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LandSpace successfully tests rocket generator
Source:Global Times Published: 2019/3/26 22:23:40

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LandSpace's ZQ-1 fails to reach its target orbit due to technical issues after a July 2018 launch. Photo: VCG

LandSpace, a Chinese private-sector aerospace enterprise, conducted a successful test of the semi-system generator called TQ-12 on Monday, laying the foundation for its whole-system generator test in the first half of 2019 and the launch of its first liquid oxygen methane rocket in 2020.

The generator was developed independently by the company and it is also a critical component of the design of the second liquid propellant carrier rocket called ZQ-2, according to a report by xinhuanet.com in July 2018, citing company Chief Technology Officer Kang Yonglai.

The cost-effectiveness and practicability of the liquid oxygen methane generator will radically alter the aerospace industry in China, according to Kang.

The first rocket, called ZQ-1, was launched in 2018 but failed to reach its target orbit due to technical issues.

The Chinese government is encouraging private capital to take part in the aerospace sector. LandSpace, one of the pioneers, is sometimes likened to the US' SpaceX.

"It is not appropriate to compare LandSpace with SpaceX, due to the different development path taken by Chinese private-sector aerospace companies," Huang Zhicheng, an expert of space technology, told the Global Times.

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THE ASSEMBLY OF “TIANQUE” ( TQ-12) 80T-THRUST-LEVEL LOX+LCH4,INDEPENDENTLY DEVELOPED BY LANDSPACE, W
LANDSPACE 2019-05-15

The assembly of “TQ-12” 80t-thrust-level LOX+LCH4 LRE, independently developed by LandSpace, was completed in the intelligent manufacturing factory of LandSpace’s Huzhou Branch recently.

“TQ-12” adopts both the design concept of modular and integration:
  • To improve the universality and extendibility
  • To optimize assembly processes of LRE
  • To shorten assembly cycle
  • To reduce the quantity of assembly components
  • To lower the cost and increase the use maintenance
In the development process of LRE fully adopted advanced manufacturing technology, like the 3D printing, laser welding and digital tube bending and system to efficiently improve the pipeline assembly quality and shorten the assembly cycle.

Up to now, the various components of “TQ-12” 80t-thrust-level LOX+LCH4 LRE engine has been validated by cold-state experiment, extrusion heat experiment as well as power-pack test.

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LANDSPACE SUCCESSFULLY CONDUCTED THE FULL SYSTEM HOT FIRING FOR“TQ-12”, THE FIRST 80T-THRUST-LEVEL L
LANDSPACE 2019-05-18

The full system hot firing for “TQ-12”, the first 80t-thrust-level LOX+LCH4 LRE in China, was successfully conducted in Huzhou Intelligent Manufacturing Factory of LandSpace. “TQ-12”, as the world’s third model of LOX+LCH4 LRE, is developed independently by LandSpace.

“TQ-12” engine has been carried out four times hot firing test runs in this week, with the longest run-time about 20 seconds. The stable and rapid initial start and shutting down of the engine, along with relative appropriate parameters in test run period, manifests that the performance of the engine meets the qualifications.

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As the highest thrust level of bipropellant cryogenic LRE in China, the highlights of "TQ-12” rocket engine includes non-toxic, high-reliability, high-performance, low-cost, easy-operation and reusability, which is the evolution direction of the main rocket engine. The success of the test run demonstrates that Chinese private launch vehicle company, LandSpace has owned all of key technologies for the development of 100t thrust level LRE.

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“TQ-12” engine is designed with a sea level thrust of 67t and a sea level vacuum thrust of 76t as well as vacuum thrust 80t. The General Manager of LandSpace’s propulsion system department Ge Minghe stated that this engine’s thrust level could cover the single propulsion system of small launch vehicles up to middle launch vehicles and even to heavy launch vehicles. Those features decided its giant commercial prospects.

“TQ-12 “ has completed several critical tests, including gas generator test run, thrust chamber with short nozzle configuration test run, power-pack test since the development of “TQ-12” engine in 2017. The full system hot firing for TQ-12 was successfully conducted, marking the significant breakthrough for China private launch vehicle company on the high thrust level LRE, successfully verifying closed-loop of design, R&D, manufacturing, production, assembly and test process of high thrust level LRE.

LandSpace publicly released its technological roadmap of the ‘80t+10t’ Liquid Oxygen and Liquid Methane rocket propulsion system in July of 2018. “ZQ-12” 80t engine will be used in the first and second stage of ZQ-2 launcher and 10t engine in the third stage of ZQ series liquid propellant launch vehicles. This roadmap covers the full liquid methane launch vehicle family, such as rockets from small to large and even to heavy rockets by parallel combination of two types of engines. The successful run test of full system hot firing for TQ-12 demonstrates the comprehensive mastery of the development capability and the cover of thrust level gap from 10t to 100t LOX+LCH4 LRE for LandSpace.

TQ-12 engine is the third model of high thrust level liquid oxygen and liquid methane rocket engine in the world, following another 2 models of LOX+LCH4 engines, the US SpaceX’s Raptor engine and the Blue-origin’s BE-4 engine.

As the first private company in China that has completed the full system hot firing for 80t-thrust-level LOX+LCH4 LRE, LandSpace is the third company in the world to master the key technology of high thrust level LRE. In addition, the full system hot firing for 80t-thrust -level LOX+LCH4 LRE not only indicates the breakthroughs in key technology fields for LandSpace, but also plays the role for the powerful supplement to Chinese space industry and contribution for the Chinese capability access to Space in real action, announced by LandSpace’s CEO, Roger Zhang.

 
LANDSPACE SUCCESSFULLY CONDUCTED THE FULL SYSTEM HOT FIRING FOR“TQ-12”, THE FIRST 80T-THRUST-LEVEL L
LANDSPACE 2019-05-18

The full system hot firing for “TQ-12”, the first 80t-thrust-level LOX+LCH4 LRE in China, was successfully conducted in Huzhou Intelligent Manufacturing Factory of LandSpace. “TQ-12”, as the world’s third model of LOX+LCH4 LRE, is developed independently by LandSpace.

“TQ-12” engine has been carried out four times hot firing test runs in this week, with the longest run-time about 20 seconds. The stable and rapid initial start and shutting down of the engine, along with relative appropriate parameters in test run period, manifests that the performance of the engine meets the qualifications.

5cdede0038da7.png

As the highest thrust level of bipropellant cryogenic LRE in China, the highlights of "TQ-12” rocket engine includes non-toxic, high-reliability, high-performance, low-cost, easy-operation and reusability, which is the evolution direction of the main rocket engine. The success of the test run demonstrates that Chinese private launch vehicle company, LandSpace has owned all of key technologies for the development of 100t thrust level LRE.

5cdede103d498.png

“TQ-12” engine is designed with a sea level thrust of 67t and a sea level vacuum thrust of 76t as well as vacuum thrust 80t. The General Manager of LandSpace’s propulsion system department Ge Minghe stated that this engine’s thrust level could cover the single propulsion system of small launch vehicles up to middle launch vehicles and even to heavy launch vehicles. Those features decided its giant commercial prospects.

“TQ-12 “ has completed several critical tests, including gas generator test run, thrust chamber with short nozzle configuration test run, power-pack test since the development of “TQ-12” engine in 2017. The full system hot firing for TQ-12 was successfully conducted, marking the significant breakthrough for China private launch vehicle company on the high thrust level LRE, successfully verifying closed-loop of design, R&D, manufacturing, production, assembly and test process of high thrust level LRE.

LandSpace publicly released its technological roadmap of the ‘80t+10t’ Liquid Oxygen and Liquid Methane rocket propulsion system in July of 2018. “ZQ-12” 80t engine will be used in the first and second stage of ZQ-2 launcher and 10t engine in the third stage of ZQ series liquid propellant launch vehicles. This roadmap covers the full liquid methane launch vehicle family, such as rockets from small to large and even to heavy rockets by parallel combination of two types of engines. The successful run test of full system hot firing for TQ-12 demonstrates the comprehensive mastery of the development capability and the cover of thrust level gap from 10t to 100t LOX+LCH4 LRE for LandSpace.

TQ-12 engine is the third model of high thrust level liquid oxygen and liquid methane rocket engine in the world, following another 2 models of LOX+LCH4 engines, the US SpaceX’s Raptor engine and the Blue-origin’s BE-4 engine.

As the first private company in China that has completed the full system hot firing for 80t-thrust-level LOX+LCH4 LRE, LandSpace is the third company in the world to master the key technology of high thrust level LRE. In addition, the full system hot firing for 80t-thrust -level LOX+LCH4 LRE not only indicates the breakthroughs in key technology fields for LandSpace, but also plays the role for the powerful supplement to Chinese space industry and contribution for the Chinese capability access to Space in real action, announced by LandSpace’s CEO, Roger Zhang.


Shock diamonds looking good!
 
China航天
May 7 at 13:50

At 7:17 today, the Jilin-1 Gaofen-03A satellite rolled-off ceremony was held in the Aerospace Information Industry Park of Changguang Satellite Technology Co., Ltd. It is understood that the Jilin-1 Gaofen-03A satellite will be launched at sea in June, and the launch will be China's first satellite sea-launch. After the successful launch, the Jilin-1 Gaofen-03A satellite will network with the existing 12 Jilin-1 satellites previously launched to provide richer remote sensing data and product services for industrial users in forestry, agriculture, grassland, ocean, resources and environment. Jilin-1 Gaofen-03A satellite is a new generation of optical remote sensing satellite independently developed by Changguang Satellite Technology Co. Ltd. with a resolution of 1m, a swath width of 17km, a weight of only 42kg and a orbit height of 579km. It has characteristic of low cost, light weight and short revisit period.

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CZ-11 is getting ready for sea launch on 5 June.

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China builds own part for rocket payloads
By Deng Xiaoci Source:Global Times Published: 2019/6/2 21:43:40

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A payload stands ready at a test site in a workshop of the SASC China Academy of Launch Vehicle Technology. Photo: Wechat account of China Academy of Launch Vehicle Technology

China's new payload for its Long March-3A launch vehicles with all core materials manufactured domestically will hopefully usher in a new era where all launch vehicles use homegrown fairings, the state space vehicle developer said on Sunday.

The new Long March 3-A payload fairing with a diameter of 4.2 meters was designed by the China Aerospace Science and Technology Corporation (CASC)'s China Academy of Launch Vehicle Technology and has been delivered, according to a company statement published on its official WeChat account on Friday.

"Previous payload fairings with a diameter of 5 meters were built with imported materials," read the statement. "The materials, especially the core materials, used this time for a new type of payload fairing were completely domestically made, laying a solid foundation for applications for all the country's launch vehicles."

The payload fairing is the nose cone of a carrier rocket, explained Pang Zhihao, a Beijing-based expert in space exploration technology.

It "is designed to protect the spacecraft or payloads like the satellite it is carrying to survive the challenges including dynamic pressure and aerodynamaic heating during the launch process through the atmosphere," he told the Global Times on Sunday.

The core materials are made from homegrown polymethacrylimide (PMI), a light and stable material with heat-resistance and noise cancelling capabilities, allowing full wave penetration that enables spacecraft including satellites to receive and send radio signals, according to the statement.

"The homegrown PMI is already as good as imported in terms of mechanical and processing properties, and it offers what it takes to manufacture full-wave fairing," Gao Kun, project chief engineer and CASC official, was quoted as saying in the statement.

Gao vowed to promote the use of more new materials to build full-wave payload fairings for all the country's rockets.
 
Einstein Probe (EP) will perform all-sky monitoring and explore the cosmic high-energy transients. It may shed light on answers to questions such as the origin and evolution of black hole population, generation mechanism of gravitational waves, and their effects and life cycle of the first generation of stars, re-ionization, etc.
兵工之声
今天 10:26 来自 微博 weibo.com
#兵器好产品# 【夜视集团携手国家天文台,助力探索宇宙奥秘】5月28日上午,爱因斯坦探针卫星工程——宽视场望远镜龙虾眼光学器件研制任务书签署仪式在集团公司总部举行。中国兵器工业集团夜视集团与@中科院之声 国家天文台签署任务书。爱因斯坦探针卫星是继“悟空”“墨子”“慧眼”和“实践十号”卫星后“十三五”中科院首颗空间科学卫星,将在软X射线波段对宇宙天体开展高灵敏度动态巡天检测,有望在探索宇宙沉寂黑洞的爆发、发现宇宙X射线剧变天体等方面取得科学突破,计划于2022年底发射。夜视集团研制的龙虾眼光学器件作为卫星工程宽视场望远镜中的核心器件,对软X射线实现3600平方度的无渐晕聚焦成像,提高卫星的空间分辨率和灵敏度。
From Norinco weibo account.
Today 10:26

[Night Vision Group joins the National Astronomical Observatory of China (NAOC) to help explore the mysteries of the universe]
On the morning of May 28th, the signing ceremony for the development of the Einstein probe satellite project, the wide-field telescope lobster eye optics, was held at the headquarters of the group company. Norinco Night Vision Group and NAOC signed a mission statement. The Einstein probe satellite is the first space science satellite of the Chinese Academy of Sciences after the "Wukong", "Mozi", "Insight(HXMT)" and "Shijian 10" satellites, and will be highly sensitive to cosmic objects in the soft X-ray band. The dynamic survey of the sky is expected to make scientific breakthroughs in the exploration of quiet black hole eruption in the universe and the discovery of celestial bodies with fierce change in X-rays emission. It is planned to be launched at the end of 2022. The lobster eye optics developed by Night Vision Group, as the core component of the satellite wide field of view telescope, achieves 3600 square degrees of non-vignetting focus imaging for soft X-rays, improving the spatial resolution and sensitivity of the satellite.

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Rocket launch from sea planned as next chapter in China's space story
By Zhao Lei | China Daily | Updated: 2019-06-03 07:38

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Engineers check sections of a Long March 11 carrier rocket at an assembly workshop of the China Academy of Launch Vehicle Technology in Beijing. [Photo provided to China Daily]

Technology allows Long March 11 to work autonomously on moving water

China is set to conduct the country's first space launch from a sea-based platform in its territorial waters before the end of this year, aiming to provide a new option for domestic and international clients, project heads said.

A Long March 11 solid-propellant carrier rocket will lift off from a mobile launch platform-a modified drilling rig-in the Yellow Sea off Shandong province, Li Tongyu, Long March 11's project manager, told China Daily.

"This mission was initially intended as a technological demonstration of a seaborne launch, but we later decided to make it a commercial operation," Li said in his office at the China Academy of Launch Vehicle Technology in southern Beijing.

The academy, part of the State-owned space conglomerate China Aerospace Science and Technology Corp, is the nation's largest carrier rocket developer.

Long March 11's sea launch plan will be the latest attempt in the global space industry to use a maritime launch platform for rockets. The world's first launch at sea was made in April 1967 with a Scout B carrier rocket, developed by the United States, from the San Marco platform of Italian-owned Luigi Broglio Space Center, off the coast of Kenya. The most recent sea launch took place in May 2014, when Sea Launch, a multinational joint venture, sent a Zenit-3SL rocket from the company's mobile launch platform Odyssey into orbit carrying a communication satellite.

Compared with conventional land-based launches, a sea mission has a lower risk of causing trouble for densely populated areas along the rocket's trajectory. The method also allows launches to be made near the equator, which increases the rocket's carrying capacity, lowers launch costs and extends the life span of some satellites, Li said.

Designed and built by the China Academy of Launch Vehicle Technology, the Long March 11 is the first and only solid-fuel carrier rocket in the Long March family, the pillar of the country's space programs.

The model has a length of 20.8 meters, a diameter of 2 meters and a liftoff weight of 58 metric tons. It is capable of sending 700 kilograms of payload to a low-Earth orbit, or 400 kg to a Sun-synchronous orbit 700 kilometers above the ground, the academy said.

Its first flight was in September 2015 from the Jiuquan Satellite Launch Center in northwestern China's Gobi Desert, ferrying four satellites to a Sun-synchronous orbit.

The rocket has performed six launches and placed 25 satellites into space. All the missions began at the Jiuquan center and were successful.

When the Long March 11 program started in 2010, the rocket was primarily tasked with emergency replacement of damaged satellites and sending new ones to establish a network within a short period of time, Li said.

Along with the rapid growth of China's commercial space sector, Li's team gradually realized the rocket's commercial potential and began to tap it.

"We succeeded. We have made it a popular choice for users seeking a good, affordable solid-propellant rocket," Li said.

"Compared with other solid-propellant carrier rockets in China, the Long March 11 has better reliability, a higher success rate and shorter preparation time, and it's compatible with 80 percent of small satellites in the global market," he said. "Furthermore, if the planned sea-based mission is successful, we will be able to offer our users a new option that will promise them a more flexible and cost-efficient service when it comes to launching some types of satellites."

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Jin Xin (center), deputy project manager, examines a satellite mounted on a Long March 11 rocket, along with his colleagues at the China Academy of Launch Vehicle Technology in Beijing. [Photo provided to China Daily]

Bright prospect


According to Meng Xiang, chief of international cooperation at the China Academy of Launch Vehicle Technology, the demand for launch services by small rockets like the Long March 11 is considerable in both the domestic and international markets as a result of space companies' race to establish networks of small, low-orbit satellites.

Such satellites, Meng said, are capable of covering most parts of the world if they are lifted from regions with low latitudes, namely those near the equator.

"Therefore, the sea launch, with its unique advantages, will have bright prospects in the market," he said.

Zhang Feiting, an engineer in the Long March 11 project, explained the differences between a land-based launch and a sea mission.

"First, control signals are transmitted via wired communication systems in a land-based launch. In a seaborne task, they are through wireless transmission. Second, the rocket's flight safety is monitored, measured and handled by ground control in land-based operations, while in a maritime mission it's determined and commanded by the rocket itself autonomously," Zhang said. "And third, the land-based launchpad doesn't move, but the maritime platform does, so a rocket to be blasted off at sea is equipped with a special aiming device to cope with tidal movements."

Moreover, a rocket used at sea must be adapted to suit a marine environment that has fog, high moisture and complicated electromagnetic conditions, he said.

A Long March 11 would be transported to the Jiuquan launch center in several parts and assembled at the center before launch. By contrast, for the seaborne mission, the rocket will be assembled in a factory and then transported to the port, Zhang said.

"To prepare the rocket ready for seaborne missions, we have made some modifications for transportation and launch," he added.

Zhang said he hopes the ability to lift off from the sea will enable Long March 11 to offer services to nations involved in the Belt and Road Initiative.

"Many countries that have participated in the initiative are located near the equator. We can sail our rocket and launch platform to their port and mount their satellites on the rocket and then lift them into space. This will be very convenient for them to launch their own satellites," he said.

Aiming for success

Jin Xin, deputy project manager of the Long March 11 project, said he is convinced that in the fiercely competitive market of commercial launches, a high rate of success and a prompt response to users' demands will be the ultimate determinants on whether clients are won or lost.

"So I often reiterate that it is crucial for us to fulfill clients' requirements as soon as possible and to make sure each and every mission a success," he said. "We are dedicated to ensuring the high quality and reliability of our products."

Song Yongsheng, a project coordinator at the launch vehicle academy, said the Long March 11 has proved to be reliable and is a recognized solution to clients' diverse needs. He attributed the model's success in the market to what he called "characteristics in its genes"-innovation, market orientation, pursuit of perfection, flexibility and ease of use.

Jin said engineers used innovative and optimized approaches when they developed equipment and software for the rocket.

"For instance, they adopted integrated, modular designs on the satellite-rocket joints and in flight-control software, extensively streamlining a number of procedures," he said.

Designers have begun to develop an upgraded variant of the Long March 11 called the Long March 11A, Jin said, adding that the new type will be wider and taller than its predecessor and will have greater thrust.

It will be able to send 1.5 tons of payload to a Sun-synchronous orbit at an altitude of 700 km, nearly four times the Long March 11's capacity in that orbit, he said.

The new rocket will replace some old types in the Long March series that rely on poisonous propellants, he added.

Long March 11A's main propulsion-a 200-ton-thrust engine-made a successful trial run in March in Shaanxi province.
 
↑↑↑
Launch time today around 12:00 noon.

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央视新闻
12分钟前 来自 微博 weibo.com 已编辑
【转!祝贺!#中国航天完成首次海上发射# 长征十一号一箭七星!
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】今天12时06分,我国在黄海海域使用长征十一号运载火箭(CZ-11 WEY号)成功完成“一箭七星”海上发射技术试验,这是我国首次在海上进行航天发射,填补了我国运载火箭海上发射空白,为我国快速进入太空提供了新的发射方式!L央视新闻的酷燃视频(央视记者崔霞 李厦)
CCTV News
12 minutes ago from Weibo

【turn! congratulate! #中国航天 completed the first sea launch #长征十一号一箭七星! [To power]]

At 12:06 today, China successfully completed the "One rocket and seven satellite" sea launch technology test using the Long March 11 launch vehicle (CZ-11 WEY) in the Yellow Sea. This is the first time that China has launched a rocket at sea. It has filled the blank of China's launch vehicle launch at sea and provided a new launch mode for China's rapid entry into space!

-> CCTV news video of the launch (CCTV reporter Cui Xia Li Xia)


 
↑↑↑
Nice close-up video of the launch.

China completes first offshore rocket launch
Source: Xinhua| 2019-06-05 14:09:35|Editor: Liangyu

QINGDAO, June 5 (Xinhua) -- China successfully launched a rocket from a mobile launch platform in the Yellow Sea off Shandong Province on Wednesday, sending two technology experiment satellites and five commercial satellites into space.

A Long March-11 solid propellant carrier rocket blasted off at 12:06 p.m. from the mobile platform. It is China's first space launch from a sea-based platform and the 306th mission of the Long March carrier rocket series.

The rocket is also named "CZ-11 WEY" under an agreement between the China Academy of Launch Vehicle Technology, China Space Foundation and a Chinese automobile producer.

Launching a carrier rocket from an ocean-based platform has many advantages over a land launch.

The closer to the equator a rocket launch can get, the greater the speed boost it will receive. It reduces the amount of energy required to get into space and means that less fuel is required.

The launch site is flexible and falling rocket remains pose less danger. Using civilian ships to launch rockets at sea would lower launch costs and give it a commercial edge.

The seaborne launch technology will meet the growing launch demand of low inclination satellites and help China provide launch services for countries participating in the Belt and Road Initiative, according to experts.

The two satellites, developed by China Academy of Space Technology, are expected to step up all-weather monitoring of ocean wind fields and improve typhoon monitoring and accuracy of the weather forecast in China.

Among the five commercial satellites, the two satellites, developed by China Electronics Technology Group Corporation, are China's first small satellite system based on Ka-band.

The Long March-11, developed by China Academy of Launch Vehicle Technology, is the only rocket using solid propellants among China's new generation carrier rockets. It is mainly used to carry small satellites and can take multiple satellites into orbit at the same time.

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China航天
May 7 at 13:50

At 7:17 today, the Jilin-1 Gaofen-03A satellite rolled-off ceremony was held in the Aerospace Information Industry Park of Changguang Satellite Technology Co., Ltd. It is understood that the Jilin-1 Gaofen-03A satellite will be launched at sea in June, and the launch will be China's first satellite sea-launch. After the successful launch, the Jilin-1 Gaofen-03A satellite will network with the existing 12 Jilin-1 satellites previously launched to provide richer remote sensing data and product services for industrial users in forestry, agriculture, grassland, ocean, resources and environment. Jilin-1 Gaofen-03A satellite is a new generation of optical remote sensing satellite independently developed by Changguang Satellite Technology Co. Ltd. with a resolution of 1m, a swath width of 17km, a weight of only 42kg and a orbit height of 579km. It has characteristic of low cost, light weight and short revisit period.

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Changguang Satellite Technology Co. Ltd. release on its website, pictures taken by the Jilin-1 Gaofen-03A satellite launched yesterday at sea by Long March-11 rocket.

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All 3 pictures are of Los Angeles, USA. The last one is LAX.
 
Measure boosts commercial space industry
By ZHAO LEI | China Daily | Updated: 2019-06-12 07:26
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OneSpace becomes the first private company in China to launch a commercial rocket on May 17th, 2018. [File photo/VCG]

Private enterprises encouraged to use facilities of State-owned companies

China's space authorities have published a regulation to manage and boost the development of the commercial space launch industry, a move private players expect to foster a prosperous market and sustainable growth.

The regulation was jointly made by the State Administration of Science, Technology and Industry for National Defense and the Central Military Commission's Equipment Development Department, and published on Monday.

It covers the research, development, production, testing, launch, safety and technology control of a "commercial carrier rocket", which is defined as a rocket designed and built from non-State funds intended to make a profit.

The regulation says that makers of the rocket, engine or any part containing explosive or inflammable substances must obtain approval from related authorities before starting their operations.

Before conducting a launch, commercial space companies must specify their orbital and frequency registration, safety measures and insurance policies and make sure such activity will not compromise national security and public interests.

All orbital missions, which refer to launches that place payload to any given orbit, must be conducted at space centers licensed by the government, the regulation stipulates.

It also encourages private enterprises to cooperate with State-owned companies or research entities and make use of the latter's facilities.

Yao Bowen, a spokesman for the Beijing-based, private rocket maker i-Space, said on Tuesday that the regulation will provide a statutory foundation for China's commercial space sector and help nurture innovation by private companies.

"The regulation stipulates that only enterprises with the required qualifications will be allowed to take part in research, production and launch of carrier rockets, closing doors to those who use the name of 'commercial space' to bamboozle investors," he explained. "This will help to prevent the waste of resources and encourage healthy growth of the industry."

Yao suggested that space authorities should give more opportunities to non-State actors, such as allowing them to participate in government-funded space programs, so they can become more competitive in the international market.

Moreover, the government's control over the domestic space market should be further relaxed and commercial programs governed by market rules rather than government policies designed for State space projects.

Zhang Changwu, CEO of Land-Space, another private space startup in Beijing, said the regulation represents space authorities' increased attention on the commercial sector.

"It will spur actors in this sector to improve their regulatory compliance and self-discipline, and will also encourage them to give more importance to their technology and product quality," Zhang said.

Xie Tao, CEO of Commsat, a private satellite producer in Beijing, said the government appears eager to see a thriving and robust commercial space market, which will need active participation from private companies.

He anticipated that the introduction of the regulation will substantially reduce the cost of commercial launches and bring benefits to China's satellite businesses.

"It introduces both rules and competition into the launch service market," Xie said.
 
17 nations to join China's space station
By ZHANG YANGFEI in Beijing and CHEN WEIHUA in Vienna | China Daily | Updated: 2019-06-13 06:30
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The China Space Station is set to welcome aboard nine international scientific projects from 17 countries covering a wide range of research areas, the China Manned Space Agency and the United Nations Office for Outer Space Affairs announced on Wednesday in Vienna, Austria. [Photo/chinadaily.com.cn]

Purpose of the combined scientific program is 'to benefit all mankind'

China Space Station is set to welcome aboard nine international scientific projects from 17 countries covering a wide range of research areas.

They include space life sciences and biotechnology, microgravity physics and astronomy, the China Manned Space Agency and the United Nations Office for Outer Space Affairs announced on Wednesday in Vienna, Austria.

It is the first time a Chinese space mission has invited all members of the UN to conduct experiments, and is a milestone in the advancement of China's manned space program from independent development to global cooperation, said Lin Xiqiang, the agency's deputy director.

The agency's head, Hao Chun, said at the event that China will be "delighted" to see scientists from different countries, nationalities and cultural backgrounds conducting space experiments on China Space Station.

"The purpose of China's manned space program is to benefit all mankind by peacefully using outer space, which is also in line with UNOOSA's values. China Manned Space Agency is willing to adhere to the principles of equality, mutual benefits and common development and continue the exchanges with other countries and regions in the world that are also committed to this purpose," Hao said.

China and project applicants will sign cooperation agreements by the end of 2019, and the station is expected to be put into use around 2022. The agency will continue to work closely with UNOOSA and open a second round of applications in a timely manner.

Hao and Simonetta di Pippo, director of UNOOSA, jointly announced the nine projects at the ceremony.

Di Pippo said the initiative between UNOOSA and CMSA will help bridge the gap for millions of people in the world who lack access to space exploration.

" (It) serves as a great example of China and other nations working together to unlock access to space benefits to an ever-growing number of countries and their people, contributing to the fulfillment of the 17th UN Sustainable Development Goals," she said.

Di Pippo noted that UNOOSA's collaboration with CMSA goes beyond this unique program. "We will work together to create an even more accessible program for developing countries," she said.

Wang Qun, China's permanent representative to the UN Office in Vienna, described the move as a "vivid manifestation" of China's embrace of multilateralism, inclusiveness and openness and its commitment to sustainable development.

"China's space industry needs international cooperation, including cooperation under the United Nations' framework and is committed to international cooperation," Wang said.

Scientists from 23 entities in 17 countries will conduct experiments on tumors and microorganisms under microgravity, flame instabilities, spectral study of nebular gas, the sequel of POLAR-a compact detector for measuring the polarization of gamma-ray bursts-as well as the development of solar batteries for space applications.

These experiments are of significance in improving the understanding of the cause of cancer and bacterial infection in long-term manned space exploration, providing a theoretical basis for fire safety in space and developing a more efficient source of energy, according to Lyu Congmin, deputy chief designer of space application system.

The space station will provide external platforms for experimental payloads and 16 experiment racks inside the cabin that can support 11 disciplines such as space medicine, life science, microgravity physics and material science.

The selected applicants are also welcome to bring their own experimental facilities or payloads either inside or outside the station, and China will help transport and assemble the facilities in orbit, Lyu said.

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File photo: Core module of China's Space Station. [Photo/Xinhua]

The development of the experimental facilities for use on the station is progressing smoothly. The primary development stage of the racks in the core cabin has already finished and researchers have conquered all key technical difficulties to complete the ones in the second cabin, he added.

China Manned Space Agency and UNOOSA signed a memorandum of understanding in 2016. The initiative aims to develop the space capabilities of UN members by providing opportunities to fly onboard China Space Station, which is expected to orbit the Earth in 2022.

The two sent out the invitation to all UN members in May 2018 and have received 42 projects from 27 developed and developing countries, covering a wide range of studies in different technical levels.

The evaluation panel, consisting of experts and academicians from a number of universities and research institutions, with 20 percent from overseas, jointly reviewed all the project proposals and selected the final nine, according to Lin.

"China Space Station belongs not only to China but to the whole world as well. The completion of the station will offer better 'Chinese solutions' and make China contribute more to the economic and social development of mankind," he said.
 
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