On the 13th January 2023 Early clear 1500 Hours Hong Kong SAR- Beijing time , the Belt and Road InitiativeCNSA –China National Space Administration launching from Jiuquan Satellite Launch Center – Inner Mongolia –China – People’s Republic of China deployed launched the Chang Zheng – Long March 2D carrier rocket …. The Chang Zheng – Long March 2D Yao73 carrier rocket…
The Chang Zheng – Long March 2D Yao73 carrier rocket…73 launch vehicle at station 603 of the Jiuquan Satellite Launch Center to successfully launch the Yaogan No. 37 – Remote Sensing 37 The satellite and the test No. 22 A/B satellite carried by it were launched into space, and the satellite successfully entered the predetermined orbit, and the launch mission was a complete success. The three satellites launched this time are mainly used for on-orbit verification tests of new technologies such as space environment monitoring. This mission is the 461st flight of the Long March series of launch vehicles
The Chang Zheng – Long March 2D Yao73 carrier rocket deployed the Yaogan 37 Remote Sensing Satellite is mainly used for on-orbit verification tests of new technologies such as space environment monitoring, and is developed by the Eighth Academy. Test 22 A and B stars were developed by the Eighth Academy of Sciences and the Xi’an Institute of Optics and Fine Mechanics of the Chinese Academy of Sciences respectively. Test 22 A satellites is mainly used for on-orbit verification tests of new technologies such as space environment monitoring…..
星河动力空间科技有限公司 Galactic Energy- Galaxy Power (Beijing) Space Technology Co., Ltd. Located in Block D, Aviation Technology Plaza, E-Town, and Beijing – Beijing – China – People’s Republic of China ….Galaxy Aerospace is the first private aerospace company in China to achieve successful continuous launches, the first to send commercial networked satellites into a 500km sun-synchronous orbit, and the first to master the ability to launch multiple satellites with one carrier rocket.
During today on 9th January 2023 launching from one of many complexes酒泉衛星發射中心 Jiuquan Satellite Launch Center in Dongfeng Aerospace City – inner Mongolia –China – People’s Republic of China on 1304 Hong Kong SAR-Beijing Time.. in which Galaxy Energy on of sixty plus more Private Chinese Carrier Rocket Companies successfully launched the全国 Successful launch of Ceres-1 Yao-5 series carrier rocket……
China Aerospace’s second launch in the first year, private first launch, success….. On 13:04 on January 9, 2023, Beijing time, the Ceres-1 Yao-5 carrier rocket was successfully launched at the Jiuquan Satellite Launch Center…… This mission is the fifth flight of the Ceres 1 launch vehicle.
This launch mission is also equipped with the main visual of Zhang Yimou’s new Spring Festival film “Man Jianghong”. This is also after “Lonely Walking on the Moon”, Galaxy Power Aerospace once again joins hands with film art to spread Chinese film culture. It also implies 2023 In 2019, China’s commercial space industry got off to a good start, and Chinese movies were all over the place.
Successfully launched the Science and Technology One Satellite and Xiyong Microelectronics Park No. 1 Satellite ( Tianmu-1 meteorological constellation 01 star), Xiyong Weidianyuan No. 2 star (Tianmu-1 meteorological constellation 02 star), Apocalypse constellation 13 star (Alxa No. 1), Nantong Middle School No. (“Nantong Middle School No. Jiangsu Surveying and Mapping Star” ) a total of 5 satellites were launched into space, and the satellites successfully entered the predetermined orbit, and the launch mission was a complete success. This mission is the fifth flight of the Ceres 1 launch vehicle…
On the October 9th 2022 Early Morning clear 0743 morning Hours Hong Kong SAR- Beijing time , the Belt and Road InitiativeCNSA –China National Space Administration launching from Jiuquan Satellite Launch Center – Inner Mongolia –China – People’s Republic of China, Readiness rolled out deployed the Chang Zheng – Long March 2D carrier rocket planned orbit from Jiuquan successfully launched the advanced space-based solar observatory “Kwafu-1” from the successfully launched at station 94 of the Jiuquan Satellite Launch Center.. . The Advanced Space-Based Solar Observatory (Kwafu-1/ASO-S) satellite was sent into the scheduled sun-synchronous orbit, and the launch mission was a complete success!
The Advanced Space-Based Solar Observatory (ASO-S) satellite was developed by the Institute of Microsatellite Innovation, Chinese Academy of Sciences. , which also provides support for severe space weather forecasting also the advanced space-based solar observatory satellite, the launch mission was a complete success. The satellite is mainly used for research on the causal relationship between solar flares and coronal mass ejections and the solar magnetic field, and provides data support for space weather forecasting…..
First comprehensive sun exploration satellite “Kuafu-1” was launched this morning] According to the official website of “Nature” magazine, at 7:43 am Beijing time on October 9, my country’s Advanced Space-based Solar Observatory (ASO-S) It will be launched by the Long March 2 Dingyao 55 rocket from the Jiuquan Satellite Launch Center. Advanced Space-based Solar Observatory (ASO-S) “Kuafu-1” is my country’s first comprehensive solar exploration dedicated satellite approved and implemented by the Space Science Pilot Project (Phase II) of the Chinese Academy of Sciences , its plan was first proposed independently by my country’s solar physics community in 2011, and was later established in 2017, with a total development cost of 900 million yuan.
The ASO-S satellite takes “one magnetic and two storms” as its scientific goal, and aims to take advantage of the opportunity of the 25th peak year of solar activity (2024-2025) to respond to the two most violent eruptions on the sun – flares and coronal matter Simultaneous observation of Ejection (CME) and all-solar vector magnetic field to study the origin, interaction and correlation of the solar magnetic field, solar flares and coronal mass ejections, and provide space for severe weather forecasts that seriously affect human high-tech activities support.
ASO-S has a total weight of 888kg and a design life of 4 years. It will run on a 720-kilometer sun-synchronous twilight orbit and conduct long-term continuous observations of the sun. The star carries three payloads: the Full-disc vector MagnetoGraph (FMG) to observe the vector magnetic field of the solar photosphere; the Hard X-ray Imager (HXI) It is used to observe the non-thermal physical process of solar flares; the Lyman-alpha Solar Telescope (LST) is mainly used to observe the formation and early evolution of coronal mass ejections.
After the successful launch of ASO-S, the “solar storm” of the 25th solar cycle will be recorded in detail. After the satellite is in orbit, it will generate about 500GB of detection data every day. After the completion of 4-6 months of on-orbit testing, all scientific data and analysis software of the satellite will be open and shared to users around the world to jointly achieve the scientific goals of ASO-S . By then, the research around ASO-S observations will become an international hotspot. While studying the natural law of “one magnetic and two storms”, scientists will also timely predict the impact of solar eruptions on human beings, benefiting all human beings…
酒泉衛星發射中心On the launch calendar October 2022 Hong Kong SAR – Beijing Time morning, CNSA –China National Space AdministrationJiuquan Satellite Launch Center – Inner Mongolia – China – People’s Republic of China is preparing to launch China- People’s Republic of China’s first comprehensive solar exploration satellite named [Advanced Space-based Solar Observatory (ASO-S) call for centralized nicknames and plans to launch in October this year] According to the latest news from the Chinese Academy of Sciences, my country’s first comprehensive solar exploration satellite – Advanced Space The base Solar Observatory (ASO-S) will launch from the Jiuquan Satellite Launch Center in October 2022 to start a journey of exploration of the sun.
The satellite is equipped with payloads such as the All-Solar Vector Magnetic Imager, the Lyman Alpha Solar Telescope, and the Solar Hard X-ray Imager. It weighs 888KG and will operate in a 720-kilometer sun-synchronous orbit with a design life of more than 4 years. It will reveal the solar magnetic field. , the formation and interrelation of solar flares and coronal mass ejections (“one magnetic and two storms”).
The Purple Mountain Observatory of the Chinese Academy of Sciences sincerely invites everyone to give a Chinese nickname to the upcoming Advanced Space-Based Solar Observatory (ASO-S), and the call for naming selection for the ASO-S probe will be held from July 11 to 24, 2022..
Operating in a sun-synchronous orbit of 720 kilometers. With many instrumentations of Using Solar hard X-ray imager, equipped with 3 payloads, designed for a life span of more than 4 years and development time of more than 5 years, will reveal the formation and interrelationship of the solar magnetic field, solar flares and coronal mass ejections (“one magnetic and two storms….
After the successful launch of ASO-S, the “solar storm” of the 25th solar cycle will be recorded in detail. After the satellite is in orbit, it will generate about 500GB of detection data every day. All scientific data and analysis software of the satellite will be open and shared to users around the world to jointly achieve the ASO-S scientific goals.
Images and visuals are from Weibo also their respectives..
On 15th May 2022 Hong Kong SAR – Beijing time at Jiuquan Satellite Launch Center- Inner Mongolia-China – People’s Republic of China, Interstellar Glory Hyperbola-2 verification rocket successfully completed the joint training mission of the whole eco system Onwardly that month of May 15th , 2022, Beijing Interstellar Glory Space Technology Co., Ltd. (hereinafter referred to as “Interstellar Glory”) successfully completed the double The full-process joint training of liquid oxygen and liquid nitrogen for the Curve 2 verification rocket marks a critical step for Interstellar Glory to the successful development of a reusable launch vehicle.
With the help and support of leaders at all levels of the Jiuquan Satellite Launch Center, the Hyperbola-2 verification rocket test team organized and carried out refueling preparations, power-up tests, liquid oxygen and liquid nitrogen refueling, pre-cooling drills, emergency Works such as venting drills, simulated launch, and recovery processing have been completed, and the full-process operation exercise of refueling, launching, and landing recovery of the Hyperbola-2 verification rocket has been completed. Coordination, work adaptability of related products on the rocket and the ground in low temperature environment, the matching of the function of the filling gas supply system with the rocket, the correctness and integrity of the technical documents and operating procedures used in the test, and the completion of the refueling process. The evaluation of various working hours in the process of note, launch, and landing recovery has accumulated valuable test data and laid a solid foundation for the vertical take-off and landing (VTVL) flight test of a dual-low temperature reusable rocket.
“Hyperbolic 2 Reusable Small Liquid Launch Vehicle” is the main product with international competitiveness independently developed by Interstellar Glory. Hyperbola No. 2 is a two-stage small liquid launch vehicle with a maximum diameter of 3.35 meters. The first and second stages are equipped with the “Focus No. 1” 15-ton reusable variable-thrust liquid oxygen methane engine independently developed by Interstellar Glory; The take-off mass of the Hyperbola-2 carrier rocket is 90 tons, and the carrying capacity of the 500-kilometer SSO orbit is 1.5 tons (no recovery in the first stage) / 1 ton (recovery in the first stage… )
Hyperbola II: Reusable small liquid launch vehicle, adopts a two-stage series configuration, the first and second stages adopt 15-ton reusable liquid oxygen methane liquid rocket engine Focus No. 1 (JD-1), one of which 9 units are installed and 1 unit is installed in the second level. The diameter of the first-class rocket body is 3.35 meters, and the diameter of the second-class rocket body is 2.25 meters. The total length of the rocket is about 28 meters, the take-off weight is about 90 tons, the maximum carrying capacity of low-Earth orbit is 1.9 tons, and the carrying capacity of 500km SSO orbit is 1.1 tons (non-recovery)/0.7 tons (first-stage recovery). The first stage of the rocket has a vertical landing recovery function, which can be reused more than 30 times.
Hyperbolic III series liquid launch vehicle: medium and large reusable liquid launch vehicle, including SQX-3 basic type, SQX-3A (two-core stage parallel connection), SQX-3B (three-core stage parallel connection) three configurations, carrying Capability can meet the needs of a variety of load tasks. In addition to meeting large-scale satellite networking, medium and large-scale satellite launch tasks, it also has the capabilities of space station cargo transportation and deep space exploration also for Space Plane for crew transportation
Images-visuals are from Weibo and their respectives..
