Category: Character Customisation

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#WenchangSpacecraftLaunchCenter #文昌航天發射場 #BRI #April2024 | #ChangZheng5  #LongMarch5 Yao 8 launch readiness for #嫦娥六号#Change6 #LunarLander #LunarProbe South Pole-Aitken Basin  #LunarSampleReturnMission #DarksideOfTheMoon …. #ASummary

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On the 15 March 2024 Hour Hong- Kong SAR – Beijing time CNSA –China National Space Administration   ….. the “Chang Zheng -Long March 5” Yao-8 carrier rocket which will carry out the Chang’e-6 mission of the fourth phase of the lunar exploration project, safely arrived at the Wenchang Space Launch Site in China. Subsequently, the rocket will be assembled and tested at the launch site together with the Chang’e-6 probe that arrived in advance. Currently, all participating systems in the launch site area are preparing for the Chang’e-6 mission as planned…..

“Chang Zheng -Long March 5” Yao-8 carrier rocket which will carry out the fourth phase of the lunar exploration project嫦娥六号was safely transported to the Wenchang Space Launch Site in China. Subsequently, the rocket will be assembled and tested at the launch site together with the Chang’e-6 probe that arrived in advance. Currently, all participating systems in the launch site area….

【Complete vertical transfer! Choose the right moment to launch! 】

On April 27th 2024, after the Chang’e-6 probe and the Long March-5 Yao-8 carrier rocket completed relevant work in the technical area at the Wenchang Space Launch Site in China, the vehicle-rocket assembly was transported vertically to the launch area. It is planned to select an opportunity for launch in early May.


After the Chang’e-6 probe and the Long March-5 Yao-8 carrier rocket arrived at the launch site in January and March respectively, they successively completed various preparations such as final assembly and testing. On April 27, the movable launch platform carrying the Long March 5 Yao-8 carrier rocket slowly and safely transferred the rocket assembly from the vertical test factory to the launch area. Subsequent functional inspections, joint tests, propellant filling and other work will be carried out as planned

Mission planning

嫦娥六号 Chang’e-6 plans to conduct systematic and long-term research on samples from the far side of the moon, analyze the structure, physical properties, and material composition of the lunar soil, and strive to obtain updated lunar scientific data [42].

The first scientific goal of Chang’e-6 is to carry out mapping detection and geological background survey of the landing site area, obtain on-site analysis data related to lunar samples , and establish a relationship between on-site detection data and laboratory analysis data. Mainly includes: topography detection of the landing area : description and structural characteristics around the sampling point ; description, size and distribution of impact craters , etc. Material composition detection: material composition characteristics at sampling points; physical characteristics and structure of lunar soil ; temperature gradient detection in the shallow layers of the lunar crust , etc. The second scientific goal is to conduct systematic and long-term laboratory research on the lunar samples returned to high altitudes, to analyze the physical characteristics and structural structure of lunar soil and lunar rocks , mineral and chemical composition, trace elements and isotope composition, and lunar rock formation and evolution. Through the isotope age determination of the process, the interaction between cosmic radiation and solar wind ions and the moon, the space weathering process and environmental evolution process, etc., we will conduct in-depth research on the formation and evolution history of the moon.

The second scientific goal is to conduct systematic and long-term laboratory research on the lunar samples returned to the ground , and analyze the physical properties and structural structure of the lunar soil and lunar rocks, mineral and chemical composition, trace elements and isotope composition , and the formation and evolution of lunar rocks. Isotopes of the process, the interaction between cosmic radiation and solar wind ions and the moon, space weathering processes and environmental evolution processes, etc., to deepen the study of the formation and evolution history of the moon.

To achieve lunar sample return, many technological breakthroughs are needed, such as sample collection technology, lunar surface ascent and takeoff technology, lunar orbit rendezvous and docking technology, etc. Because it is a high-speed return, breakthroughs in re-entry technology are also needed. In terms of sampling, it is not only necessary to collect lunar soil from the lunar surface , but also to drill holes to remove materials of different depths from the lunar soil layer 2 meters below and bring them back to the earth. Therefore, Chang’e 6 will also carry a drilling rig …


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

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #December2023 | #Geely #GeelyGlobal #GeeSpace – Geely’s Future Mobility Constellation Second Orbit 11 Satellite Departure Ceremony was held at the Taizhou Satellite Super Factory towards |#西昌衛星發射中心 #XichangSatelliteLaunchCenter …

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Geely’s Future Mobility Constellation Second Orbit 11 Satellite Departure Ceremony was held at the Taizhou Satellite Super Factory

On December 27, 2023, the launch ceremony for the second orbit satellite of Geely’s future mobility constellation was held at the Taizhou Satellite Super Factory of Space and Time Daoyu.

This group of satellites, a total of 11 satellites, will depart from Taizhou and will reach the Xichang Satellite Launch Center across 3,000 kilometers. They will be launched at an appropriate time in early 2024 to complete the deployment of the second orbital area network of the constellation.
 

The 11 satellites in the second orbit of Geely’s future travel constellation are all independently developed by Spacetime Daoyu and shipped from its Taizhou Satellite Super Factory. The factory draws on the world’s advanced satellite manufacturing production lines and satellite development concepts, and combines the automotive industry’s industrialization, standardization, and automated R&D and production experience to achieve disruptive innovation in satellite mass production AIT. Satellite manufacturing efficiency and system reliability have reached industry-leading levels , is the world’s first satellite mass production factory that deeply integrates aerospace manufacturing and automobile manufacturing capabilities.

Geely’s future travel constellation is built and operated by Shitong Daoyu. It is the world’s first commercial communication, navigation and remote sensing integrated constellation. The nine satellites in the first orbit of the constellation were successfully launched into orbit on June 2, 2022, and have been operating stably in orbit for more than a year. Spacetime Daoyu plans to launch the second-orbit satellite of the constellation in early 2024 and complete the network deployment of 72 satellites in the first phase of the constellation in 2025.

By building Geely’s future travel constellation and its own ground system, Spacetime Daoyu independently develops chip module terminal products to provide satellite application services to global users. By integrating communication, navigation, and remote sensing technologies, in the field of automotive regulations, it empowers autonomous driving and intelligent network connection; in the field of consumer electronics, it empowers mobile phones and IoT devices to directly connect to satellite communications; it provides multimodal transportation, smart oceans, and smart It provides satellite data products and services in the fields of agriculture, emergency disaster reduction, ecological environment monitoring and other fields, comprehensively serves the global “Belt and Road” international cooperation, and accelerates the commercialization, scale and global development of satellite applications.

Imagines and visuals are from their respectives.

#MadeInChina #中國製造 |#深蓝航天 #LANDSPACE #DeepBlueLimitedCompany #November2023 | Deep Blue Aerospace #ReusableCarrierRocket #CarrierRocket #PinqiBuildingBlocks × – the #Zhuque-2 #Suzaku-2″ #CarrierRocket launch vehicle ….

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深蓝航天  Deep Blue Limited – Deep Blue Aerospace One of sixty Chinese private space Carrier Rocket Companies in China-People’s Republic of China…  As many of sixty plus Private Rocket Deep Blue Aerospace Co., Ltd. was established in 2017. The company is mainly a high-tech aerospace enterprise that focuses on the direction of liquid recovery and reusable launch vehicles and provides users with commercial launch services. Deep Blue Aerospace Co., Ltd. is headquartered in Nantong City, Jiangsu Province. At the same time, the company has rocket general and liquid engine R&D centers in Yizhuang, Beijing and Xi’an, Shaanxi, respectively, and a rocket power system test base in Tongchuan, Shaanxi…..

On the 10th November 2023拼奇积木 Pantasy – Pinqi Building Blocks based in Guangdong Province, China, People’s Republic of China. In which recently have team up with Landspace in celebrations of with warm congratulations to   the world’s first liquid oxygen methane launch vehicle Suzaku-2″ was successfully launched at 9:00 on July 12, 2023!

Pinqi Building Blocks × @LANDSPACE Blue Arrow Aerospace’s sincere work,
the first aerospace science-style large-scale scene building block for the public, “Rocket Dream Factory” on the actual testing, final assembly, and launch facilities of Suzaku 2, the rocket manufacturing process is restored in a fun and building process to learn aerospace knowledge.
Configure 4 aerospace engineer minifigures to pay tribute to every scientific researcher who has contributed to the aerospace industry.

朱鹏二号On the  12th July 2023酒泉衛星發射中心 Jiuquan Satellite Launch Center LandSpace Blue Arrow Aerospace Center,   LandSpace 蓝箭航天Suzaku-2 Yao-2  Carrier rocket successfully Launched At 09:00 Hours on July 12th, 2023, Beijing time, the Suzaku-2 Yao-2 carrier rocket was launched at the Jiuquan Satellite Launch Center, Inner Mongolia, China, People’s Republic of China  The flight mission was completed according to the procedure, and the launch mission was a complete success. This mission is the second flight of the Suzaku-2 carrier rocket. Today, Blue Arrow proves to the world that methane can fly!

The LANDSPACEflight mission was completed according to the procedure, and the launch mission was a complete success. This mission is the second flight of the Suzaku-2 launch vehicle. The Suzaku-2 rocket has become the first launch vehicle in human history that uses liquid methane as a propellant to successfully enter orbit….

朱鹏二号 At present, the reusable liquid fuel engines that have completed the whole system test run include: “Lingyun” (10 tons of thrust, liquid oxygen methane) and “Dragon Cloud” (80 tons of thrust, liquid oxygen methane) of Kyushu Yunjian , “Thunder-R1” of Deep Blue Aerospace (20 tons of thrust, liquid oxygen kerosene), “Sky” of Galaxy Power (50 tons of thrust, liquid oxygen kerosene), “Focus One” of Star Glory (15 tons of thrust, liquid oxygen kerosene) Methane), Tianbing Science and Technology’s “Tianhuo 11” (30 tons thrust, liquid oxygen kerosene) and “Tianhuo 12” (110 tons thrust, liquid oxygen kerosene), Aerospace Propulsion “Canglong One” (60 tons thrust, liquid oxygen methane), etc.

Images and visuals are from their Respectives.

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #August2023 || #酒泉卫星发射中心 #JiuquanSatelliteLaunchCenter #长征四号  #ChangZheng4C #LongMarch4C Yao 44  successful launched deployed #WeatherSatellite #MeteorologicalSatellite # Fengyun-3C 06 #Satellite

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On the 3rd August 2023 early morning Thursday 1147 Hours Hong- Kong SAR – Beijing time CNSA –China National Space Administration , China, People’s Republic of China. Successfully launched the Fengyun-3 06 satellite with the Chang Zheng- Long March 4C Yao 44 carrier rocket at the Jiuquan Satellite Launch Center- Inner Mongolia, and the satellite entered the schedule smoothly. Track, the mission was a complete success. The satellite will replace the Fengyun-3C satellite that has been in orbit for an extended period of time. The detection data will be mainly used for weather forecasting, atmospheric chemistry and climate change monitoring operations and research….. Successfully sent Fengyun 3-06 into sun-synchronous orbit, and the launch mission was a complete success.

长征四号 This is the 100th launch of the Chang Zheng- Long March 4 Carrier Rocket  series of launch vehicles

The launch weight of FY-3 F is about 2,700 kg, and its operating altitude is 830 km. As a sun-synchronous morning orbit satellite, the satellite will replace FY-3 C, which has been in orbit for nearly 10 years. While ensuring the continuity of observation data from global numerical weather prediction satellites, the new generation of Fengyun-3 morning satellites has formed a network of observations with D (afternoon satellite), E (dawn satellite), and G (precipitation satellite) to form four low-earth orbit meteorological satellites in my country. Satellite business network observation “the strongest echelon”, as of now, my country has a total of 9 Fengyun meteorological satellites in orbit.

长征四号 This is the 100th launch of the Chang Zheng- Long March 4 Carrier Rocket  series of launch vehicles. The Long March 4 series of launch vehicles has become the second type of launch vehicle in China with more than 100 launches!

The Long March 4 carrier rocket is one of the main carrier rockets in active service in my country, including three models, the Long March 4A (retired), the Long March 4B, and the Long March 4C. They were launched on September 7, 1988 and May 1999 respectively. The first flight was successful on 10th and April 27th, 2006. At present, Chang Sijia has carried out 2 launch missions, Changsi B has carried out 48 launch missions, and Changsi C has carried out 50 launch missions. This mission is the 191st launch of the Long March series of carrier rockets developed by the General Manager of the Eighth Academy, and the 481st launch of the Long March series of carrier rockets

The first flight, the hundred-flying situation. On September 7, 1988, the Long March 4 Jiayao-1 carrier rocket made its maiden flight and successfully sent my country’s first meteorological satellite, Fengyun-1, into the predetermined orbit, setting a record for a successful first flight of a large-scale carrier rocket in my country and making it my country has become the third country in the world that can independently launch sun-synchronous orbit and polar orbit satellites. According to statistics, the Long March 4 launch vehicle has carried out 4 Fengyun-1 and 7 Fengyun-3 missions, all of which have achieved complete success.

The Long March-4 carrier rocket continues to improve reliability, safety, and adaptability, and has realized that it has only undertaken the launch of polar-orbiting meteorological satellites at the beginning, and now it can perform multiple types of satellite launches such as earth observation, scientific experiments, and lunar relay communications; From one arrow and one satellite to one arrow and multiple satellites in series and parallel; from a specific time….

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

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #July2023 | #天宫 #Tiangong #ChinaSpaceStation #CMS #ChinaMannedSpace #神舟十六号 #Shenzhou16 #Takionauts planned prepares for a #EVA #ExtravehicularActivity #Spacewalk……

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On the 30th  May 2023 clear 0931 Hours Morning Hong Kong SAR- Beijing time , the Belt and Road InitiativeCNSA –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..

[Shenzhou 16 crew will choose an opportunity to launch out-of-cabin activities in the near future]

On the 20th July 2023 The latest news from the China Manned Space Office; since it successfully entered the space station complex on May 30, 2023, Beijing time, the crew of Shenzhou-16 astronauts have been working in orbit for 51 days, and nearly one-third of the five-month space scientific research journey has been completed.
At present, the Shenzhou 16 astronaut crew is in good condition, the space station assembly is running stably, and has the conditions to carry out extravehicular activities….

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