South Pole-Aitken Basin – Page 2

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May 4, 2024May 4, 2024 kevinjamesngLeave a comment

At 17:27 on May 3^rd Friday 2024 Beijing time CNSA –China National Space Administration, the Chang’e-6 probe was successfully launched by the Long March 5 Yao-8 carrier rocket from the Wenchang Space Launch Site in Hainan Province, China, People’s Republic of China., and accurately entered the Earth-moon transfer orbit. The launch mission was a complete success. The Chang’e-6 probe has embarked on the world’s first return journey for sampling from the far side of the moon. The pre-selected landing and sampling area is the South Pole-Aitken Basin on the far side of the moon.

About 37 minutes after the Long March 5 Yao-8 carrier rocket flew, the rocket separated, sending the Chang’e-6 probe directly into the predetermined Earth-moon transfer orbit with a perigee altitude of 200 kilometers and an apogee altitude of about 380,000 kilometers. The Chang’e-6 probe consists of an orbiter, returner, lander, and ascender. Subsequently, with the support of ground measurement and control and the Queqiao-2 relay satellite, the Chang’e-6 probe will undergo processes such as earth-moon transfer, near-moon braking, orbiting the moon, landing and descent, and soft landing on the lunar surface, and finally reach a pre-selected area on the far side of the moon. Collect lunar surface rock and soil samples, and conduct scientific exploration at the same time. After completing the sampling and packaging, the ascender will take off from the lunar surface, then carry out lunar orbit rendezvous and docking and transfer the samples to the returner; the returner will undergo processes such as moon-to-earth transfer, approaching the second cosmic speed and re-entering the earth, and finally carry precious Lunar samples returned to Earth.

According to reports, the entire process from launch to sample return of the Chang’e-6 mission takes about 53 days. The mission cycle is long, there are many engineering innovations, high risks and difficulties, and each stage is interlocked. Compared with the Chang’e-5 mission that achieved sample return from the front side of the moon in 2020, the Chang’e-6 mission needs to implement the first sample return from the far side of the moon with the support of the Queqiao-2 relay star, breaking through the lunar retrograde orbit design and control, and intelligent and rapid lunar backside Key technologies such as sampling and lunar take-off and ascent. At the same time, the Chang’e-6 mission will carry out scientific explorations such as on-site investigation and analysis of the landing area on the back of the moon, laboratory analysis and research of lunar samples, and deepen the study of the formation and evolution history of the moon.

In addition, the Chang’e-6 mission has carried out pragmatic international cooperation. In April 2019, the National Space Administration released the “Announcement on International Payload Cooperation Opportunities for the Chang’e-6 Mission”. Through the collection and selection of proposals for two batches of international payload carrying projects, the ESA lunar surface negative ion analyzer, There are four international carrying projects including the French Lunar Radon Detector, the Italian Laser Corner Reflector, and the Pakistani CubeSat. Among them, the ESA Lunar Surface Negative Ion Analyzer will detect negative ions on the lunar surface and study the interaction mechanism between plasma and the lunar surface; the French Lunar Radon Detector aims to conduct in-situ detection of radon isotopes on the lunar surface and study volatilization The transmission and diffusion mechanism of objects in the lunar environment; the Italian laser corner reflector plans to use the positioning on the back of the moon to carry out joint ranging and positioning research with other lunar exploration missions; the Pakistani CubeSat will carry out an on-orbit imaging mission to verify the NanoSatelllites moon Orbit detection technology.

On May 3, the CNSA- China National Space Administration held a Chang’e-6 international payload seminar in Haikou. About 50 international friends from 12 national space agencies, embassies in China, including Pakistan, France, and Italy, as well as international organizations such as the United Nations and ESA, gathered in Hainan to discuss cooperation and witness the launch of the Chang’e-6 mission.

The Long March 5 launch vehicle is my country’s first new-generation high-thrust launch vehicle with a core diameter of 5 meters. It has a total length of about 57 meters, a take-off weight of about 870 tons, a take-off thrust of more than 1,000 tons, and a low-Earth orbit carrying capacity of up to 25 tons. The geosynchronous orbit has a carrying capacity of up to 14 tons and completed its first flight in 2016. Due to the constant changes in the relative position of the Earth and the Moon, in order to ensure that the rocket is launched on time, the model team applied the “narrow window multi-orbit” launch technology and designed a total of 10 lunar orbits for the rocket within a 50-minute window for two consecutive days. Improve implementation launch probability and reliability. At the same time, the development team continued to optimize the launch site process, reducing the time it took to launch Chang’e-5 from nearly 60 days to 43 days. This is the 519th launch of the Long March series of launch vehicles.

The lunar exploration project is organized and implemented under the leadership of the National Space Administration. For this Chang’e-6 mission, the overall project was undertaken by the Lunar Exploration and Space Engineering Center of the National Space Administration; the detector and launch vehicle were developed by the Space Technology Research Institute and Launch Vehicle Technology Research Institute of China Aerospace Science and Technology Corporation respectively; the launch The measurement, control and recovery work is jointly completed by China Wenchang Space Launch Site, Beijing Aerospace Flight Control Center, Xi’an Satellite Measurement and Control Center, Yuanwang Survey Ship, Jiuquan Satellite Launch Center and other units; the ground application system is mainly undertaken by the Chinese Academy of Sciences.

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

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May 2, 2024 kevinjamesngLeave a comment

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….

[Chang’e-6 completed the last inter-system full-area joint training before launch and plans to launch on May 3]

News from the National Space Administration, the Chang’e-6 lunar exploration mission organized a pre-launch full-area joint training on the morning of May 1 During the training, the Wenchang Space Launch Site, Beijing Flight Control Center, Xi’an Satellite Measurement and Control Center, Yuanwang measurement fleet and various measurement and control stations of the mission have implemented joint debugging and joint control. Currently, all systems have completed pre-launch preparations. After comprehensive research and decision-making by the Engineering Mission Command, the Chang’e-6 mission of the fourth phase of the lunar exploration project is scheduled to be launched on May 3.

During the joint training, each system participating in the test was tightly organized and cooperated closely to ensure that all procedures were carried out in an orderly manner. Since this mission lasted a long time and the various mission nodes were closely connected, the Wenchang Space Launch Site conducted a lot of detailed and thoughtful work in the mission preparation stage.

This is the last inter-system-wide joint training before the launch of Chang’e-6. It mainly tests various tasks during the launch phase of the Long March-5 carrier rocket and Chang’e-6 rocket assembly into orbit.

At present, at the Wenchang Space Launch Site in China, preparations for the mission are progressing steadily, and the Long March 5 Yao-8 launch vehicle for this launch is about to be filled with propellant. This is the second launch mission of the Long March 5 carrier rocket for lunar exploration. It will transport the Chang’e-6 probe to the Earth-Moon Transfer Orbit to implement a sample return mission from the far side of the moon.

The launch window refers to the time frame suitable for rocket launch. For this mission, based on comprehensive consideration of factors such as the position of the Earth and the Moon, the engineering team applied the “narrow window multi-orbit” launch technology to design a total of 10 lunar orbits for the rocket within a 50-minute window for two consecutive days.

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

#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

April 27, 2024 kevinjamesngLeave a comment

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

On April 27^th 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 |#WenchangSpacecraftLaunchCenter #文昌航天發射場 #BRI #March2024 |#CLEP #ChangZheng8 #LongMarch8 Yao 3 #CarrierRocket Launched towards the Dark side of Moon #LunarMission #Change6 #Queqiao2 relay #TelecommunicationSatellite #Satellite …. South Pole-Aitken Basin

March 20, 2024 kevinjamesngLeave a comment

On the morning of 20^th March 2024, Wednesday 0831 hours Hong Kong SAR- Beijing Time at CNSA –China National Space Administration– Wenchang Space Craft launch Center the Queqiao-2 relay satellite was successfully launched…. According to the National Space Administration, the Queqiao-2 relay satellite of the fourth phase of the lunar exploration project was launched by the Long March 8 Yao-3 carrier rocket. China’s Wenchang Space Launch Site successfully launched into space.

After the Chang Zheng- Long March 8 Yao-3 carrier rocket flew for 24 minutes, the star and arrow separated, sending the Queqiao-2 relay satellite directly into the predetermined Earth-moon transfer orbit with a perigee altitude of 200 kilometers and an apogee altitude of 420,000 kilometers. The relay star’s solar wing and center following the normal deployment of the communication antennas, the launch mission was a complete success.

The main load of this mission, the “Queqiao-2” relay satellite, was developed by the Aerospace Dongfanghong Satellite Company of the Fifth Academy of China Aerospace Science and Technology Corporation. It uses the CAST-2000 satellite platform, uses a hydrazine propulsion system, and adopts three-axis stability control. The pointing control accuracy is better than 0.03 degrees, the solar cell array output power is greater than 1350 watts, equipped with a 135 Ah battery, communicates based on the S-band Unified Measurement and Control (Unified S Band) system and the Very Long Baseline Interferometry (VLBl) system, the uplink communication rate is 2000bps, the downlink communication rate 4096/512bps, the satellite mass is about 1.2 tons, contains 488 kilograms of propellant, and has a design life of more than 8 years.

The communication payload carried by the satellite includes a 4.2-meter-diameter X-band parabolic antenna, which is used to communicate with the detector without a tracking device and points to the detector through the guidance navigation and control system (GNC); a 0.6-meter-diameter S/Ka dual-band parabolic antenna, Used to transmit data to the ground station, dual-axis tracking and pointing to the ground station; S-band relay antenna for measurement and control (TT&C); ultra-high frequency (UHF) relay antenna. In addition to providing data and signal forwarding, “Queqiao 2” will also forward various ground uplink instructions to the detector. At the same time, “Queqiao 2” is also a scientific exploration satellite equipped with an extreme ultraviolet camera, an array neutral atom imager, and the Earth-Moon Very Long Baseline Interferometry (VLBl) system.

Subsequently, with the support of ground measurement and control, Queqiao-2 will enter the capture orbit after mid-month correction and near-month braking; then enter the phase-modulation orbit after orbit control, and finally enter the 24-hour lunar mission orbit, becoming the successor to “Queqiao”. “After the relay star, it is the world’s second dedicated relay star beyond the earth’s orbit, providing support for the Chang’e-6 lunar sampling mission, and relaying the “Queqiao” relay star to provide relay communication services for Chang’e-4.

After the Long March 8 Yao-3 carrier rocket flew for 24 minutes, the star and arrow separated, sending the Queqiao-2 relay satellite directly into the predetermined Earth-moon transfer orbit with a perigee altitude of 200 kilometers and an apogee altitude of 420,000 kilometers. The relay star’s solar wing and center The communication antennas were deployed normally one after another. Subsequently, with the support of ground measurement and control, Queqiao-2 will enter the capture orbit after mid-month correction and near-month braking; then enter the phase-modulation orbit after orbit control, and finally enter the 24-hour lunar mission orbit, becoming the successor to “Queqiao”. “After the relay star, it is the world’s second dedicated relay star beyond the earth’s orbit, providing support for the Chang’e-6 lunar sampling mission, and relaying the “Queqiao” relay satellite to provide relay communication services for Chang’e-4.

Queqiao-2″ relay satellite and the carrying satellites “Tiandu-1” and “Tiandu-2” communication technology test satellites. The Long March 8 Yao-3 carrier rocket will be launched from Station 201 of the Wenchang launch site and will send the satellite into the Earth-moon transfer orbit. Minus 45 minutes after launch, the three-story rotating platform has all been opened.

The “Tiandu-1” and “Tiandu-2” communication technology test satellites were developed by China Deep Space Exploration Laboratory. Among them, “Tiandu-1” was developed by the Eighth Academy of Aerospace Science and Technology, with a mass of 61 kilograms. “No. 2” was developed with the participation of Harbin Institute of Technology and has a mass of 15 kilograms. After entering the Earth-moon transfer orbit, the “Tiandu” binary stars successfully unfolded their solar wings. Afterwards, they will make mid-course corrections, enter the capture orbit after near-lunar braking, and then enter the 24-hour large elliptical frozen orbit around the moon (Elliptical frozen orbit). , then the two satellites were separated and adjusted to a relative distance of about 200 kilometers to carry out verification of new technologies such as lunar orbit navigation space reference allogeneic calibration, Ka-band communication and ranging integration new system tests, and high-reliability lunar-to-ground transmission and routing.

This launch uses the Long March 8 Yao-3 carrier rocket ” basic rocket, which is 50.34 meters long, has a first-stage diameter of 3.35 meters, a second-stage diameter of 3 meters, a booster diameter of 2.25 meters, a take-off mass of 356 tons, a take-off thrust of 499 tons, and is equipped with a 4.2-meter diameter, The height of the fairing is 12 meters, and the Earth-to-Moon transfer orbit has a transportation capacity of more than 1.3 tons.

At the same time, this mission is also the first deep space launch mission for the ” Long March 8 Yao-3 carrier rocket and China’s new generation medium-sized launch vehicle. It is also the first time that the Long March 8 Yao-3 carrier rocket has undertaken the launch mission of the lunar exploration project of a major national aerospace project.

Arouse the bright moon in the sky, illuminating my ambition, and I am determined to go to Guanghan for an appointment. The divine arrow reaches the sky, and the Magpie Bridge …..

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