China's Space Program News Thread

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WSLC: structural construction of major facilities has been completed, paving the way for equipment installation

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The assembly facility for large spacecraft in Tianjin was completed.

 

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Chinese Space Station Project Overall Vision:

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*The station consists of three pressurised modules, the core module, the experiment module 1 and the experiment module 2, with two pairs of large solar panels at their ends. The three modules will be launched by CZ-5B from Hainan and put into an orbit with an inclination of 42-43 degrees and an altitude of 340-450 kilometres. It will have 90 cubic metres of free interior volume for crew activity, and is able to be permanently occupied by a crew of three.

* The core module consists of the resource section (service section), a habitation section and a node section. The node section has two docking ports (forward and nadir), two berthing ports (port and starboard for two experiment modules) and an EVA hatch (zenith). There is also a docking port at the aft of the module. The core module will be responsible for the station’s centralised control and management. The node will also be the air-lock during the construction phase and will become the back-up air-lock once the experiment module 1 is docked which will then provide the main air-lock.

* The experiment module 1 consists of the resource section, the pressurised section and the air-lock. Besides scientific experiment facilities, it will play the role of the core module back-up for station control and management, and will serve as storage space. The experiment module 2 consists of the resource section, the pressurised section and the non-pressurised section installed with a large astronomical telescope.

* There will be a large robotic arm on the core module and a smaller one on one of the experiment modules. They can work independently and can also be combined to work as an elongated arm. Station modules docked at the forward or nadir ports will be transferred to lateral ports by the robotic arm. Attitude control will rely mainly on control moment gyroscopes (CMGs) with assistance of thruster jets. Orbit maintenance will use electric thrusters.

* A regenerative environmental control and life support system (ECLSS) will be used. Improved noise control as compared to Mir and ISS is projected, and a new type of EVA space suit will be developed for use on the station.

* There is a pair of solar panels on each module. The one on the core module has one degree of freedom, while those on the experiment modules are large flexible panels with two degrees of freedom. They can be replaced during the station lifecycle. The energy conversion efficiency of the solar array will be above 30%, thanks to triple-junction GaAs cells. There will be a unified power grid on the station of 100 Volts. Solar panels at the core module will be relocated to the tips of the experiment modules at a later stage by the robotic arm.

* The station will be built-up in three phases. The first phase will start with the launch of a test vehicle of the core module in 2018, together with several manned and cargo vehicles. If the test module performs well over the two-year period to 2020, and passes the required assessments, it will then become the operational core module and the station will be constructed around it. If it falls short of the required performance, an improved core module will be launched around 2020 to become the backbone of the station.

* In the second phase, two experiment modules will be launched, docked to the core module and moved to the lateral ports at the node section of the core module. Manned and cargo vehicle visits are also planned. The second phase is expected to be completed around 2022, marking the completion of the Chinese Space Station (CSS)

* The third phase, as revealed by the Chief Designer in his paper, is the extension phase of the station that is most interesting. It is envisioned to extend the station to six modules and to have a capability between a Mir-class space complex and an ISS-class space station. The extension plan includes:
- The second core module with a docking node, providing redundant station control and management and more docking ports.
- Two more experiment modules docked to the second core module.
- Solar panels at the core module will be relocated to the tips of the experiment modules to guarantee enough power supply for the extended station.
- As many as four large exposure platforms. Two will be attached to two experiment modules. The other two
will be installed at the location of the solar panels on the core module after they are relocated.
- The extended station is able to accommodate a crew of six for long duration flights.
- A maximum mass of 180 tonnes (believed to include at least one cargo vehicle and two Shenzhou vehicles).

* China welcomes a wide range of international cooperation on construction of the Chinese Space Station (CSS). The extended design has already considered possible new modules provided by international partners. They can be built and launched by the partner, or co-developed with China and launched by China. The Chinese cargo vehicle is also able to deliver a 5-tonne class jointly-developed small module to the station. Foreign visiting vehicles, joint flight, mutual rescue operation, foreign or joint developed scientific payload/experiment on the station or on cargo ships, as well as data sharing, are all considered and welcomed.

* The cargo ship can be configured as fully-pressurised, halfpressurised or non-pressurised. It will also be able to launch small modules with a length of 4.5 m and a diameter of 3 m which can be developed by international partners. CSS module’s weight and diameter will be 22 tonnes and 4.5 m,

* The planned working life of the station is not less than 10 years, and interfaces for future extensions have already been taken into account from the beginning.

 

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SAST revealed more details of the CZ-6 during the 5th CSA-IAA Conference on Advanced Space Technology. For the first time, a picture of the CZ-6 on a mobile launch vehicle was shown. CZ-6 needs 7 days for launch preparation. An enhanced model, the CZ-6A with strap-on boosters capable of putting 4 tonnes into SSO was also revealed. SAST also introduced a new upper stage called TY-1. It uses storable propellant capability and will be re-ignitable more than once to deploy satellites quickly and in different orbits.

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According to the National Radio Spectrum Management Center, As of Dec. 31, China had 107 satellites in orbit, of which 38 were in geostationary orbit and 69 in other orbits. Some 100 more satellites are scheduled for launch in the next five years. China has 20 of the total 700 networks registered at the International Telecommunication Union. China’s strategy will rely on national coordination for orbital slot/frequency resource management to assure optimal resource allocation:

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hina is the midst of conducting unusual satellite maneuvers involving a new satellite launched last month and an older satellite in orbit for eight years. Exactly what capabilities the Chinese are demonstrating remains unclear to western analysts.

Alerted by a tweet from Hong Kong-based @cosmic_penguin, Bob Christy of zarya.info spread the word that one of three Chinese satellites launched together on July 19 made a sudden maneuver yesterday. The satellite, Shiyan 7 (SY-7, Experiment 7), already had completed a series of orbital changes that put it close to one of the companion satellites with which it was launched -- Chuangxin 3 (CX-3). Suddenly, however, it made a surprise rendezvous with a completely different satellite, Shijian 7 (SJ-7, Practice 7), launched in 2005.

Jonathan McDowell of Jonathan's Space Report characterizes SJ-7's own mission as "mysterious." Over the past eight years, it has changed its orbit several times followed by long periods of "quiescent decay." Its most recent orbit change was in January 2013 according to McDowell.

As for SY-7, it was launched last month along with CX-3 and Shijian-15 (SJ-15). China's Xinhua news service said at the time that all three satellites would be used to conduct "scientific experiments on space maintenance technologies." Christy reported soon after launch that "t is known" that one of the three satellites carries "a prototype manipulator arm to capture other satellites" that might be "a predecessor of an arm destined to be aboard China's large space station set for launch in 2020 or soon thereafter." He could not confirm which of the three satellites carries that arm.

McDowell said that SY-7 "is testing a robotic arm," while SJ-15 was thought to be observing space debris and CX-3 might be carrying "technology experiments and/or serve as a target for the robotic arm tests."

After a series of minor orbital adjustments, the first unexpected orbit change for SY-7 occurred on August 16 according to Christy, who said that it suddenly lowered its orbit by 150 kilometers. Christy's analysis at the time suggested that it was preparing to rendezvous with CX-3. Then, yesterday (August 18) it rendezvoused with SJ-7 instead.

Christy reports that as of this morning SY-7 and SJ-7 remain about 2 kilometers apart in a 565 x 610 kilometer orbit. Christy remarks that "[t]here are several possibilities for what looked like a space station rendezvous and docking simulation....satellite inspector, satellite servicing experiment, ASAT..?"

 

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the first LM-5 fist core stage to be completed soon

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An eight year old satellite that occasionally makes significant maneuvers might need to be refueled. I would be surprised if it was thought worthwhile to really refuel. The satellite cannot have a significant life expectation I would think. But as a test it might still thought worth doing.

 

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China’s Mystery Satellite Could Be a Dangerous New Weapon

The SY-7 is one of three Chinese satellites doing some very strange things in orbit




On July 29, a Chinese Long March-4C rocket blasted into space from the northern Taiyuan Space Center carrying three secretive, experimental satellites. Not really all that unusual by itself — a robotic arm reportedly on one of the satellites could be involved in testing for Beijing’s far-off space station program.

But once they were in orbit, the satellites began acting very, very strangely.

More precisely, one of the satellites, known as SY-7, was moving all over the place and was appearing to make close-in rendezvous’s with other satellites. It was so strange, space analysts wondered whether China was testing a new kind of space weapon — one that could intercept other satellites and more or less claw them to death.

It’s not as crazy as it sounds. The U.S. has experimented with anti-satellite weapons, and is even researching how to cannibalize satellites in orbit. China has even blown up one of its own satellites with a missile. That caused an international outcry considering the giant cloud of debris which has come close to imperiling space travel for a century.

But a claw might be more discreet.


Most satellites are pretty dumb, in the sense that they don’t really move around a whole lot except in a fixed orbit. Doing much more than that requires sophisticated guidance, navigation and control systems to the point where the satellite becomes something more like an unmanned spaceship.

Have those things, and you have the rudimentary steps to maneuver in the path of other satellites. Once you’re there, you then might want to use the maneuverable satellite to conduct inspections or repairs — or even potentially attack other (more helpless) satellites.

At least one of the satellites launched by China appears to have some form of that capability. On Aug. 16, the satellite known as SY-7 made a major orbital adjustment, dropping down by about 93 miles. Robert Christy, a British astronomer who tracks Russian and Chinese satellites on his blog Zarya, believed SY-7 was practicing docking on a simulated space station — a planned project by China’s space program — or perhaps testing out a rendezvous with one of its companions.

Instead, over the next several days, SY-7 suddenly changed course and rendezvoused with a completely different satellite — one that had been up there all along. The two satellites came as close as a few hundred meters.

These sudden maneuvers ruled out the trio as simple ocean surveillance satellites, which also fly in formation and which China has increasingly launched to monitor disputed sea territories. For one, ocean surveillance sats tend to fly with big gaps between them — 30 to 120 miles — thus covering more territory. But the trio orbiting now have come as close as two miles. And ocean surveillance satellites don’t move back and forth.

Jonathan McDowell, an astrophysicist with the Harvard-Smithsonian Center for Astrophysics and author of the sat-tracking newsletter Jonathan’s Space Report, reported that at least one of the satellites wields a robot-manipulator arm developed by the Chinese Academy of Sciences.

Could it be an anti-satellite weapon? This would be a satellite capable of impacting with other satellites, destroying them with sheer kinetic force, or detonating explosive charges nearby like a satellite suicide bomber. The manipulator arm could also be potentially used as a weapon, grabbing away and plucking bits off an enemy satellite like it was an insect.

Collisions and explosions are also diplomatically tricky. When China blew up one of its own satellites with a missile in 2007, it created a massive cloud of debris around the Earth — most of which will still be there a hundred years from now.

Anti-satellite

But according to Brian Weeden, the satellites are doing what’s called an “on-orbit inspection.” Weeden, who is a technical and space adviser to the Secure World Foundation, would have a pretty good idea — as an Air Force officer he developed tactics for the Pentagon’s Joint Space Operations Center.

“If a satellite stops working for some reason, it can be very difficult to figure out what went wrong using ground-based sensors,” Weeden says. “A satellite that can get up close and take some pictures could be very helpful.”

If another satellite somewhere in space has a malfunction, an inspection satellite could come to the rescue or at least rendezvous and determine what went wrong.

That said, there’s still a fuzzy distinction between a satellite that can inspect another satellite, and a satellite that can mess with someone else’s satellite, he adds. A grabby-armed satellite that can inspect satellites in distress could perhaps turn that arm into a weapon.

“One could dream up a whole bunch of dastardly things that could be done with a robotic arm in close proximity,” Weeden says.

However, this isn’t just true for only China’s satellites — it’s true for the U.S. as well. America has experimented with several dual-use orbiters with inspection capabilities that could also be used as a potential weapon. In 2009 the Pentagon launched two secretive inspection satellites to scope out a derelict military satellite. The inspection satellites, known as Mitex, were developed by Lockheed Martin and are widely believed to also have the ability to “inspect” satellites from Russia and China.

Another Pentagon project, called DART, ended in 2005 when the satellite’s navigation system failed during an approach to an orbiting communications relay. DART collided with the relay, knocking itself out of action and ending the mission prematurely.

The Air Force also has a satellite called XSS-11 — currently in orbit — which is essentially a giant camera. The satellite, which is about the size of a washing machine, is designed to maneuver close to other satellites and take snapshots in case something goes awry. The Swedish government has also experimented with a pair of maneuverable satellites called Mango and Tango. And the Pentagon’s blue-sky researchers at the Defense Advanced Research Projects Agency have been experimenting with a program called Phoenix designed to pick apart dead satellites for spare parts.

“The U.S. or Sweden will insist these are in no way space weapons programs,” Weeden says. “But the technology is definitely dual-use, and can raise significant misperceptions when used in a secretive manner.” The same is true for Beijing.