Category: Space X

#CNSA #ChinaNationalSpaceAdministration #国家航天局 | #BRI #December2024|#太原卫星发射中心#TaiyuanSatelliteLaunchCenter  – Advance  International Iconic #长征六号 #ChangZheng6A #LongMarch6A Yao 22 with Qianfan polar orbit 03 satellite group #Satellite….  #ASummary

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中国的First Ocean Salinity Detection Satellite was successfully launched

At 1241 Hours Hong Kong SAR- Beijing Time 14th December 2024 , China- People’s Republic of China- CNSA –China National Space Administration   Successfully launched  Chang Zheng – Long March 6 Carrier Rocket ignited and took off at the Taiyuan Satellite Launch Center Shanxi Province..

[The third launch of the Long March 6-modified Qianfan rocket was a success!]

At 12:41 on December 5, the Long March 6-modified carrier rocket soared into the sky at the Taiyuan Satellite Launch Center, and then sent the Qianfan polar orbit 03 satellite group into the predetermined orbit, and the launch mission was a complete success.

The Long March 6-modified rocket was developed by the Eighth Academy of China Aerospace Science and Technology Corporation. It is a new generation of non-toxic and pollution-free carrier rocket, and it is also China’s first solid-liquid bundled medium-sized carrier rocket. The carrying capacity of the 700-kilometer altitude sun-synchronous orbit is greater than 4.5 tons.



During this mission, the Long March 6-modified rocket encountered the coldest weather since its first flight. A few days before the launch, the Taiyuan Satellite Launch Center welcomed the first snow of this winter, and the lowest temperature once dropped to minus 26 degrees Celsius. In response to this, the test team worked closely with the launch site to add insulation measures to the tower and increase the air supply temperature of the air conditioner; by adopting the zero-second detachment technology of the rocket air conditioner connector, the rocket and the satellite in the fairing can “enjoy the warm air of the air conditioner” until the last moment before takeoff, providing better protection for the satellite environment. In addition, the rocket test team and the launch site carefully selected the relatively high temperature at noon to transfer and launch the rocket to ensure that all work was fool proof.


The Chang Zheng – Long March 6 modified rocket continued to use a stacked layout to implement the “one rocket, 18 satellites” launch mission. The launch of the Qianfan Polar Orbit 03 satellite group was provided by China Aerospace Science and Technology Corporation Great Wall Company as the general contractor. The Qianfan Polar Orbit 03 satellite group includes 18 low-orbit broadband Internet satellites. It is the third batch of satellites of the first generation of Qianfan constellation satellites of Shanghai Yuanxin Satellite Technology Co., Ltd. The first three batches of Qianfan satellites were successfully launched by the ChangZheng – Long March 6 modified Carrier rocket….

“Long March 6A” is a medium-sized solid-liquid bundled carrier rocket developed by the Eighth Academy of China Aerospace Science and Technology Corporation. It adopts a two-and-a-half-stage series-parallel structure. The core stage and the core stage are connected in series, and the core stage is clustered with four boosters. The main power of the core stage is a liquid oxygen-kerosene engine, and the boosters use solid propellant engines.

The whole “Long March 6A” rocket is about 50 meters high (with a standard fairing of 4.2 meters in diameter), the core stage diameter is 3.35 meters, the booster diameter is 2 meters, and the diameter of the fairing is optional. The diameter is 3.35 meters, 3.8 meters, 4.2 meters and 5.2 meters. The takeoff mass is about 530 tons, the takeoff thrust is about 734 tons, and the arrow has a carrying capacity of about 5 tons in a 700-kilometer circular sun-synchronous orbit (SSO). At present, the arrow has further improved its carrying capacity by replacing the YF115B engine that can be restarted twice for the second stage.

During this mission, the Long March 6A rocket encountered the coldest weather since its maiden flight. A few days before the launch, the lowest temperature at the Taiyuan launch site dropped to minus 26 degrees Celsius. In response, the test team and the launch site added insulation measures to the tower and raised the air supply temperature of the air conditioner; by adopting the zero-second detachment technology of the rocket air conditioner connector during takeoff, better protection was provided for the rocket and the satellite in the fairing. In addition, the rocket test team and the launch site also chose the relatively high temperature at noon to transfer and launch the rocket.

On October 15, 2024, the Long March 6A Yao 20 rocket carried out the launch mission of the 18 satellites of the Thousand Sails polar orbit 02 group, 51 days after this launch mission. At present, the Long March 6A carrier rocket has entered the high-density launch phase, and the model continues to optimize the personnel configuration, ground equipment recovery, test operation procedures, etc., to further shorten the launch interval to meet the future intensive launch needs.

The “Qianfan” constellation is the G60 Global Multimedia Satellite (GMS) constellation, a giant low-orbit Internet satellite constellation launched and operated by Shanghai Yuanxin Satellite Technology Co., Ltd. The satellites are designed and manufactured by Shanghai Gesi Aerospace Technology Co., Ltd. The constellation aims to provide space-based broadband Internet services covering the world. The first phase of the constellation plans to launch 108 satellites in 2024, and then launch 1,296 satellites before 2027, and ultimately plans to launch more than 12,000 satellites.

The “Qianfan” polar orbit 03 group is the first generation of satellites in the “Qianfan” constellation and the third batch of networking satellites. So far, the number of satellites launched into space in the “Qianfan” constellation has reached 54. This batch of satellites uses the stackable flat-panel satellite platform independently developed by Gess Aerospace. In December 2023, Gess Aerospace’s G60 satellite digital factory was officially put into production and the first batch of satellites were rolled off the production line. In the future, it will be able to achieve a production capacity of about 1 satellite per day, with an annual output of about 300 satellites. The “Qianfan” constellation is China’s first giant low-orbit constellation to enter large-scale continuous networking launches.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #July2023 | #CMS #ChinaMannedSpace Engineering Office – The Ninth China (International) Commercial Aerospace Summit Forum opens in  #武漢  #Wuhan- Preliminary plan for manned moon landing announced…

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On July 12, 2023, the Ninth China (International) Commercial Aerospace Summit Forum opened in Wuhan. This forum is jointly directed by China National Space Administration, China Meteorological Administration, China Manned Space Engineering Office, Hubei Provincial People’s Government, Wuhan Municipal People’s Government, China Aerospace Science and Industry Corporation, China Aerospace Science and Technology Corporation, China Electronics Technology Co., Ltd. It is co-sponsored by Group Co., Ltd., China Aerospace Foundation and Chinese Society of Astronautics. Ji Qiming, Assistant Director of China Manned Space Engineering Office, Zhang Hailian, Deputy Chief Designer of China Manned Space Engineering and other leaders attended the forum.

Ji Qiming, assistant director of the China Manned Space Engineering Office, said in his opening speech that commercial aerospace is a new force in my country’s aerospace field and has become an indispensable force in my country’s aerospace industry. The Commercial Aerospace Summit Forum strives to bring together experts, scholars and relevant superior resources in the aerospace field at home and abroad, and actively builds a well-known platform for exchanges, cooperation and achievements in the industry. It is an important witness, companion and promoter of my country’s commercial aerospace development. All along, China’s manned space program has attached great importance to the cultivation, development and application of commercial space power.

Speech by Assistant Director Ji Qiming​​​​

Previously, the China Manned Space Engineering Office issued an announcement to the public on the solicitation of low-cost cargo transportation plans for the space station, and received many proposals from commercial aerospace companies. At present, the China Manned Space Engineering Office is soliciting from the whole society the manned lunar rover development plan and the space station space science and application project. In the future, the China Manned Space Engineering Office will continue to create more space for commercial aerospace forces to play a role in scientific payload carrying, on-orbit maintenance, space travel, and flight product development in accordance with the principles of openness, fairness and justice. Accumulate experience and lay the foundation for promoting the formation of a unified development pattern of manned spaceflight…commercialization with unified national management, active social participation, smooth transformation of achievements, and continuous improvement of benefits..

Deputy chief designer Zhang Hailian made a keynote speech

Zhang Hailian, deputy chief designer of China’s manned spaceflight project, made a keynote report on “Overall Considerations on the Development of my country’s Manned Lunar Exploration” in the main forum. The development steps of lunar exploration, expounding the preliminary flight plan of my country’s manned lunar exploration, and the main functions and performances of flight products such as a new generation of manned launch vehicles, a new generation of manned spacecraft, lunar landers, lunar rovers, and lunar landing suits. The main key technologies faced in the lunar scientific research and development stage, put forward the preliminary consideration of promoting the high-quality and high-efficiency development of the manned lunar exploration project with the help of commercial aerospace and social forces.

In addition, the crew of Shenzhou 16 Takionauts sent a video speech from the China Space Station, wishing the forum a complete success.

[Preliminary plan for manned moon landing announced]

Zhang Hailian, deputy chief engineer of the China Manned Space Engineering Office, disclosed at the Ninth China (International) Commercial Space Summit Forum held in Wuhan that morning that my country plans to realize manned landing on the moon by 2030 Carry out scientific exploration, and then explore the construction of a lunar scientific research and experiment station, and carry out systematic and continuous lunar exploration and related technology test verification.
At present, China’s preliminary plan for manned moon landing is:

🔷Use two carrier rockets to send the lunar lander and the manned spacecraft to the lunar orbit for rendezvous and docking in orbit, and the astronauts enter the lunar lander from the spacecraft.
🔷Afterwards, the lunar lander will descend and land on the predetermined area of ​​the lunar surface alone, and the astronauts will land on the moon to carry out scientific investigation and sample collection.

🔷After completing the scheduled tasks, the astronauts will take the lander to ascend to the orbit around the moon to rendezvous and dock with the spacecraft, and carry samples back to Earth on the spacecraft.
To accomplish this task, Chinese scientific researchers are developing equipment such as the Long March 10 carrier rocket, a new generation of manned spacecraft, a lunar lander, and a manned lunar rover..

China plans to realize manned landing on the moon to carry out scientific exploration before 2030, and then will explore the construction of a lunar scientific research and experimental station to carry out systematic and continuous lunar exploration and related technical test verification.

At present, China’s preliminary plan for manned landing on the moon is:

use two carrier rockets to send the lunar lander and the manned spacecraft to the lunar orbit for on-orbit rendezvous and docking, and the astronauts enter the lunar lander from the spacecraft.

Afterwards, the lunar lander will descend and land on the predetermined area of ​​the lunar surface alone, and the astronauts will land on the moon to carry out scientific investigation and sample collection.

To accomplish this task, Chinese scientific researchers are developing equipment such as the Long March 10 carrier rocket, a new generation of manned spacecraft, a lunar lander, and a manned lunar rover. (China Manned Spaceflight Office🇨🇳The latest CG concept map of my country’s future manned lunar landing rover, lunar lander, and lunar scientific research and test station​​​​…

China Takionauts will land on the moon in this way

Zhang Hailian, deputy chief engineer of the China Manned Space Engineering Office, disclosed at the Ninth China (International) Commercial Aerospace Summit Forum held in Wuhan this morning that our country plans to Before 2030, realize manned landing on the moon to carry out scientific exploration, and then explore and build a lunar scientific research and test station to carry out systematic and continuous lunar exploration and related technology test verification.

At present, China, People’s Republic of China, preliminary plan for manned landing on the moon is: use two carrier rockets to send the lunar lander and the manned spacecraft to the Earth-Moon transfer orbit, the spacecraft and the lander will rendezvous and dock in the orbit around the moon, and the astronauts will enter from the spacecraft. Lunar lander. Afterwards, the lunar lander will descend and land on the predetermined area of ​​the lunar surface, and the astronauts will land on the moon to carry out scientific investigation and sample collection. After completing the scheduled tasks, the astronauts will take the lander to ascend to orbit around the moon to rendezvous and dock with the spacecraft, and return to Earth with the spacecraft. To accomplish this task, Chinese researchers are developing equipment such as the Long March 10 carrier rocket, a new generation of manned spacecraft, a lunar lander, a lunar suit, and a manned lunar rover

Zhang Hailian, deputy chief engineer of the China Manned Space Engineering Office, disclosed at the Ninth China (International) Commercial Space Summit Forum held in Wuhan this morning that my country plans to realize manned landing on the moon to carry out scientific exploration before 2030, and then to explore and construct The Lunar Scientific Research and Experimental Station conducts systematic and continuous lunar exploration and related technology test verification.

Images and visuals are from their Respectives CMS China Manned Space CNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #June2023 | #天宫#Tiangong #ChinaSpaceStation #CMS #ChinaMannedSpace #神舟十六号 #Shenzhou16 Super awesome stunningly #EarthViews from the #TianheCoreModule

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On the 30th  May 2023 clear 0931 Hours Morning Hong Kong SAR- Beijing time , the Belt and Road Initiative CNSA –China National Space Administration  from Jiuquan Satellite Launch Center – Inner Mongolia –China – People’s Republic of China deployment of  the Chang Zheng –   The Chang Zheng – Long March 2F Yao 16 –Shenzhou 16  carrier rocket.. On which Takionauts Jing Haipeng, Zhu Yangzhu, and Gui Haichao took to the predetermined orbit. The first manned flight mission in the application and development stage was a complete success. The three astronauts will stay in the space station and “join up” with the crew of Shenzhou 15 to carry out on-orbit handover “face-to-face” meeting in which brings the total crew of six with a handover ceremony  from Shenzhou 15 towards 16..

On the week of 28th May 2023 .. Super blockbuster spectaculars earth views!  From the Shenzhou Sixteen Takionauts shooting awesome stunning the earth view mobile videography…..  The white bulkhead of the Tiangong -China space station, the bright sun wings and the clear blue earth make people fascinated. Although the Takionauts live in one side of the space station, through the portholes, they can see the brilliance of the stars, the sun and the moon sprinkled on the space station, reflecting the bright streamer. This beautiful scene is shared with us through the lens of Takionauts…..

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#CASC #June2023| #ChangZheng #LongMarch #CarrierRocket Hong Kong Aerospace Science and Technology Group with Zero Gravity Laboratory plans to deploy the #GoldenBauhiniaSatellite 30 #RemoteSensing #CubeSatellites #Satellites in of Year2024…

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On the 16th June 2023 announcement of   Hong Kong Aerospace Science and Technology Group and Zero Gravity Laboratory has announcement of launching of 30-thirty remote sensing cube cute satellites of  Zero Weight Space plans to launch “Golden Bauhinia 7-36” remote sensing 6U cube star with “30 satellites  in one carrier rocket” early next year in the 2024 first quarter year… A few days ago, Beijing Zero Weight Space Technology Co., Ltd. signed a “30 satellites in one carrier rocket” “Project cooperation agreement. According to the agreement, the Zero Gravity Laboratory will provide Hong Kong Aerospace Science and Technology Group with a package of products and services including satellite R&D and manufacturing, assembly testing, and launch services. Launch at the end of the first quarter.

After the completion of the project, it can realize global high-frequency and high-resolution remote sensing monitoring, and provide users with high-precision data support and application services in the fields of earth observation, resource investigation, environmental protection, agriculture, and urban planning.

On previously On June 15th, 2023, the Chang Zheng- Long March 2D carrier rocket carried the Golden Bauhinia Satellite No.37 & No. 38 into space from the Taiyuan Satellite Launch Center. The satellites successfully entered their planned orbits and both are in good operating condition. This is the second launch mission of Hong Kong Aerospace Technology Group for this year.

The Golden Bauhinia Satellite No.37 & 38  are both small and high-resolution optical remote sensing satellites that use new-generation high-performance imaging technology. While effectively enhancing the weak signal detection capability and system integration, their weight and volume have been significantly reduced. They have the advantages of quick production, intelligent operation, and cost-effectiveness.

The Golden Bauhinia satellite constellation is a passive-active hybrid low-orbit high-frequency satellite constellation planned by the Hong Kong Aerospace Technology Group. The constellation combines optical remote sensing and synthetic aperture radar imaging modes to form an all-weather and all-time dynamic monitoring service system that is not affected by weather conditions such as clouds and rain. The constellation focuses on the Guangdong-Hong Kong-Macau Greater Bay Area (GBA) and is committed to providing satellite remote sensing services and overall smart city solutions for global users.



零重力实验室 Zero Gravity Laboratory Beijing Zero Weight Space Technology Co., Ltd.    In October 2016, the Zero Gravity Laboratory was established in Beijing. The laboratory is mainly engaged in the research and development of micro-nano satellites and core components. In January 2017, Beijing Zero Weight Space Technology Co., Ltd. was established in Beijing Economic and Technological Development Zone. The three core business segments of Zero Weight Space include: research and development and sales of micro-nano satellites and their core components, technical consulting and space-based data services. At present, Zero Heavy Space has more than 30 kinds of micro-nano satellite core component products in six categories with independent intellectual property rights. It has the development and production capacity to complete the micro-nano satellite on-orbit delivery within 10 months, and can provide customers with complete micro-nano satellites. Satellite overall solutions and provide customers with launch and loading services. Vision: 2025: Walking in space (2025: Space Odyssey) Slogan: Let satellites reach life Mission: We pay attention to everything you care about, as long as it is related to micro-nano satellites Goal: To become the leader of global micro-nano satellites

Hong Kong Aerospace Technology Group Limited (HKATG) is Hong Kong’s first commercial aerospace enterprise focusing on satellite network engineering and precise satellite manufacturing. Formerly known as Hentech Technologies Ltd (2003), HKATG acts as a pioneer in commercial aerospace industry and technological innovation in Hong Kong.

Located at 15/F, Data Technology Hub, 5 Chun Cheong Street, Tseung Kwan O Industrial Estate, New Territories, Hong Kong SAR, China, People’s Republic of China.

HKATG owns five technical centres and manufacturing bases, including satellite manufacturing centre, space environmental monitoring centre, satellite telemetry, tracking and control centre (TT&C), centre for satellite data and applications and precise electronic manufacturing centre.

The core business of HKATG consists of several aspects, for instance, satellite constellation engineering (Golden Bauhinia Constellation and Aurora Constellation), satellite data application, satellite design and manufacturing, satellite assembly and testing, satellite payload selection and specification, satellite TT&C service, PCBA and electronic manufacturing and launching of satellite etc.

HKATG aims for global commercial aerospace service and has strong purpose to improve the world’s aerospace industry.

Gang Hang Ke (Shenzhen) Space Technology Co., Ltd. is a wholly-owned subsidiary of HKATG. Being the major operating subsidiary of HKATG in the Mainland China, Gang Hang Ke (Shenzhen) Space Technology Co., Ltd. is mainly engaged in the aerospace technology, satellite application technology, satellite manufacturing technology, research and development of Internet of Things (IoT) application system and technical services.

Images and visuals are from their respectives

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI  #June2023 |#西昌衛星發射中心 #XichangSatelliteLaunchCenter  the advance iconic #长征三号乙火箭, #ChangZheng3B #LongMarch3B launch vehicle landing zone control technology has made a further breakthrough!

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On the 17th May  2023  in  CNSA _China National Space Administration -China – People’s Republic of China At 1049 hours Hong Kong –Beijing Time China- People’s Republic of China launch the Chang Zheng – Long march 3B  Carrier Rocket launching from station form Xichang Satellite Launch Center Sichuan Province…..Deploying Geo Stationary  the World’s Number one leading Beidou3 Series  56th Navigation Satellite 

The 56th Beidou navigation satellite was successfully sent into the predetermined orbit, and the launch mission was a complete success. This launch is the 473rd flight of the Long March series of launch vehicles. (China Academy of Launch Vehicle Technology)​​​​

[Launch vehicle landing zone control technology has made a further breakthrough! 】

On May 17th 2023, the mission of launching the 56th Beidou navigation satellite by the Long March 3B carrier rocket developed by the Rocket Academy was a complete success. Another highlight of this mission is the verification test of the landing area control technology – the rocket booster is equipped with a parachute landing area control system. Strategic maneuvering flight, accurately guiding the booster separation body to the predetermined “parachute landing area”, successfully reducing the separation body landing area by 80%. The carrying test was a complete success, which laid the foundation for the subsequent engineering application of booster parachute control technology.

 
The booster parachute landing area control technology is a technology independently developed by the Rocket Academy to improve the safety of the rocket sub-stage wreckage landing area at the inland launch site.
When the booster separates and falls to the predetermined altitude, the parachute landing area control system installed in the nose cone of the booster will automatically start, and the manoeuvrable flight will be realized through the controllable parafoil, and the booster separation body will be guided to the predetermined area landing.


Zhang Yipu, chief designer of the rocket’s Long March 3A series of launch vehicles, introduced that during this flight, the main optimization of the booster parachute landing zone control system came from the electrical subsystem. On the one hand, it has carried out a unified design with the control system of the rocket fairing parachute landing zone, and on the other hand, it has also carried out system-level integration with the electrical equipment of the parachute subsystem, achieving a weight reduction of 30 kg and effectively improving the practical level of the product.
Based on the development concept of “rapid iteration and combination of flight transformation”, the development team has carried out a series of research on the basis of the previous pre-research results.
Overcome: the overall design technology of parachute landing area control, the overall design technology of large-area controllable parafoil, the integrated navigation and positioning technology under high dynamics, the separation technology of nose cone-parafoil combination, and a series of key technologies, combined with the control of the landing area The actual situation has formulated a reasonable and feasible “parachute landing zone” setting strategy and homing control strategy. After multiple rounds of iterative optimization and step-by-step loading verification, the controllable and accurate landing of the booster separation body is gradually realized…

After the analysis of the test data and the on-site survey of the wreckage, the control system of the parachute landing area maneuverer and flew according to the established homing strategy, and accurately guided the booster separation body to the predetermined “parachute landing area”, successfully reducing the area of ​​the separation body landing area by 80% %. The carrying test was a complete success, which laid the foundation for the subsequent engineering application of booster parachute control technology.

In addition to the booster parachute landing zone control technology, the development team is also looking for countermeasures in multiple dimensions to reduce the impact of rocket separation on the landing zone. Active control of separation body return based on grid rudder, control of fairing landing zone based on parachute, etc..

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration