 would already be the era of smart launch vehicles. Wu underlined launch capacity, reliability and safety, launch costs and development efficiency as four dimensions to evaluate China’s capabilities with regards access to space.

Vertical takeoff, vertical landing
CASC’s first VTVL launcher was expected to be the Long March 8, a new liquid kerosene-liquid oxygen launcher which builds on technology developed for the Long March 7. Animations suggest the first stage will land on a sea platform with side boosters still attached.

A first flight model of the Long March 8 is believed to have arrived at Wenchang Satellite Launch Center on Hainan island late last month.

This first launch will however be an expendable version of the potentially reusable Long March 8. Wu’s timeline of 2025 for realizing VTVL capabilities suggests CALT has much work remaining, or is referring to another vehicle, such as a large three-core launcher for human spaceflight missions.

Wu also made no mention of the ‘reusable experimental spacecraft’ which was secretively launched and landed in September.

Further Chinese recovery, reusability efforts
Shanghai Academy of Spaceflight Technology (SAST), the second of two major launch vehicle manufacturers belonging to CASC, is also developing a reusable version of the Long March 6.

CALT is also looking seriously at aerial recovery of first stages, something tested and abandoned by SpaceX but soon to be tested by Rocket Lab.

The proposed Chinese system involves deployable aerodynamic deceleration, helicopter aerial retrieval, intelligent hooking system design and reentry vehicle separation technologies.

Authors of a paper presented at the recent IAC claim that results of tests indicate that aerial recovery has many advantages compared to propulsion-landing and sea-landing recoveries, including non-damage, precision, speed and flexibility. A flight test is being considered “as soon as possible”.

Commercial efforts
Chinese commercial space launch companies could beat the so-called ‘national team’, referring to state-owned CASC and state-owned space actors, to VTVL launchers however.

Beijing-based Landspace and iSpace are developing methalox rockets capable of landing using variable thrust engines. The latter plans hop tests in 2021 followed by a first launch of its Hyperbola-2 rocket. First launch of Landspace’s Zhuque-2 is currently expected mid-2021, but its first launch will be expendable.

Linkspace, another firm working on such technologies, has been quiet since a 300-meter hop test in August 2019.

Galactic Energy, the front runner of a second wave of prospective Chinese commercial launch service providers, is also developing a reusable launcher. The kerolox Pallas-1 is slated for a test launch in late 2022.

The firm will make its first orbital launch attempt early Saturday from Jiuquan with the solid Ceres-1 rocket.

Galactic Energy this week also announced that it recently secured $21.5 million in a funding round.

 
.
Progress on 220-ton staged combustion cycle hydrogen-oxygen engine YF-90


【大推力补燃循环氢氧发动机氧涡轮泵与预燃室联动试验圆满成功】2020年11月2日,北京航天动力研究所所在北京进行了大推力补燃循环氢氧发动机氧涡轮泵与预燃室联动试验,试验取得圆满成功。试验验证了大推力补燃循环氢氧发动机核心组件的技术方案正确性、工作协调性及生产、试验工艺可行性。本次试验是在前期预燃室热试验、氢涡轮泵与预燃室联动试验等大量试验基础上进行的最具代表性和里程碑意义的热试验,标志着我国突破了大推力补燃循环氢氧发动机系统技术及高压大流量预燃室、高效多级涡轮泵等核心组件的关键技术,为工程研制奠定了坚实的技术基础。

大推力补燃循环氢氧发动机性能指标达到国际先进水平,是航天强国的重要标志,是航天动力先进技术的重要代表,能更好地满足我国未来火箭和重大航天任务对动力的需求。大推力补燃循环氢氧发动机的研制能够填补我国氢氧发动机型谱和技术空白,并对诸多基础学科和工业领域有巨大的牵引带动作用。

后续研制队伍将不忘初心、牢记使命、再接再厉,全力推进后续研制工作,力争早日进行大推力补燃循环氢氧发动机整机试验,为我国氢氧发动机技术攀登世界高峰、为建设航天强国做出贡献。(北京航天动力研究所)​


China Aerospace
November 6 at 18:47

[High-thrust staged combustion cycle hydrogen-oxygen engine oxygen turbo pump and preburner linkage test successfully]


On November 2, 2020, Beijing Aerospace Propulsion Institute conducted high-thrust staged combustion cycle hydrogen-oxygen engine's oxygen turbo pump and preburner linkage test in Beijing. The test was a complete success. The test verifies the correctness of the technical scheme, systemic operational coordination, and feasibility of the test production method for the core components. This test is carried out on the basis of a large number of previous tests such as the preburner thermal test, the hydrogen turbo pump and preburner linkage test, etc. It marks a breakthrough in China's high-thrust staged combustion cycle hydrogen-oxygen engine system technology with key technology such as high-pressure large-flow preburner, high-efficiency multi-stage turbo pump and other core components. It laid a solid technical foundation for further engineering development.

The performance index of the high-thrust staged combustion cycle hydrogen-oxygen engine has reached the international advanced level. It is an important symbol of advanced aerospace power technology. It can better meet the propulsion needs of China's future rockets and major space missions. The development of the high-thrust staged combustion cycle hydrogen-oxygen engine can also fill the gaps in the type family and technology of China’s hydrolox engine, and has a drive on effect on many basic disciplines and industrial fields.

The follow-up development team will not forget the original mission, keep the mission in mind, make persistent efforts, and fully promote the follow-up development work, and strive to carry out the complete test of the high-thrust staged combustion cycle hydrogen-oxygen engine as soon as possible, so as to help China’s hydrolox engine technology to climb the world's peak and contribute to the building of a space power nation. (Beijing Aerospace Propulsion Institute)

1604732364755.png
 
.
Andrew Jones @AJ_FI

The vessel Xu Yang 16, which has transported Long March 7 launcher components, has recently travelled from Tianjin to Qinglan port, Hainan. It likely transported the first Long March 8, ready for delivery to Wenchang and launch in late December. https://marinetraffic.com/en/ais/home/shipid:562848/zoom:10

3:59 PM · Oct 31, 2020
今天 11:40 已编辑​
今早,长征八号遥一运载火箭从垂直总装测试厂房转运至201工位进行首飞前合练,长征八号计划12月底择机首飞。​

China Aerospace
Today 11:40


This morning, the Long March No. 8 Y1 launch vehicle was transferred from the vertical assembly test plant to launch pad - station 201 for dress rehearsal before the first flight. The Long March No. 8 is scheduled for its first flight at the end of December.

1605168426106.png

1605168931315.png

1605169001723.png
 
Last edited:
.
今天 16:33 已编辑​
#嫦娥五号# 长征五号遥5火箭已从清澜港运往文昌航天发射场 ,火箭抵达发射场后按计划进行发射前各项测试准备工作。长征五号遥5火箭计划11月24日择机发射嫦娥五号探测器! LChina航天的微博视频

China Aerospace
60 minutes ago edited


#嫦娥五号# The Long March 5Y5 rocket has been transported from Hainan's Qinglan Port to Wenchang Space Launch Site. After the rocket arrives at the launch site, various pre-launch test preparations will be carried out as planned. The Long March 5Y5 rocket is set to launch the Chang'e 5 probe on November 24th!

Video link -> China航天的微博视频
Long March 5 for Chang'e 5 mission in Wenchang. Roll out rumored to be 18th Nov.

[好爱哦]
[好爱哦]
[好爱哦]
空天逐梦探班大放送:胖五一直都在,周末加班的打工人辛苦啦!​

1605336996670.png

1605337037584.png

1605337074758.png

1605337136446.png
 
.
Rollout to launch pad today, launch date 24th Nov.

Space 11:43, 17-Nov-2020
China gets ready to launch Chang'e-5 mission with Long March-5 rocket
CGTN

002845660bf340f28eb623934aaae2ff.jpeg

The Long March-5 rocket at the launching area of Wenchang Space Launch Center in south China's Hainan Province on November 17,2020./CCTV

The fifth Long March-5 rocket, with China's new lunar probe Chang's-5 on top, has been vertically transported to Wenchang Space Launch Center in south China's Hainan Province on Tuesday.

The Chang'e-5 mission, which will be one of China's most complicated and difficult space tasks by far, will be launched in late November, according to the China National Space Administration.

964b6351d81a47f9a3600e202739172e.jpeg
The Long March-5 rocket ready to be transferred to the launching area of Wenchang Space Launch Center in south China's Hainan Province on November 17,2020./CCTV

As China's sixth lunar mission, Chang'e-5 aims to collect and return around two kilograms of lunar soil and rock samples back to earth.

Space engineers have conducted a general assembly and tests on the rocket, after it was transported to Wenchang in late September.

It took about two hours to vertically transport the large rocket to the launching area of the center Tuesday morning. Final examinations and tests will be conducted on the rocket before the launch.

8d19ce7b694a486dac55b494e1605ba5.jpeg
The Long March-5 rocket ready to be transferred to the launching area of Wenchang Space Launch Center in south China's Hainan Province on November 17,2020./CCTV

This is the second time the Long March-5 carrier rocket, currently China's largest launch vehicle, will be put into practical use. In July, it successfully sent China's first Mars probe Tianwen-1 into the Earth-Mars transfer orbit.
 
.

Pakistan Defence Latest Posts

Pakistan Affairs Latest Posts

Back
Top Bottom