Category: Hong Kong

#MadeInChina #中國製造 #中國 | #北京 #Beijing #天兵科技 #TianbingTechnology #SpacePioneer #July2023 |#Tianhuo12 #TH12-  100-ton liquid #ReusableCarrierRocketEngine  #ReusableCarrierRocketEngine first flight status and long-range thermal test of the whole system were successfully completed….

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Founded in 2015 located in Beijing ….天兵科技 – 北京天兵科技有限公司Tianbing Technology is an Aerospace propulsion system supplier and spacecraft provider One of Sixty Plus Chinese carrier Rocket companies in China, People’s Republic of China ……. Tianbing Technology is an advanced aerospace propulsion system supplier and aerospace vehicle provider. Tianbing Technology independently develops the next-generation ambient temperature green HCP liquid propellant and minimalist aerospace propulsion system. As an upgraded product of traditional chemical propulsion system, it can meet cost-effective aerospace. Advance system supporting needs. The next-generation green HCP aerospace propulsion system, first tested by Tianbing Technology, can be used in the small-vehicle main power and launch vehicle upper-level propulsion system.

[Tianbing Technology’s 100-ton liquid rocket engine first flight status and long-range thermal test of the whole system were successfully completed] Recently on the week on 24th July 2023 , Tianhuo 12 (hereinafter referred to as TH-12), a 110-ton thrust liquid oxygen kerosene rocket engine “Tianhuo 12” (hereinafter referred to as TH-12), a large liquid carrier rocket of Tianbing Technology, successfully completed the long-range thermal test of the whole system.

During the test run, the engine started quickly, worked smoothly, and shut down normally. The data shows that the engine works stably for a long time under the rated working conditions, and various performance indicators meet the design requirements and meet the rocket flight requirements.


The Tianhuo 12  is specifically  designated towards the  Reusable Carrier Rocket Tianlong-2 medium-sized liquid carrier rocket independently developed by Tianbing Technology successfully made its maiden flight. This is the first private liquid rocket in China. On the basis of the successful launch, Tianbing Technology independently developed the Tianlong-3 large liquid launch vehicle. Compared with the Tianlong-2 rocket, the Tianlong-3 rocket has a greater carrying capacity. The self-developed 100-ton Tianhuo 12 liquid oxygen kerosene rocket engine has passed the test run of the whole system under various working conditions.

Through multiple long-range hot test runs under rated conditions, the following goals have been achieved:

1) The correctness of the engine design state has been verified.
The test results have proved that all key technologies such as air-conditioning multiple start technology, self-ignition ignition technology, combustion instability suppression technology, super-large thrust chamber 3D printing manufacturing technology and turbine disk thermal component 3D printing technology have made breakthroughs, and the design state of the engine has been completely determined.
2) The correctness of the engine batch production process was verified.


This test product is the first set of products to be mass-produced and manufactured relying on social resources, which marks that the low-cost manufacturing routes such as the engine manufacturing process plan, process flow, and production organization model have been verified. It can be fully transferred to the mass production and delivery stage of 40 engines.

Tianlong-3 is the first large-scale liquid launch vehicle in my country’s commercial aerospace field, which will greatly enhance the carrying capacity of my country’s commercial spaceflight. The power system of Tianlong-3 adopts a fully self-developed TH-12 liquid oxygen kerosene rocket engine, with a design thrust of 110 tons and a thrust-to-weight ratio of 163.

The TH-12 engine has deep variable thrust, whole-process real-time health monitoring, and multiple ignition and start functions, which can meet the market demand for launch vehicle reusability and low-cost launch; at the same time, it adopts no pyrotechnics start-up technology, which can meet the development needs of high-frequency tests and enhanced reliability verification. The TH-12 engine has a simple structure, high thrust-to-weight ratio, and high surface thrust density, and its product performance is at an international leading level.

The complete success of the long-range thermal test run of the TH-12 engine system marks the acceleration of the development of Tianlong-3, a large reusable liquid rocket of Tianbing Technology, and has entered the stage of mass production, which will help the comprehensive and rapid implementation of satellite Internet constellation construction. (Tianbing Technology)..

Images and visuals are from their respectives also天兵科技 – 北京天兵科技有限公司Tianbing Technology- Space Pioneer..

#CNSA #ChinaNationalSpaceAdministration #国家航天局 | #BRI #July2023 |#CASC #ChinaAerospaceScienceAndTechnologyCorporation – #长征十号 #MannedCarrierRocket #CarrierRocketFreighter  #3DPrinting #CarrierRocketEngine Testing the #ChangZheng10 #LongMarch10 engine at Thrust of 130 Tons Successfully …..

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长征十号 At 22nd  23rd July  2023 Hong Kong SAR- Beijing time , China- People’s Republic of China- CNSA –China National Space Administration   Successfully Carrier Rocket  engine tested for the New Next Generation Chang Zheng – Long March 10 Manned Lunar mission landing Carrier rocket freighter The main engine of China’s manned lunar landing rocket Long March 10 completed another ignition test run yesterday, which verified all the requirements of the rocket mission for the engine, and provided strong support for the solidification of the engine’s technical status, the establishment of product technology baselines, and the improvement of reliability.



The engine used in this test run uses advanced liquid oxygen kerosene as fuel, which is improved and iterated from the high-thrust liquid oxygen kerosene engine used by the new generation of launch vehicles such as the active Long March 5, with a thrust of 130 tons. (The Sixth Academy of Aerospace Science and Technology Group)

Created with GIMP

The reporter learned from China Aerospace Science and Technology Group Co., Ltd. on July 23 that the main engine of my country’s manned moon landing rocket was tested in the Fengzhou Test Area of ​​the Sixth Academy of Aerospace Science and Technology Corporation, and achieved continuous success. This test run verified the engine flight mission profile, and provided strong support for the solidification of the engine technical state, the establishment of the product technical baseline, and the improvement of reliability.

The engine is the power source of the rocket, and its development process is very complicated. Test run is an important link in the engine development process, and there are dozens of types. In layman’s terms, engine test run is the process of igniting the engine and verifying the rationality of its design scheme and process reliability. This is an indispensable and important part of the development and delivery of a type 1 engine. It will run through all stages before and after engine development. Each stage of test run has different meanings, and the ignition time varies from a few seconds to hundreds of seconds.

It is reported that the engine used in this test run uses advanced liquid oxygen kerosene as fuel, which is improved and iterated from the high-thrust liquid oxygen kerosene engine used by the new generation of launch vehicles such as the Long March 5. The thrust reaches 130 tons. The R&D team of the Sixth Academy of Aerospace Science and Technology Group adheres to the concept of digital design, and has successively overcome key technical problems such as engine start-up and shutdown sequence, engine wide-range continuously variable thrust, and engine long life and high reliability.

In addition, the continuous success of the test run has fully verified the reliability of a number of new carrying process technologies. The engine production of this test run adopts the concept of intelligent manufacturing, and actively applies new materials, new processes, and new technologies. The inner wall of the thrust chamber of the core component adopts a new protective coating, key assemblies adopt automatic welding technology, and a large number of components adopt 3D printing technology.

During the preparation of the engine test run, the participants in the research and test conducted tests and verifications on each subsystem of the test through comprehensive means such as digital modelling, simulation calculation, and system debugging. The successful test run shows that the test area has greatly improved the multi-station parallel test run capability and test efficiency by optimizing the workflow.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration  the Sixth Academy of Aerospace Science and Technology Group

#CNSA #ChinaNationalSpaceAdministration #国家航天局 | #太原卫星发射中心 #BRI #July2023|# #TaiyuanSatelliteLaunchCenter  – International Iconic #ChangZheng2D  #LongMarch2D  yao 91  #CarrierRocket in launched to deploy successfully four #Satellites # Sixiang # Yinhe #GalaxyAerospace #Lingxi .. #RemoteSensing #Telecommunications

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At 1050 Hours Hong Kong SAR- Beijing Time  23rd July  2023 , China- People’s Republic of China- CNSA –China National Space Administration   Successfully launched  the New Next Generation Long March – Chang Zheng2D Yao 91 …..At 10:50 on July 23, the Chang Zheng- Long March 2D carrier rocket was ignited and blasted off at the Taiyuan Satellite Launch Center Shanxi Province.. Subsequently, the rocket successfully sent a total of four satellites, Sixiang 01~03 and Yinhe 03, into the predetermined orbit, and the launch mission was a complete success.

The four satellites launched this time are provided by the Great Wall Company, a subsidiary of China Aerospace Science and Technology Corporation, as the project contractor to provide launch services. The Chang Zheng- Long March 2D carrier rocket used for this launch mission is a room temperature liquid two-stage launch vehicle developed by the General Manager of the Eighth Academy of China Aerospace Science and Technology Corporation. It has the ability to launch single and multiple satellites with different orbital requirements, and has a carrying capacity of 1.3 tons corresponding to a 700-kilometer sun-synchronous orbit.

Sixiang 01~03 satellites are collectively referred to as Sixiang Group A multi-source remote sensing satellites. Among them, Sixiang 01 satellite is developed by Beijing Sixiang Aishu Technology Co., Ltd.; Sixiang 02~03 satellites are developed by Yinhe Aerospace (Beijing) Network Technology Co., Ltd. The three satellites are equipped with synthetic aperture radar remote sensing payload, optical remote sensing payload and infrared remote sensing payload for remote sensing observation and application.

Galaxy Aerospace Lingxi 03 satellite was developed by Galaxy Aerospace (Beijing) Network Technology Co., Ltd. The satellite is a flat-panel stacked satellite configuration, equipped with flexible solar wings and active thermal control fluid circuits, and the satellite is equipped with millimeter-wave multi-beam digital processing loads for on-orbit verification of broadband communication satellite technology. This is my country’s first satellite to use flexible solar wings, and it is also my country’s first in-orbit verification of multi-satellite stacking launch technology, which will provide technical support for the rapid deployment of my country’s giant low-orbit communication constellation.

Different from the design ideas and physical form of traditional satellites, Lingxi 03 is a flat-panel satellite without a heavy cubic shell, which looks like a car chassis. According to Hu Zhao, the commander-in-chief of Galaxy Aerospace Lingxi 03, Lingxi 03 draws on the design concept of integral casting of automobile chassis, and adopts integrated and highly integrated comprehensive electronic technology, which is easy for mass production of satellites, can shorten the cycle of satellite development, and improve the network efficiency of satellite constellations. After completing relevant technical verification, it is planned to implement multi-satellite launches with one arrow in the future.

This launch is the 479th launch of the Long March series of launch vehicles

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

#MadeInChina #中國製造 #中國 |酒泉衛星發射中心#JiuquanSatelliteLaunchCenter #星河动力空间科技有限公司#GalacticEnergy #July2023|#CarrierRocketShopping #谷神星一号遥 #Ceres1 Y6 #CarrierRocket Successfully launched two #Satellites #StarTimes16 #Qiankun1 mission code name #LemonTree  

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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 1307afternoon 22nd July  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…..Galaxy Power Aerospace successfully launched the Ceres-1 (Yao-6) Sichuan Ziyang carrier rocket (mission code: LEMON TREE) at the Jiuquan Satellite Launch Center, and successfully sent the Qiankun-1 ultra-low orbit technology test satellite and Tai’an (Star Times-16) satellite into the predetermined orbit.

High-density launch is the only way for a commercial rocket to go from development to maturity, from laboratory products to assembly line industrial products. It comprehensively tests an enterprise’s organizational capabilities, management capabilities, support capabilities, and technical capabilities. It requires continuous innovation and changes in the production organization model. The high-density space launches carried out by the world’s major aerospace countries encountered setbacks in the early days, but through the efforts of all aspects from rocket design and manufacture to inspection and maintenance, they finally achieved unprecedented launch capabilities, and laid the foundation for the generalization, serialization, and modularization of rocket technology, which eventually led to the improvement of the overall level of the launch vehicle industry.

As the first domestic private rocket launcher to start high-density launches, Galaxy Dynamics Aerospace will continue to move towards more efficient, more reliable, and safer goals in the next few months. With the sufficient launch capacity of the Ceres-1 carrier rocket, it can meet the launch windows and orbital requirements of different satellite customers, speed up the closed loop of satellite launch services, and improve the performance and delivery capabilities of high-density launches.

The first domestic ultra-low orbit test satellite “Qiankun-1” launched this time was developed by Seth Base Intelligent Technology Co., Ltd., equipped with hyperspectral imagers, visible light full-color cameras, image intelligent processors and other test loads. It is used to verify the key technologies for breaking through ultra-low orbit flight, build an advanced aerospace intelligent platform, and fill the gap in my country’s ultra-low orbit space technology application field. The Tai’an (Star Times-16) satellite is a hyperspectral remote sensing satellite developed by Nationstar Aerospace. At the same time, it is equipped with the blockchain satellite payload developed by the company. It will implement the world’s first visual blockchain on-orbit certificate storage and commercial services, and launch a series of space computing content applications such as the world’s first space digital life platform (Interstellar Immortal Passenger).

This is the sixth consecutive successful launch of Ceres 1. So far, Galaxy Dynamics has served 12 commercial satellite customers and completed the orbital launch of 21 commercial satellites.

Thanks to the Industrial and Commercial Bank of China Ziyang Branch for its support for this launch…..Today is a good day. The Ceres-1 remote-6 carrier rocket was successfully launched. ….Six consecutive victories! Ceres-1 carrier rocket officially launched high-density launch delivery…

Images and visuals are from their respectives also Galactic Energy is located in Block D, Aviation Technology Plaza, E-Town, Beijing- China – People’s Republic of China

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #July2023 | #天宫 #Tiangong #ChinaSpaceStation #CMS #ChinaMannedSpace #神舟十六号 #Shenzhou16 #桂海潮 #GuiHaichao- Space Science and Application Project Solicitation Officially Starts Application

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[China Space Station Space Science and Application Project Solicitation Officially Starts Application 航人贵海涛From天宫发来听听 ]

CNSA –China National Space Administration The China Space Station space science and application project declaration system was officially opened on the morning of July 20, 2023, Hong Kong SAR- Beijing time.  Taikonaut  桂海潮 Gui Haichao, China’s first payload expert who is performing missions on the space station, sent an invitation to colleagues from the scientific and technological community to do experiments at the “Tiangong”.


In order to promote the overall development of China, People’s Republic of China space science, space application, and space technology, in mid-June, the China Manned Space Engineering Office released the “Guidelines for Space Station Application and Development Engineering Space Science and Application Projects (V1.0)” to openly solicit space science and application projects from the whole society. This solicitation covers four major fields: space science and human body research, microgravity physical science, space astronomy and earth science, and new space technologies and applications. Each field has several themes and directions. The application system will be officially opened at 9 am on July 20 and will end at 16:00 on August 10. For details of the “Project Guide” and the application methods and requirements, please refer to the China Manned Space Engineering Network (www.cmse.gov.cn).

According to reports, the space station, as my country’s “national space laboratory” covering the most complete fields of space science-related disciplines, has the strongest on-orbit support capability, and has unique advantages such as manned participation and uplink and downlink transportation, has deployed world-class scientific research and technology testing facilities on orbit, and has the ability to carry out large-scale space science research. The scientific experiment cabinet, technical test cabinet and support system equipped inside the cabin, and the exposure experiment platform, standard load interface and large load hanging point outside the cabin can support scientific research, technical tests and applications in many fields. In addition, in order to give full play to the comprehensive benefits of engineering services for economic and social development, the China Manned Space Engineering Office will continue to use Tianzhou cargo spacecraft to provide opportunities for the whole society to carry scientific experiments (experiments)…

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