On the 1155 morning 16TH November 2023 Thursday Hours Hong- Kong SAR – Beijing time CNSA –China National Space Administration , China, People’s Republic of China. Successfully launched the Yonggan 33 Remote Sensing satellite with the Chang Zheng- Long March 2C Jiuquan Satellite Launch Center, Inner Mongolia, China, People’s Republic of China, and then successfully launched a new generation of ocean water color observation satellite into the predetermined orbit, and the launch mission was completed successfully.
At 11:55 on November 16, my country successfully launched a new generation of ocean satellite at the Jiuquan Satellite Launch Center using a launch vehicle composed of the Long March 2C basic stage and the Yuanzheng 1S upper stage. Water color observation satellite Haiyang-301. The satellite’s indicators have reached the advanced level of international water color remote sensing satellites, can meet the main business needs of my country’s marine environment monitoring, and can serve major national strategic needs such as ecological civilization construction, smart ocean engineering construction, and the “One Belt, One Road” initiative.
At 11:55 on November 16, my country successfully launched the new generation ocean water color observation satellite Haiyang-301 from the Jiuquan Satellite Launch Center using a launch vehicle composed of the Long March-2C basic stage and the Yuanzheng-1S upper stage. The satellite’s indicators have reached the advanced level of international water color remote sensing satellites, can meet the main business needs of my country’s marine environment monitoring, and can serve major national strategic needs such as ecological civilization construction, smart ocean engineering construction, and the “One Belt, One Road” initiative.
The long-distance propylene rocket currently has two states: the basic type and the Yuanzheng-1S upper stage configuration. In view of the heavy weight and high orbit of the satellite, this mission uses the Long March 2C/Yuanzheng 1S configuration rocket, which has the capability of launching multiple satellites with one rocket and deploying constellations. This is the sixth launch of this configuration of rocket. This rocket optimizes a number of technologies, effectively improving the accuracy of the debris landing point and the accuracy of the entire flight time.
The new generation of ocean water color observation satellites are scientific research satellites in the national civil space infrastructure. The satellite is equipped with payloads such as an ocean water color and water temperature scanner, a medium-resolution programmable imaging spectrometer, and a coastal zone imager. It can improve the spatial resolution and spectral resolution of my country’s ocean water color observations, expand the detection spectral band, and achieve rapid coverage of global ocean water color observations. , improve the application level of my country’s ocean remote sensing satellites, and operate in orbit with the Haiyang-1 C/D satellite to promote the sustainable development of my country’s ocean water color remote sensing business. Compared with the previous generation of Haiyang-1 satellites, Haiyang-3-01 has achieved leaps and bounds in terms of ocean water color product types, product quality, and detection capabilities. The satellite has a design life of 8 years and can carry out high-precision, multi-spectral, and long-term sequence observations of global ocean waters to meet applications in natural resources, ecological environment, transportation, meteorology and other industries, help protect the marine environment, and safeguard my country’s maritime rights and interests.
The National Space Administration is responsible for the organization and management of the new generation ocean water color observation satellite project, the organization and coordination of major matters, and the approval of launch licenses; the Ministry of Natural Resources is the lead user department, and the main user departments include the Ministry of Ecology and Environment, the Ministry of Transport, the China Meteorological Administration, etc., responsible for their respective Application system construction and operation; the National Satellite Ocean Application Center of the Ministry of Natural Resources is responsible for the construction and operation of ground systems; China Academy of Space Technology of China Aerospace Science and Technology Corporation and China Academy of Launch Vehicle Technology are responsible for the overall development of satellite systems and launch vehicle systems respectively.
This mission is the 497th launch of the Long March series of launch vehicles.
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 latest news from Galaxy Power – Ceres 1 will return to flight in two months – Progress of Pallas 1 Onwards
October 29, 2023, at the Beihang Alumni Innovation Forum held during the 71st anniversary of Beihang University, Galaxy Power CEO Liu Baiqi, who is a Beihang alumnus He delivered a speech titled “Building a New Generation of Low-Cost, Highly Reliable Commercial Launch Vehicles” and introduced the development of Galaxy Power. Among the more important new information are: 🚀 Ceres 1 has a low-orbit carrying capacity of 300 kilograms and sells for 4.5 million
. Around US$7 million, compared to US$7 million for 150 kilograms of electronic numbers.
🚀 Ceres 1 has been put into production for 30 rounds (!) 🚀 Ceres 1 is expected to return to flight in two months, with the mission of Remote Nine, codenamed “We won’t stop” 🚀 Some people think that Ceres 1 has been fired too intensively. It is necessary to slow down, but Liu Baiqi insists that there is no room for reuse of small rockets. The only way to achieve commercial success is large-scale industrial production, and high-density launches must continue to be promoted. 🚀 Ceres 1 will have two more launches by the end of this year. The future goal is 40 launches per year, which is equivalent to rockets hitting the sky every week.
🚀 The future development direction of medium and large liquid rockets must be reusable. 🚀 Pallas 1 uses seven engines in the first stage, which are reusable to achieve power redundancy and can complete the launch even if one engine fails. 🚀 Pallas 1 is currently aiming for its first flight in the second half of 2024. The recyclable first-level Pallas 1A will make its first flight in 2025, and the CBC configuration Pallas 1B will make its first flight in 2026. 🚀 The Pallas No. 1 that was “off the assembly line” reported by the media was actually a joint training test arrow. 🚀 There are also complete speech videos and transcripts of Galaxy Power’s Anhui engine production base, vertical take-off and landing verification, sky liquid oxygen kerosene engine test, etc. See: Highlights of the 2nd Beihang Alumni Innovation Forum | Galaxy Power Aerospace Founder & CEO Liu Baiqi
( The text is automatically generated based on visual inspection, and there are some errors and deletions.)
“Dear leaders, teachers, and alumni, good afternoon! I am very honored to be invited to participate in the second Beihang Alumni Innovation Forum. Every time I come back to school, I feel like I am going home. It feels very cordial. I came to Beihang University to study for a PhD in 2003. I graduated in Department 17 and enrolled in Department 15. After graduation, I stayed in Department 17 and worked there for three and a half years. In 2011, I was assigned to the China Launch Vehicle Research Institute. I found that many of my colleagues and leaders around me were alumni of Beihang University, and they were no strangers to them after I arrived there. In 2018, I left the First Institute of Aerospace Engineering and founded a private company. At that time, I wanted to start a business. I wanted to build rockets but had no money. So I got the first angel funding. He is also an alumnus of Beihang University. Of course, the backbone of core technologies are Beihang alumni, so the genes of Beihang are engraved in my bones, and the strength of Beihang has always been with me as I grew up.
The title of today’s report is “Building a new generation of low-cost, highly reliable commercial launch vehicles.” What is a rocket company’s business model? Making rockets has corresponding courses and techniques for Beihang people, but for commercialization, the business model of making rockets is to independently develop and manufacture a rocket, use it as a means of transportation, and use it to put satellites into orbit. , charging a fee for launch services. You can understand that Rocket Company is essentially a courier company, and we actually deliver couriers.
We have also established a website where you can book our launch services. If you want to send something to the sky, you can contact us. Why come to us? Because in China’s private commercial aerospace field, Galaxy Power has created some technologies. We are the first private rocket company to put satellites into orbit. We are also the first private rocket company to implement sea launches. We are also the first private rocket company to achieve industrial mass production of rockets and the first private rocket company to implement high-density launches. In the field of private rockets, we have the most launches and the highest success rate. So it is worth having.
However, most people do not have the opportunity to launch satellites into the sky. Where is our market? Who will launch the satellite? What kind of customers do we face? The market we are facing is mainly low-orbit satellite Internet. In 2021, the National Development and Reform Commission included this as a new device. From an academic perspective, it has set off a craze for low-orbit satellite Internet. Tens of thousands of satellites may enter space in the next five to ten years. , these satellites are manufactured, launched and operated by themselves, and the data formation services will be an external market. With so many satellites wanting to enter space, rockets are the only channel for satellites to enter space. If all these satellites enter space, our country’s current transportation capacity will be less than one-tenth of this capacity. This is a huge gap in demand. This is one of the driving forces for the birth of Chinese private rocket companies and the birth of commercial rocket companies. The market needs rockets and transportation capacity. But don’t think this requires all rockets. For example, the Chinese car market is huge and they need cars, but some cars sell a million cars a year, and some cars only sell a few cars a year. So let’s analyze what kind of rockets are needed for such an upsurge in the development of low-orbit satellite Internet? What kind of rocket is needed to meet such market demand.
There are two trends in the development of low-orbit satellite Internet, one is large and the other is small. The trends are very obvious. The big trends refer to the big satellites and big constellations. For example, the United States and China launch tens of thousands of satellites into space. The mass of the satellites increases from 260 kilograms to 750 kilograms, and will increase to 1.2 tons in the future. This means that more than 10,000 tons of weight must be sent from the earth to orbit. Requires a lot of experience. It is impossible for us to send such a heavy weight to the sky one kilogram by one. We can only send a lot in batches at one time. At this time, medium and large liquid launch vehicles are needed. At the same time, traditional rockets are disposable and will be damaged after each launch. In order to reduce costs, we need to reuse rockets. For large satellites, we need large reusable liquid rockets. Few countries can complete the construction of such a giant constellation, and few people can build such a constellation.
Another trend is small satellites and small constellations. Everyone recognizes the trend of satellite miniaturization. In the past, satellites weighing several tons may now be able to achieve their functions with satellites weighing hundreds or even tens of kilograms. Building such a small satellite constellation with dozens or hundreds of stars can also solve narrow applications in various fields such as communications, joysticks, meteorology, etc. If there are dozens of stars, each of which only weighs tens of kilograms, and is distributed to There are several orbital planes, and each orbital plane only has a total weight of a few hundred to launch. At this time, if we still use a large rocket with a carrying capacity of more than ten tons or more than twenty tons to launch this satellite, it is equivalent to using an Airbus 380 to make a straight-line passenger plane. , that one must lose money. So for small satellites and small constellations, this small trend requires lightweight launch vehicles.
According to this market analysis, Galaxy Power only focuses on market demand. We have deployed two types of rockets: One is a lightweight launch vehicle called Ceres 1, which is deployed around small satellites and small constellations. Its carrying capacity is only a few hundred kilograms. , but it is as convenient as a taxi. Once the satellite comes, you can get in the car and go, and it can have a high frequency of transmission. The other is a medium-to-large reusable liquid launch vehicle, with a carrying capacity ranging from five tons to more than ten tons, and in the future it will reach a large-scale carrying capacity of more than thirty tons. When developing large-scale reusable liquid rockets, the development ideas of modularization and serialization were adopted. The rocket in the middle actually has a red line. The red line is the first stage of the rocket. Above the red line is the second stage. The first and second stages are made to have independent control systems, power systems, structural systems, and independent flight modes. The two are connected in series to form a low-orbit carrier. If its carrier capacity is not enough, two boosters can be added to the one-level parallel bundle to increase the carrier capacity to about 14 tons. In this way, the difficulty of rocket development is reduced, the development cycle is shortened, and the corresponding risks are reduced. For business, it is also very necessary for an enterprise to control corporate risks.
Let me introduce these two rockets to you: The first one is Ceres 1. It is a light and small launch vehicle with a diameter of only 1.4 meters. It has a low-orbit carrying capacity of 400 kilograms and can carry an orbit up to 300 kilograms. But this rocket is bragging. Beihang people are generally relatively low-key and pragmatic. At this time, based on the data, it is still bragging. It is the most cost-effective lightweight launch vehicle in the world. Before this, we all knew that the US Electron was Rocket Laboratory. The Electronic Number made by this company is the best small rocket in the world. It has launched more than 30 times. Its low-orbit carrying capacity is 150 kilograms and the price is 7 million US dollars. Ours is 300 kilograms and the price is 450. About ten thousand US dollars. In terms of cost performance, it is a complete victory over electronic rockets, so we say that China and the United States do not cooperate or compete in small rockets. If this competition can be opened up, we actually still have some advantages in the field of small rockets.
You may be curious and ask, why does our rocket have such a competitive advantage in the market since Galaxy Power was established in such a short time? It is because of the technological innovation spirit and innovative power of our Beihang people.
This rocket is called a four-star rocket. It has corresponding technological innovations in design, materials, processes, and experimental methods. Although there are many people in our company, most of the products produced by the aerospace institute in the past were mature launch vehicles. It is not that we have made a rocket from the past, but we have carefully analyzed the market demand ourselves. Market-oriented needs have been redefined to create such a rocket. There are many details of these technological innovations that have not been elaborated here.
For example, we used to call Beihang University laser rapid prototyping, but now it is called 3D printing. This is Beihang University’s advantageous technology. The engine here is the 4D engine of our rocket, which adopts the traditional manufacturing model. But what are the disadvantages? The cost is relatively high. Such a small engine is only about the size of a finger, costs 500,000 to 600,000 yuan, has a production cycle of 6 months, and is also very heavy. We transformed it into titanium alloy 3D printing, reducing its cost from 5 to 6 million yuan to 70,000 yuan. The production cycle was shortened from the past 6 months to one month and the weight was reduced by half. So we say that this is the power of innovation, and it is also the power of Beihang that we talked about in today’s forum.
At the same time, we have completed the launch of 10 rounds of Ceres 1, the first launch vehicle to achieve mass production. Any technological product, any equipment, or equipment must be industrialized and mass-produced in order to reduce its cost and achieve higher reliability. At present, this rocket is the first mass-produced rocket in China, and it is also the first domestic commercial launch vehicle to achieve high-density launch, because we have to launch it after we produce it. From July 22 to September 11 this year, we launched a rocket every 12 days. This is currently the highest launch frequency in China. This high launch frequency is like taking a high-speed train. There are more choices for customers. Provide better launch services.
At the same time, Ceres 1 is the first rocket that can be launched both from land and sea, and Galaxy Power is the only private rocket company. Sea launch has caused a relatively large impact at home and abroad. This launch is also a technology that has successfully launched Ceres 1 for nine consecutive times. Starting a business is a risky thing, and building rockets is also a risky thing. There is an analogy in making rockets: ten thousand people, one gun. If ten thousand people participate in building a rocket, what are the requirements for each person? Everyone is required to do things right the first time, and the work he does is required to have zero defects. If one person’s work is defective, it may bring fatal risks. When Ceres 1 was producing the tenth launch vehicle, when we were producing the supplier’s engine nozzle, due to improper drilling operations, internal defects and damage were caused to the nozzle, so in September 2021 When our Jiuquan Satellite Launch Center carried out its tenth launch mission on the 21st, it no longer had nine consecutive victories. The pause button was pressed during high-density launches. Many people sent messages to comfort and encourage. Many shareholders were also worried, and even many People don’t call me for fear of getting seriously hurt. As a Beihang person and an entrepreneur in the aerospace industry, we cannot be defeated by failure or any setback. This is number one.
When we failed the second time, we didn’t’t have time to think about this. We immediately obtained all the telemetry data of the flight time and all the external images, and analysed each frame of data and images, hoping to find the cause of the failure. We worked non-stop for 48 hours. , quickly located the fault that caused the rocket’s flight failure, and located the fault on the engine baffle. We formed a working group with the baffle supplier, completed the special review of Ceres 1 on October 23, and began preparations for flight. This was the shortest and fastest rocket flight failure in the history of aerospace. We also discussed and researched with our suppliers and raised issues to prevent similar things from happening again. We proposed a series of setbacks and methods for subsequent improvement of quality. At the same time, we not only made requirements for suppliers, but also proposed to Inner Galaxy Power to carry out a The quality improvement project will sort out our potential risks and weaknesses from the entire process of our design, production, assembly, testing, and launch, and propose targeted quality improvement measures. Through these measures, we will further improve the quality of Ceres 1. We hope that it will take two months Afterwards, test flights will be carried out, and I hope everyone will see a better Ceres 1.
I heard different voices. Some people with good intentions advised us whether we shot too much. If we shot one rocket every 12 days, if we shot a few less, we would not face such a failure. Look at it this way, there are big rockets and small rockets. For a small rocket like Ceres 1, first of all, we believe that it has its own segmented commercial market, so the demand for industrialization necessitates this. There is no need to reuse small rockets. Once reused, a lot of systems will be added, a lot of fuel will be reserved, and the carrying capacity will drop sharply. The only channel is industrialized large-scale production, which means high-speed launch. For this We will not change our direction and goals, and we will continue to promote high-density launches. We have completed 6 launches this year, and there will be two more by the end of the year. In the future, we hope to increase the frequency of Ceres-1 rockets to 40 launches per year, which is equivalent to rockets every week. At that time, we will be able to provide our satellite customers with better A more valuable launch.
For small rockets, it is necessary to implement large-scale industrial mass production. For liquid rockets, it is necessary to focus on commercial closed loop. The future development direction must be reusable. Galaxy Power has also laid out reusable medium and large launch vehicles. First of all, in order to make the rocket reusable, we designed a layout concept with seven engines in parallel. This can be reused and can also achieve power redundancy, allowing one Even if the engine fails, it can still fly normally. We have also developed a depth-variable thrust reusable liquid oxygen engine for the rocket, and have also conducted research on a vertical recovery algorithm. In terms of development direction, this rocket is aimed at being reusable, but in order to reduce risks, the first step is to put it into orbit and then recover it to increase the rocket’s carrying efficiency.
What you are looking at now is the engine production base built in Anhui. This engine was independently developed by us for this rocket. It also has a series of technological innovations. These are some large-scale support injectors with coaxial dual-core high-speed Filter pumps are innovative equipment in China. We have also completed the experimental verification of recycling. This is also the first time in China that the online optimization algorithm has been verified. This implementation is still very stable. Galaxy Power has built a 100-ton dual-station test bench around different production facilities for design, production, and experimentation. The first joint training test rocket has been assembled. We hope that through this launch vehicle, we will make greater contributions to the development of our country’s commercial aerospace industry. Contribution and strength of Beihang University.
During this month November 2023 the development of the China, People’s Republic of China, CNSA- China’s National Space AdministrationLunar Manned Program in which to established a Chinese lunar Manned Mission due by 2030 least .. in which The preliminary results of China, People’s Republic of China’s manned lunar rover development program were announced. The program “Wangshu Zhichao” led by Tsinghua University was selected, focusing on innovative design and single advantageous technologies for in-depth research.
The bronze chariots and horses of the Terracotta Warriors from Qin Shihuang’s Mausoleum provided inspiration for the design team. The design team developed the man-machine intelligent hybrid enhanced driving technology of the manned lunar rover, which realizes three modes of manual driving, autonomous driving and human-machine hybrid driving. The angle of the vehicle body is adjustable and it can creep when necessary….
The preliminary results of my China, People’s Republic of China’s manned lunar rover development program were announced, and the program “Wangshu Zhichao” led by Tsinghua University was selected.
Tsinghua University’s four-wheel vehicle design plan
: Tsinghua University’s design plan for a four-wheel vehicle with adjustable body angle and creeping ability
: The bronze chariots and horses unearthed from Qin Shi Huang’s Terracotta Warriors provided inspiration for the design team
Design Plan of “Wangshu Chariot”
Key design elements of “Wangshu Chariot”
清華大學 Tsinghua University is located 30 Shuangqing Rd, 蓝旗营 Haidian District, Beijing, China, 100190, China, People’s Republic of China .
[天龙三号Tianlong 3 plans to complete the first flight of the rocket in the first half of 2024] Recently, Tianbing Technology announced the completion of several hundred million yuan in C+ round financing, which will be used for the mass production of the Tianlong 2 medium-sized liquid rocket that successfully made its first flight, as well as the Tianlong 3 The development and first flight of large-scale liquid launch vehicles and engines, the research and testing of recyclable and reusable technology, the construction of Tianlong-3 dedicated launch stations, the construction of batch production capabilities and the improvement of talent teams.
[The Tianlong-2 Yao-2 rocket departed from Tianjin and successfully arrived in Zhangjiagang. The rocket will be assembled at the Zhangjiagang Intelligent Manufacturing Base and is expected to carry out its launch mission in the second half of next year! 】On October 29, the Tianlong-2 Yao-2 rocket developed by Tianbing Technology successfully arrived in Zhangjiagang from Tianjin. This marks that Tianbing Technology’s rocket assembly plant in Tianjin has officially moved to Zhangjiagang. Tianbing Technology’s Zhangjiagang intelligent manufacturing base will soon be fully operational. use.
It is reported that the rocket will be assembled at the Zhangjiagang Intelligent Manufacturing Base and will be launched next year.
The Tianlong-2 Yao-2 rocket body was split into three parts: the fairing, the third sub-stage, and the first sub-stage for transportation. It departed from Tianjin at 5:15 a.m. on October 27 and arrived at Zhangjiagang Intelligent Manufacturing of Tianbing Technology at 12 noon today. base. At the scene, (Integrated Media Reporter: Huang Jiayuan) the reporter saw that the rocket body successfully entered the rocket transfer area of the base, waiting for subsequent final assembly work. The Tianlong-2 rocket, once named after the city of Zhangjiagang, is my country’s first medium-sized liquid launch vehicle for commercial aerospace to fly on its first flight. It has created a history of successful first flights for private aerospace in the world in more than 20 years, and also created a new era for Chinese commercial aerospace. A new era of liquid rockets in space. Tianbing Technology’s Zhangjiagang Intelligent Manufacturing Base is expected to be fully delivered and put into use by the end of December this year. Once put into operation, it will be able to produce 30 liquid launch vehicles and 500 rocket engines annually.
According to the China Manned Space Engineering Office, at 16:46 on September 11, 2023, Beijing time, the Tianzhou-5 cargo spacecraft, which has completed all scheduled tasks, successfully re-entered the atmosphere. Evacuate the space station assembly and transition to independent flight. It will re-enter the atmosphere in a controlled manner on September 12 as planned. Most of the components of the cargo spacecraft will be ablated and destroyed during the re-entry process, and a small amount of debris will fall into the South Pacific for a predetermined safety. sea area.
The Tianzhou-5 cargo spacecraft was launched into orbit at the Wenchang Space Launch Site on November 12, 2022, carrying consumables, propellants, and application materials for the three Shenzhou-15 astronauts to stay in orbit for six months (test ) experimental equipment and other materials, carrying a number of space application projects such as the “Macau Student Science Satellite No. 1” cube satellite, space hydrogen and oxygen fuel cells, and space high-energy particle detection payloads. During its in-orbit flight, the Tianzhou-5 cargo spacecraft evacuated the space station assembly on May 5, 2023. After flying independently for 33 days, it rendezvous and docked with the space station assembly again and continued to carry out relevant space technology experiments.
[ On 6th June 2023, The CNSA –China National Space Administration Takionaut Crew of the Shenzhou 16 0310 Hours Hong Kong SAR-Beijing Time, ] Tianzhou-5 cargo spacecraft completed rendezvous and docking with the space station assembly again 天舟五号According to the China Manned Space Engineering Office, the space station assembly has been evacuated in the early stage and has been flying independently in orbit for 33 days The Tianzhou-5 cargo spacecraft completed rendezvous and docking with the space station assembly at 3:10 on June 6, 2023, Beijing time. At present, the space station complex is in good condition, and various tasks will be carried out as planned.
