Category: Beijing

#MadeInChina #中國製造| #ISpace #星际荣耀 #InterstellarGlory #September2024 | #ChinesePrivateSpaceCompany –#CarrierRocket #ReusableCarrierRocket Completes RMB 700 Million in Series C and C+ Financing

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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 …

Beijing Interstellar Glory Space Technology Co., Ltd. (referred to as “Interstellar Glory”) was established in October 2016, with Peng Xiaobo as the legal representative. The company is committed to developing excellent commercial launch vehicles and providing systematic launch solutions, providing global commercial aerospace customers with more efficient, higher-quality, and more cost-effective launch services, so as to greatly improve the ability of human beings to freely enter and exit space.

The company focuses on the research and development of intelligent launch vehicles, and provides integrated commercial launch services for global satellite and constellation customers.

/  The moment of launching the Hyperbola-1 Yaoqi Shifang rocket  /

“Interstellar Glory Completes RMB 700 Million in Series C and C+ Financing “

Recently, Beijing Interstellar Glory Space Technology Co., Ltd. (hereinafter referred to as “Interstellar Glory”) completed RMB 700 million in Series C and C+ financing , led by Xinding Capital and Sichuan Industrial Revitalization Fund Investment Group Co., Ltd. (hereinafter referred to as “Sichuan Industrial Fund”), and followed by Jingming Capital, Huizhu Capital, Anji Pinbolo, Shifang Hengxin Construction, Qianlima Fund and other institutions.

This round of financing will be used to lay out the final assembly production capacity of solid launch vehicles and defense businesses, and to accelerate the development of Hyperbola III reusable liquid launch vehicle technology. Among them, the C+ round of financing is a strategic investment in Star Glory by Sichuan Xingchuan and Sichuan Synergy, subsidiaries of Sichuan Industrial Fund, in conjunction with Shifang City, Deyang, etc., to open up an innovative cooperation model and through a three-level cross-regional linkage. Through this strategic financing, Star Glory has realized its layout in Shifang City, Deyang. Star Glory can make full use of Shifang’s aerospace industry chain, deepen the collaborative cooperation with Deyang local aerospace companies such as Hangyu Technology, Aisda, and Xinhangtai, and further drive the development of the Shifang aerospace industry chain.

This collaboration not only marks a new start for Star Glory in Shifang, Deyang, but also an important milestone in the layout of the aerospace industry in Sichuan Province. It demonstrates the achievements of Sichuan Province in guiding and accelerating the aerospace industry cluster, building a modern industrial system, and planning and cultivating future industries.

/  Hyperbola-3 medium-to-large reusable liquid launch vehicle  /

After the establishment of Interstellar Glory, it determined the “solid and liquid” development route of “starting with small solid rockets and focusing on reusable liquid launch vehicles”, and took the lead in realizing the first launch into orbit by a domestic private commercial rocket company. At present, Interstellar Glory’s first four-stage small solid launch vehicle Hyperbola No. 1 (SQX-1) has now entered the commercial launch stage. The company’s independently developed reusable liquid oxygen-methane engine Focus No. 1 (JD-1) has accumulated more than 12,000 seconds of ground test runs. The Hyperbola No. 2 verification rocket (SQX-2Y) has completed two vertical launch and vertical recovery flight tests in November and December 2023. The mission is the first domestic vertical take-off and landing test of the first stage of a full-scale liquid oxygen-methane rocket, which has achieved a major breakthrough in China’s aerospace reusable launch vehicle technology and provided strong technical support for the company’s medium-to-large liquid reusable launch vehicle Hyperbola No. 3 (SQX-3) that is being developed. The company’s 100-ton liquid oxygen-methane reusable engine (JD-2) has been developed. It is the largest reusable liquid oxygen-methane engine in China. JD-2 is undergoing intensive tests and has completed key tests such as full system test, secondary ignition, continuous variable thrust, mixture ratio pull-bias, high operating conditions, step-change thrust, and long-range test. Interstellar Glory ranks first in China in the development of liquid reusable technology.

Based on the experience accumulated by SQX-2/2Y, the development work of SQX-3 is being efficiently promoted around the first flight goal of “orbiting + recovery”. Both the rocket and ground products have been put into production and are expected to be delivered in January 2025. At that time, the SQX-3 simulated rocket will carry out sea tests and joint training. At present, Interstellar Glory has put into production three SQX-3 launch vehicles, and plans to complete the first “orbiting + sea recovery” flight test in December 2025 and the reuse flight test in June 2026 .

Images-visuals are from their respectives..

#MadeInChina #中國製造 #中國 | #星河动力空间科 #GalacticEnergy #August2024| #CarrierRocketShopping #谷神星一号遥 #Ceres1S Yao 3 Sea Launched successfully Deploy Six #Satellites from China’s Yellow Sea.

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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

[The Ceres-1 sea launch adds 6 more satellites to China’s space program! ]

At 13:22 Hong Kong SAR- Beijing time on August 29th Thursday, 2024, on the “Dongfang Spaceport” sea launch ship in the Yellow Sea, the “Ceres-1” sea-launched Yao-3 carrier rocket carried six small optical remote sensing satellites, including “Yunyao-1” 15-17 satellites, Jitianxing A03 satellite, “Suxing-1” 01 satellite, and “Tianfu Gaofen-2” satellite, and sent the satellites into a sun-synchronous orbit (SSO) at an altitude of 535 kilometers.

The “Ceres-1” sea-launched carrier rocket is a small solid-fuel carrier rocket. The arrow is about 20 meters high, 1.4 meters in diameter, with a takeoff mass of about 33 tons and a capacity of 300 kilograms in a sun-synchronous orbit (SSO) at an altitude of 500 kilometers.

The Ceres-1 sea-launched rocket was developed by Beijing Galactic Energy. It is an adaptive improvement on the Ceres-1 standard rocket. It is a four-stage small rocket with a four-stage tandem configuration. The first, second and third stages use solid power, and the fourth stage uses liquid power. The rocket is about 20 meters high and 1.4 meters in diameter. It has a takeoff mass of about 33 tons and a takeoff thrust of 60 tons. Its altitude is 500 kilometers and the sun-synchronous orbit (SSO) has a carrying capacity of 300 kilograms.

Since its successful maiden flight on November 7, 2020, Ceres-1 has carried out 15 launches, 14 of which were successful, with a success rate of about 93.33%. Since the successful launch of the Ceres-1 sea-launched Yao-1 rocket on September 5, 2023, Ceres-1 has successfully carried out three consecutive sea launches, leading the way among private commercial aerospace companies.


This launch mission is the fourth launch of the Ceres-1 rocket in 2024, the third launch in the Yellow Sea (Taiyuan Satellite Launch Center), the 38th launch in China and the 156th orbital space launch in the world. At the same time, this launch is also the fourth marine space launch in China and the world this year.


This launch mission is the fourth launch of the Ceres-1 rocket in 2024, the third launch in the Yellow Sea (Taiyuan Satellite Launch Center), the 38th launch in China and the 156th orbital space launch in the world.

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  

#MadeInChina #中國製造| #中科宇航 #ZhongkeAerospace #ChinaAcademyOfScience #CASSPace #August2024 | #CarrierRocket #ReusableCarrierRocket #MannedReusableCarrierRocket #CarrierRocket Series The three-core parallel Lijian-2 has entered the engineering development stage, and its first flight will be equipped with a cargo spacecraft!

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Beijing Zhongke Aerospace Exploration Technology Co., Ltd. is the first domestic aerospace enterprise with mixed ownership, and it is also the target enterprise that Oriental Aerospace Port focuses on introducing. Relying on the scientific research strength and resource advantages of the Institute of Mechanics of the Chinese Academy of Sciences and the Aerospace Flight Technology Center of the Chinese Academy of Sciences, China Aerospace Science and Technology has been committed to the research and development and integration of space technology and aerospace vehicles as a platform for the transformation of major national scientific research projects, as well as the transformation and provision of technological achievements. Aerospace launch service. The Lijian-1 rocket project also adds a brand-new name card to the Oriental Space Port, which will surely promote the construction of the Oriental Space Port to take a solid step forward.

Static test of composite cabin of “Lijian-2” liquid launch vehicle

Before July 29, 2024, the static test of the composite cabin of the “Lijian-2” liquid launch vehicle was successful. This test mainly verifies whether the structural scheme meets the design requirements under the maximum design load and assesses the feasibility of the composite scheme. Since the beginning of this year, the development of the “Lijian-2” rocket has been rapidly advanced and is steadily moving towards its first flight.

Three cores in parallel, bundled recycling

“Lijian-2” is a medium-sized cryogenic liquid carrier rocket developed by the China Aerospace Science and Technology Corporation (CAS Space). It adopts a two-and-a-half-stage configuration. The take-off stage adopts a CBC configuration, in which the core first stage and two core first stage module boosters are bundled side by side, and the core second stage is connected in series on the core first stage.

The first stage of the rocket core is equipped with three YF-102 liquid oxygen-kerosene engines, adopting an open gas generator cycle and a pump-front swing design, supporting double swing of ±6°, a single sea level thrust of approximately 85 tons (835 kN), a sea level specific impulse of 275.5 seconds, and a thrust-to-weight ratio of not less than 130; the two boosters are configured basically the same as the first stage of the core; the second stage of the core is equipped with a YF-102V liquid oxygen-kerosene engine with a thrust of approximately 72 tons (710 kN), which can achieve 55%~100% variable thrust, a vacuum specific impulse of 320 seconds (throttling)~330 seconds, and support repeated starts for no less than 2 times.

Schematic diagram of the Force Arrow II

The entire rocket of “Force-2” is 52 meters high. The diameters of the core stage, core stage and booster are all 3.35 meters. It is equipped with a fairing with a diameter of 4.2 meters. The take-off mass is 625 tons and the take-off thrust is 766 tons. Its low-Earth orbit (LEO) carrying capacity is 12 tons and its 500-kilometer sun-synchronous orbit (SSO) carrying capacity is 8 tons.

The ultimate goal of “Force Arrow II” is to become a reusable launch vehicle, realize multiple recovery and reuse of the core stage and boosters, and support reuse more than 20 times. The three-core parallel launch stage of the arrow will implement cluster separation and cluster recovery. The convenience lies in that it only needs to be equipped with a flight control system and a recovery and landing system, the latter includes a set of sang rudders and a set of landing legs. Two of the four sang rudders are distributed in the core stage, and the other two are distributed in the boosters. Two of the four landing legs are distributed in the core stage, and the other two are distributed in the boosters. According to the plan, “Force Arrow II” will realize the recovery of the core stage and booster modules in 2028.

The first flight is to launch a cargo spacecraft

Since the proposal, the “Lijian-2” has undergone major changes in the plan. The current design is very different from the previous single-stage plan, and the first flight has been postponed for several years. According to the plan, in August 2025, the “Lijian-2” will make its first flight at the No. 2 station of the Wenchang Commercial Space Launch Site, and the takeoff stage will not be recovered.

The first flight mission of “Lijian-2” carried a heavy-duty cargo spacecraft. The cargo spacecraft was developed by the Microsatellite Innovation Institute of the Chinese Academy of Sciences. In the bidding for the overall plan of the low-cost cargo transportation system for the Chinese space station released by the China Manned Space Engineering Office in May 2023, the Chinese Academy of Sciences and the Satellite Innovation Institute jointly carried out ship-rocket joint demonstration and key technology research, and carried out the “ship-rocket-cargo” integrated space-to-earth transportation system plan design. With the ship-rocket collaborative solution of the low-cost cargo spacecraft and the “Lijian-2” rocket, it was successfully shortlisted in the bidding and entered the detailed design stage of the plan.

The launch mission of the low-cost cargo spacecraft to be carried out by the Lijian-2 rocket is the first time that a Chinese commercial aerospace enterprise has participated in the development and launch of a low-cost cargo transportation project for the Chinese space station. If it is finally selected, the Lijian-2 will become China’s first commercial rocket to carry out manned space missions, which will also be a recognition of the reliability of the Lijian-2.

Build your own advantages by networking for the constellation!

As a commercial aerospace enterprise, China Aerospace Science and Technology is targeting the vast commercial space launch market, especially the low-orbit satellite constellation launch service market. my country’s currently planned low-orbit constellation contains tens of thousands of satellites, which require launch vehicles to provide large-capacity, high-frequency, low-cost, and high-reliability launch services. Compared with China’s liquid commercial rockets of the same level, the “Lijian-2” rocket does not have an advantage in capacity, but it can work hard on high frequency, low cost, and high reliability.

Create high-frequency launches. At the Hainan Commercial Space Launch Center in China, two launch stations have been built. Both stations have a designed launch capacity of 16 times per year. Station 2 is a general-purpose station that needs to support the launch of more than a dozen types of rockets, which is far from enough for high-frequency launches. In addition to using Hainan Commercial Launch Station 2, China Science and Technology Aerospace is building a dedicated technical preparation plant at the Jiuquan Satellite Launch Center and is about to build a dedicated launch station for the “Lijian-2” rocket. Based on self-built stations, China Science and Technology Aerospace will be able to achieve dozens of launch frequencies per year.

The core secondary box section of “Lijian-2”

Achieve low cost. “Lijian-2” uses a lot of mature technologies. The main power is all YF-102 series engines. All stages use mainstream tank modules with a diameter of 3.35 meters. It uses the same avionics system as “Lijian-1”. The application of mature and common technologies means that costs can be greatly reduced. At the same time, simplifying the design is another important way to control costs. For example, the core second-stage box section takes into account the functions of the traditional liquid rocket instrument cabin and cancels the core second-stage instrument cabin, which simplifies the cabin structure and saves materials.

Achieve high reliability. While applying mature and general technologies, the power system and avionics system adopt redundant design, and the separation scheme is simple, making the rocket highly reliable. For example, the launch stage of the rocket is equipped with 9 YF-102 engines, with a single sea level thrust of about 85 tons, a total rocket takeoff thrust of 766 tons, a takeoff mass of 625 tons, and a thrust-to-weight ratio of 1.23, achieving a large power redundancy, and can complete the launch mission in the event of one engine failure.

Schematic diagram of the heavy-duty “Force Arrow II”

Building a stronger model

After my country’s low-orbit constellation enters the large-scale networking period, the intensive networking and launch of tens of thousands of satellites requires a large-scale reusable launch vehicle, but the current “Lijian-2” has obviously insufficient capacity.

Based on the Lijian-2, China Aerospace Science and Technology will develop a more powerful “Lijian-2” heavy-lift launch vehicle (called “heavy”, but actually large). The latter is based on the former and adds two core-stage module boosters to achieve five cores in parallel (5CBC). The “Lijian-2” heavy-lift rocket is 56 meters high, with optional fairings of 4.2 meters and 5 meters in diameter, a takeoff mass of 913 tons, a low-Earth orbit (LEO) capacity of 22 tons, and a 500-kilometer sun-synchronous orbit (SSO) capacity of 15 tons. The core stage and booster can be reused more than 20 times.

In general, the “Force-2” will be a high-quality rocket that can meet market demand to a large extent. Facing the needs of constellation network launches, with its advantages of high frequency, low cost and high reliability, the “Force-2” is bound to become one of the main near-Earth “flights”.

Images and visuals are from their respectives

#MadeInChina #中國製造 #中國 | #星河动力空间科技有限公司#GalacticEnergy #July 2024|#CarrierRocketShopping Progress of#智神星一号 #Pallas1 #CarrierRocket  successfully completed a series of fairing tests.  

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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.

[The Pallas-1 launch vehicle successfully completed a series of fairing tests]

On the 25th July 2024 The latest news from Galaxy Power; Recently, the company completed a series of static, modal, and separation tests on the Pallas-1 launch vehicle fairing, all of which were successful. The Pallas-1 series of launch vehicles are compatible with fairings with diameters of 3.35m, 4.2m, and 5.2m to meet the needs of different satellite customers. The fairing used in this test is one of the series of fairing products independently developed and designed by Galaxy Power, and is consistent with the status of the Pallas-1 Yao-1 flight test product.

The Pallas- 1 has a maximum low-orbit carrying capacity of 8 tons, with seven 50-ton liquid oxygen-kerosene engines in parallel in the first stage. It is scheduled to make its maiden flight at the end of this year….

Recently , Galaxy Aerospace completed a series of static, modal and separation tests on the fairing of the Pallas-1 launch vehicle, and all the tests were a complete success!

 The Pallas-1 series of launch vehicles are compatible with fairings with diameters of 3.35m, 4.2m, and 5.2m to meet the needs of different satellite customers. The fairing used in this test is one of the series of fairing products independently developed and designed by Galaxy Power, and is consistent with the Pallas-1 Yao-1 flight test product. The fairing adopts a von Karman shape, which has the advantages of low flight aerodynamic resistance, light structural mass and easy operation.

The fairing end cap is made of high-strength ablation-resistant composite material, a large area of ​​honeycomb sandwich composite material structure, and a metal frame structure at the rear. The fairing separation system adopts a “hinge-spring” half-cover rotation separation scheme, and the lateral and longitudinal separation unlocking devices both use point-type explosive bolts, which have small impact during the separation process and high separation reliability.

The static test of the fairing assessed the fairing’s ability to resist external loads and verified the structural strength. The test achieved the intended purpose and obtained relevant data. The modal test obtained the fairing’s modal parameters, providing a basis for structural dynamics model modification and fairing separation calculation.
 

The fairing separation test fully verified the correctness of the fairing separation system design, obtained the collision boundary data between the fairing separation body and the payload, assessed the adaptability of the structural system to the separation concentrated force load and the impact load of pyrotechnics, and obtained important mechanical environment parameters.

The complete success of the fairing series tests indicates that Galaxy Aerospace has the ability to quickly design, analyze and test large liquid rocket fairings, laying a solid foundation for the company’s subsequent model development.

Imagines and Visuals are from their respectives..

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #July2024 #Tiangong #ChinaSpaceStation #CMS #ChinaMannedSpace, #Takionaut #桂海潮 #GuiHaichao #神舟十六号 #Shenzhou16  #CCTV #开讲啦 #TheVoice China Youth TV Open Course Television Program….

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The farthest scenery that even myopia can see! My country’s first Takionaut to wear glasses – Gui Haichao, Takionaut 03 of the 神舟十六号 Shenzhou 16 Crew | Start speaking The Voice

Contents of this issue from the Voice on CCTV : On May 30, 2023, three Takionauts, Jing Haipeng, Zhu Yangzhu, and Gui Haichao, entered the Chinese Space Station aboard the Shenzhou 16 manned spacecraft and began a five-month space journey. Among the astronauts, Takionaut figure wearing glasses is particularly eye-catching. He is Gui Haichao, a professor at Beihang University and the first payload expert of the Chinese Space Station. In this issue of “Let’s Talk”, Gui Haichao will share his “mission Trip in Space”.

本期内容:2023年5月30日,景海鹏、朱杨柱、桂海潮3名航天员搭乘神舟十六号载人飞船进入中国空间站,开启为期5个月的太空之旅。航天员中,一个戴着眼镜的身影格外引人注目,他就是北京航空航天大学教授、中国空间站首位载荷专家桂海潮。本期《开讲啦》,桂海潮将分享他的“太空出差记”。

00:00 The main film begins.

02:37 What is it like to have a “space mentor”?

07:28 Real-time hot note: Will the threshold for ordinary people to become Takionauts be lower?

13:05 Real-time hot note: Gui Haichao shows us that knowledge can really change our destiny!

15:42 Real-time hot note: What are you enjoying? Aren’t you nervous or scared?

21:16 Gui Haichao asked: If you are a little tired of traveling in space and want to find a place to relax, where should you choose?

25:45 Gui Haichao asked: The space bicycle is one of the important equipment for on-orbit exercise. What is the difference between riding a space bicycle in the sky and on the ground?

35:04 Gui Haichao: Three sentences that impressed me very deeply.

42:05 The audience asked Gui Haichao: How to interpret the sentence “Whether I am in space or back on the ground, I will always have the universe in mind, and know and do as one.”

CNSA China National Space Administration CMS – China Manned Space Shenzhou 16 Takionaut桂海潮 #GuiHaichao male, Han nationality, born in November 1986, a member of the Communist Party of China , native of Shidian County, Baoshan City , Yunnan Province , payload specialist , professor and doctoral supervisor at the School of Astronautics, Beijing University of Aeronautics and Astronautics , astronaut of the Shenzhou 16 crew, the first payload specialist of the Chinese space station , and the first Chinese Takionaut to wear glasses during a flight mission 

Gui Haichao graduated from the Beijing University of Aeronautics and Astronautics in July 2014 with a doctorate in engineering. From July 2014 to August 2017, he worked as a postdoctoral researcher at York University and Ryerson University in Canada . Since September 2017, he has worked at the School of Astronautics of the Beijing University of Aeronautics and Astronautics as a special associate researcher and doctoral supervisor. From May 30 to October 31, 2023, Gui Haichao, as an astronaut, boarded the Shenzhou 16 manned spacecraft and successfully completed all the scheduled tasks including extravehicular activities. In April 2024, the CPC Central Committee, the State Council, and the Central Military Commission awarded Gui Haichao the honorary title of “Heroic Takionaut” and presented him with the “Third Class Space Merit Medal.

The “Let’s Talk” column was launched in September 2012. It is a Chinese youth television open class program produced by CCTV Comprehensive Channel and hosted by Sa Beining .

“Let’s Talk” invites “role models in the hearts of Chinese youth” as speakers, and through sharing cutting-edge new knowledge, conveys mainstream values ​​from a plain perspective and in a subtle way. The column is positioned as a Chinese TV youth open class, and has received widespread attention and praise for its “young” and “all-media” communication characteristics; each episode of the program invites a guest to tell their own story and share their feelings about life and life, giving Chinese youth realistic discussions and spiritual nourishment. Discussing the life problems of young people, it also discusses the social problems of young China.. 

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