The improved Kuaizhou-1A rocket has greatly increased its carrying capacity and successfully launched a radar remote sensing satellite in Xichang..
During on 31st July 2025 at 1000 hours Beijing – Hong Kong SAR- Beijing Time launching from one of many complexes Xichang Satellite Launch center, Sichuan Province –China – People’s Republic of China on中國製造 Expace Technology Corporation, , the Kuaizhou No. 1A solid carrier rocket ignited and lifted off at the , at the launch pad of the Xichang Satellite Launch Center, the “Kuaizhou-1A” solid carrier rocket ignited and took off, sending launched Pakistan’s remote sensing satellite 01 from the Xichang Satellite Launch Center using the Kuaizhou-1A carrier rocket.
The satellite then smoothly entered its planned orbit, marking a complete success. The satellite is primarily used for land surveys and disaster prevention and mitigation.. This mission marks the 29th flight of the Kuaizhou-1A carrier rocket.
On July 31, 2025, China successfully launched Pakistan’s remote sensing satellite, 01, into space using a Kuaizhou-1A carrier rocket from the Xichang Satellite Launch Center. Pakistani television station HUM News broadcast the launch live, including animations of most of the launch, showing the Kuaizhou-1A’s improved version’s distinctive inverted last stage design.
On the 30th July 2025, Hong Kong SAR- Beijing Time at CNSA –China National Space Administration– Wenchang Space Craft launch Center At 1549 Beijing time, the Long March 8 carrier rocket ignited and took off at the Hainan Commercial Space Launch Center, . The launch mission was a complete success, marking that China’s first commercial space launch site has the ability to launch dual-stations. This launch is the first launch of the No. 1 launch station of the Hainan Commercial Space Launch Center, and it is another capability test after the first successful launch of the Hainan Commercial Space Launch Center…. the Long March 8A Yao 3 rocket ignited and took off from the Hainan Commercial Space Launch Center
Introduction: China Aerospace Science and Technology Corporation released a new configuration of the Long March 8 series of carrier rockets in Wuhan. The new configuration is named Long March 8A carrier rocket.
China successfully launched a new group of low Earth orbit satellites from the Hainan commercial spacecraft launch site in the southern island province of Hainan on Wednesday. The satellite group, the sixth of its kind that will constitute an internet constellation, was launched at 3:49 p.m. (Beijing Time) aboard a Long March-8A carrier rocket. The satellites entered the preset orbit successfully.
This afternoon, China successfully launched the satellite internet low-orbit 06 satellite group using the Long March 8A carrier rocket at the Hainan Commercial Space Launch Center. The satellite smoothly entered the planned orbit, and the launch mission was a complete success. This launch, the Long March 8A rocket achieved a number of technological innovations, including full process automation, active takeoff drift control, and supercooled liquid oxygen refuelling.As an upgraded version of the Long March-8, the 8A variant retains the original model’s core first stage and boosters, while introducing an innovatively developed 3.35-meter-diameter universal hydrogen-oxygen upper stage and a 5.2-meter-diameter payload fairing
The Long March-8A carrier rocket is set for its first launch from No. 1 Pad at the Hainan commercial spacecraft launch situation..
In which iSpace- Interstellar Glory in which it is the first Chinese Private Space Company to do so successfully commercially first out from sixty known private space companies in China People’s Republic of China… Founded in Beijing 2016 located in Beijing Economic and Technological Development Zone or known for short as E-Town in Capital of China – People’s Republic of China …
[Hyperbola-1 Successfully Returned to Flight]
Hyperbola-1 Yao-10 carrier rocket launched successfully# The Hyperbola-1 rocket is back. At 12:11 noon 29th July 2025 Beijing time today, the Hyperbola-1 Yao-10 carrier rocket ignited and took off from the Jiuquan Satellite Launch Center Inner Mongolia, China, People’s Republic of China , successfully sending the Enshi Selenium Capital Mountain Spring satellite into the predetermined orbit. The flight test was a complete success.
[Chinese team studies the site selection of lunar scientific research stations/bases _ Engineering geological site selection method and suitability evaluation for lunar scientific research stations/bases]
Unlike the previous lunar exploration mission landing site selection, which mainly focused on scientific objectives, landing safety, and earth-moon communications, the site selection of lunar scientific research stations and bases is more complicated, and it is also necessary to consider factors such as engineering geological conditions, long-term human living environment, and in- situ resource utilization. An interdisciplinary research team composed of researchers Li Shouding, Li Juan, and Yue Zongyu from the Institute of Geology and Geophysics, Chinese Academy of Sciences, and academician Peng Jianbing from China University of Geosciences (Beijing) established a method for engineering geological site selection and a suitability evaluation model for lunar scientific research stations and lunar bases.
The site selection evaluation system covers 12 indicators in three aspects: lunar surface topography, long-term living environment, and in-situ resource utilization. The research team used 26 successful landing sites and 50 expert pre-selected sites in history as data sets, and used the Certainty Factor method to study the pros and cons of each indicator for landing site selection, and verified the reliability of the site selection model: 77% of the data points are located in medium and high suitability areas, of which more than 60% are in high suitability areas. The landing site selection model works well. On this basis, the research team further considered the factors of in-situ building materials and exploitable mineral resources, and quantitatively evaluated the suitability of lunar research stations and lunar bases on a full-moon scale: the suitable areas for the construction of lunar research stations are concentrated in the lunar seas near the equator and some sea-land junctions, and some areas at the poles have also reached a high level (Satisfactory); lunar bases that mine ilmenite and thorium and uranium resources are suitable for construction in the southern areas of the Ocean of Storms, the Sea of Tranquility and the Sea of Islands….
As the world sets off a second wave of lunar exploration, countries have successively announced plans to build lunar scientific research stations and lunar bases. Against this background, the site selection of lunar scientific research stations/bases is imminent. Unlike the previous lunar exploration mission landing site selection, which mainly focused on scientific goals, landing safety, and earth-moon communications, the site selection of lunar scientific research stations and bases is more complicated, and it is also necessary to consider engineering geological conditions, long-term human living environment, and in-situ resource utilization.
An interdisciplinary research team consisting of researchers Li Shouding, Li Juan, and Yue Zongyu from the Institute of Geology and Geophysics, Chinese Academy of Sciences, and academician Peng Jianbing from China University of Geosciences (Beijing) have established a method for engineering geological site selection and a suitability evaluation model for lunar research stations and lunar bases. The site selection evaluation system covers 12 indicators in three aspects: lunar surface topography, long-term living environment, and in-situ resource utilization.
The research team used 26 successful landing sites and 50 expert pre-selected sites in history as data sets, and used the Certainty Factor method to study the pros and cons of each indicator for landing site selection, and verified the reliability of the site selection model: 77% of the data points are located in medium and high suitability areas, of which more than 60% are in high suitability areas, and the landing site selection model works well. On this basis, the research team further considered the factors of in-situ building materials and exploitable mineral resources, and quantitatively evaluated the suitability of lunar scientific research stations and lunar bases from a full-moon scale ( Figures 1 and 2 ). The suitable areas for the construction of lunar scientific research stations are concentrated in the lunar seas near the equator and some sea-land junctions, and some areas at the poles have also reached a higher level (Satisfactory); lunar bases that mine ilmenite, thorium, and uranium resources are suitable for construction in the southern areas of the Ocean of Storms, the Sea of Tranquility, and the Sea of Islands.
Figure 1. The distribution map of suitability of lunar research station sites throughout the month. Areas A, B, and C are the areas with the highest suitability for engineering geological conditions. A: Southwest edge of Oceanus Procellarum; B: Mare Fecunditatis, Mare Tranquillitatis near the equator and the highlands between the two lunar seas; C: Mare Smythii
Figure 2: Distribution of lunar base site suitability for the whole month. Areas A, B, and C are the areas with the highest engineering geological suitability: A: the southern end of Oceanus Procellarum; B: the southern part of Mare Insularum; C: the southern part of Mare Tranquillitatis
The research results were published in Engineering Geology , an internationally recognized academic journal in the field of engineering geology . The research was funded by the National Natural Science Foundation of China (L2424213, 42230111), the Key R&D Project of the Ministry of Science and Technology (2022YFF0503100), and the Key Deployment Project of the Institute (IGGCAS-202204, 202102, 201904, TEC202302).
Chen Xinshuo, Li Shouding*, Li Juan*, Yue Zongyu, Zhang Zhaobin, Xu Tao, Zheng Bo, Sun Xiukuo, Diao Yiming, He Jianming, Li Xiao, Peng Jianbing, A comprehensive geological engineering site selection for lunar research station and base on a global scale, Engineering Geology, 2025, 355: 108225, DOI: 10.1016/j.enggeo.2025.108225
At 1803 Hours Hong Kong SAR- Beijing Time 27th July 2025 , China- People’s Republic of China- CNSA –China National Space Administration Successfully launched Chang Zheng – Long March 6A Advance modified Carrier Rocket ignited and took off at the Taiyuan Satellite Launch Center Shanxi Province.. Long March 6A carrier rocket successfully launches Low orbit group four internet constellation Satellites …..
China successfully launched the satellite internet low- orbit 05 satellites using the Long March 6A carrier rocket at the Taiyuan Satellite Launch Center. The satellites successfully entered the predetermined orbit and the launch mission was a complete success.
Long March 6 modified carrier rocket was developed by the Eighth Academy of China Aerospace Science and Technology Corporation, and the satellite internet low-orbit 05 satellites were developed by the Fifth Academy of China Aerospace Science and Technology Corporation.
This mission is the 585th flight of the Long March series of carrier rockets…
