China's Space Program News Thread

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IronsightSniper

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Re: Chinese Satellites

What's the rush? After all even if they are successful, they don't expect to have a commercial fusion reactor up and running until towards the end of this century?
Anyway i once read that Tritium a isotope of hydrogen can be a likely fuel source for a successful fusion reactor. Deudeuterium is an alternative and is found in sea water.
Another promising idea is to produce tritium within the reactor itself in a reaction with licquid lithium which would double as the material for absorbing the energy released by the fusing hydrogen atoms. Theres thought to be enough mineable lithium to produce all the worlds electricity needs from fusion for centuries and centuries.

And then theres this startup thingy involving Bill Gates and others " Terrapower"? or something
they're supposed to building a new type of nuclear reactor called a traveling wave reactor? that runs on an abundant form of uranium.

There's also the LFTR (Liquid Fluoride Thorium Reactor):

0EqUi.jpg

I did the math a few years ago, and if I'm not wrong, there are enough thorium in the world to fuel the entire world with LFTRs for about a century.
 

escobar

Brigadier
Re: Chinese Satellites

Quantum Satellite Progect

2015ques.jpg
 

escobar

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Re: Chinese Satellites

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The Chinese were back in action on Friday, launching the fifth Compass-G satellite into orbit via their Long March 3C (Chang Zheng 3C) launch vehicle. The 16:12 UTC launch from the C2 launch complex of the Xichang Satellite Launch Center, in Sichuan Province was China’s third launch of the year.

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Chinese Launch:

The Compass Navigation Satellite System (CNSS) is China’s second-generation satellite navigation system approved by the Chinese government in 2004, and is capable of providing continuous, real-time passive 3D geo-spatial positioning and speed measurement.
The system is used initially to provide high-accuracy positioning services for users in China and its neighboring regions, covering an area of about 120 degrees longitude in the Northern Hemisphere using five Compass-G, five Compass-IGSO and four Compass-M satellites.

The long-term goal is to develop a global navigation satellite network similar to the GPS and GLONASS by 2020 eventually consisting a constellation of 35 vehicles, including 27 MEO (21,500 km orbits) satellites, three IGSO satellites (inclined at 55 degrees) and five GSO satellites.

The system will be dual use, based around a civilian service that will provide an accuracy of 10 meters in the user position, 0.2 m/s on the user velocity and 50 nanoseconds in time accuracy; and the military and authorized user’s service, providing higher accuracies. The first phase of the project will see the coverage of the Chinese territory but in the future the Compass constellation will cover the entire globe.

Developed from the DFH-3B satellite platform, the Compass-G satellites orbit the planet on geostationary orbits and have a lifespan of 12 to 15 years. The satellites transmit signals on the: 1195.14-1219.14MHz, 1256.52-1280.52MHz, 1559.05-1563.15MHz and 1587.69-1591.79MHz, carrier frequencies.

The previous BeiDou-2 ‘Compass’ launch took place on December 1st, 2011, when a Chang Zheng-3A orbited the ‘Compass-I5′ (37948 2011-073A) satellite.

DFH-3B is an updated version of DFH-3 bus, a communications satellite bus whose capability is between high and medium ones. It adopts hexahedral structure, consisting of propulsion, service and communication modules, communication antennas and solar arrays and adopts 3-axis stabilized attitude control.

Its dimensions are 2200mm × 2000mm × 3100mm, and its mass is 3,800 kg with a payload mass of 400 kg to 450 kg. This satellite bus is applicable to communications and navigation satellites and deep space probes through adaptive modification.

This was the eight flight of the CZ-3C Chang Zheng-3C launch vehicle that is primarily used for launching satellite to Geostationary Transfer Orbit (GTO). This rocket was developed to fill the gap between the CZ-3A Chang Zheng-3A and the CZ-3B Chang Zheng-3B, having a payload capacity of 3,800 kg for GTO. This is a three stage launch vehicle identical to the CZ-3B but only using two strap-on boosters on its first stage.

CZ-3C provides two types of fairing and two kinds of fairing encapsulating process and four different payload interfaces, which is the same as CZ-3B launch vehicle. The various fairing and interface adapter and the suitable launch capacity make CZ-3C a good choice for user to choose the launch service.

The development of the CZ-3C started in February 1999. The rocket has a liftoff mass of 345,000 kg, sporting structure functions to withstand the various internal and external loads on the launch vehicle during transportation, hoisting and flight.

The rocket structure also combines all sub-systems together and is composed of two strap on boosters, first stage, second stage, third stage and payload fairing.

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The first two stages as well as the two strap on boosters use hypergolic (N2O4/UDMH) fuel while the third stage uses cryogenic (LOX/LH2) fuel. The total length of the CZ-3C is 54.838 meters, with a diameter of 3.35 meters on the core stage and 3.00 meters on the third stage.

On the first stage, the CZ-3C uses a DaFY6-2 engine with a 2961.6 kN thrust and a specific impulse of 2556.2 Ns/kg. The first stage diameter is 3.35 m and the stage length is 26.972 m.

Each strap on booster is equipped with a DaFY5-1 engine with a 704.4 kN thrust and a specific impulse of 2556.2 Ns/kg. The strap on booster diameter is 2.25 m and the strap on booster length is 15.326 m.

The second stage is equipped with a DaFY20-1 main engine (742 kN / 2922.57 Ns/kg) and four DaFY21-1 vernier engines (11.8 kN / 2910.5 Ns/kg each). The second stage diameter is 3.35 m and the stage length is 9.470 m.

The third stage is equipped with two YF-75 engines developing 78.5 kN each and with a specific impulse of 4312 Ns/kg. The fairing diameter of the CZ-3C is 4.00 meters and has a length of 9.56 meters.

The typical flight sequence of the CZ-3C for a standard GTO mission starts at T-0s with the ignition of the first stage engine and the two strap on boosters. Pitch over maneuver comes at T+10s. The strap on boosters end of ignition takes place at T+127.5s followed by boosters separation at T+129.0s.

First stage shutdown takes place at T+145.2 s, followed at T+146.7s by the first stage separation and ignition of the second stage. Separation of the fairing happens at T+258.7s. Second stage main engine shutdown takes place at T+328.0 s and second stage vernier shutdown occurs five seconds latter.

The separation of the second stage and the first ignition of the third stage take place at T+334.0s. This first ignition will last for 5 minutes and 16.6 seconds, ending at T+650.6s. After the first shutdown of the third stage the vehicle enters on a coast phase at T+654.1s, which will end at T+1323.2s with the second ignition of the third stage. This will end at T+1474.9s, beginning the velocity adjustment maneuver that lasts for 20 seconds.

Spacecraft separation occurs at T+1574.9s.

The first launch of the CZ-3C Chang Zheng-3C launch vehicle took place on April 25, 2008, when it orbited the first TL-1 Tianlian-1 tracking and data relay satellite.

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The Xichang Satellite Launch Centre is situated in the Sichuan Province, south-western China and is the country’s launch site for geosynchronous orbital launches.

Equipped with two launch pads (LC2 and LC3), the centre has a dedicated railway and highway lead directly to the launch site. The Command and Control Centre is located seven kilometers south-west of the launch pad, providing flight and safety control during launch rehearsal and launch.

Down range Tracking and Control stations of the launch center are located in Xichang City and Yibin City of Sichuan Province, and Guiyang City of Guizhou Province. Each of them houses tracking and measurement equipment for the powered phase of a launch vehicle flight.

Other facilities on the Xichang Satellite Launch Centre are the Launch Control Centre, propellant fuelling systems, communications systems for launch command, telephone and data communications for users, and support equipment for meteorological monitoring and forecasting.

During 1993-1994 Xichang underwent extensive modernization and expansion, in part due to the requirements of the CZ-3 launcher family and in part to meet commercial customer needs.

The first launch from Xichang took place at 12:25UTC on January 29, 1984, when the CZ-3 Chang Zheng-3 (CZ3-1) launched the Shiyan Weixing (14670 1984-008A) communications satellite into orbit.

---------- Post added at 11:58 PM ---------- Previous post was at 11:54 PM ----------

Launch video from CCTV 13

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escobar

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Re: Chinese Satellites

Already launched

01 - January 9 (0317:09.979UTC) - CZ-4B (Y26) - TSLC, LC9 - ZY-3 Ziyuan-3; VesselSat-2
02 - January 13 (0056:04.326UTC) - CZ-3A (Y22) - XSLC, LC3 - FY-2F Fengyun-2F
03 - February 24 (1612UTC) - CZ-3C (Y6) - XSLC, LC2 - Compass-G5

launch schedule


March 31 - CZ-3B/E - XSLC, LC2 - Apstar-7
April / May - CZ-3B - XSLC, LC2 - Compass-M3; Compass-M4
June - CZ-3B - XSLC, LC2 - Compass-M2; Compass-M5 ***
June - CZ-2F/G - JSLC, 921 - SZ-9 Shenzhou-9
September / October - CZ-2D - JSLC, 603 - VRSS-1 (Venezuela Remote Sensing Satellite-1) 'Francisco Miranda'
November / December - CZ-4B - TSLC, LC9 - CBERS-3
December - CZ-2C - TSLC, LC9 - HJ-1C Huanjing-1C
Middle - CZ-4C (Y9) - JSLC, 603 - YG-14 Yaogan Weixing-14A/B/C
Late - CZ-3B/E - XSLC, LC2 - Apstar-7B**
?? - CZ-2D - JSLC, 603 - TH-2 Tianhui-2
?? - CZ-2D - JSLC, 603 - SJ-9 Shijian 9A/B; FN-1 Fengniao-1A/B
?? - CZ-2C - JSLC, 603 - SJ-11 Shijian 11-05 (11-04R)
?? - CZ-2D - JSLC, 603 - Gokturk-2
?? - CZ-3C - XSLC, LC2 - TL-1C Tianlian-1C
?? - CZ-3C - XSLC, LC2 - Compass-G6
?? - CZ-4B - TSLC, LC9 - SJ-6 Shijian-6 Group 5
?? - CZ-4C - TSLC, LC9 - YG-15 Yaogan Weixing-15
?? - CZ-4C - TSLC, LC9 - YG-16 Yaogan Weixing-16
 

escobar

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Re: Chinese Satellites

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China's first high-resolution remote sensing satellite ZY-1-02C has carried out orbit tests, and images delivered from it reach international levels,
China Center for Resources Satellite Data and Application said Wednesday.

The ZY-1-02C, which was launched on Dec. 22 last year, is the first customized land resources satellite for Chinese clients, the center said.

With two high-resolution color cameras and one multi-spectral camera, the satellite will provide clients with images for disaster relief services, agriculture development, environmental monitoring and other applications.
 

escobar

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Re: Chinese Satellites

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A leading Chinese space engineer said in Beijing yesterday that China's first unmanned space module, the Tiangong-1, is capable of accommodating astronauts, making it possible for China to carry out its first manned space docking mission ahead of schedule.

Qi Faren, the former chief designer of the Shenzhou spaceship series, said China will launch its manned Shenzhou-9 between June and August this year, and conduct a space rendezvous and docking mission with the orbiting Tiangong-1 space lab module.

Qi said tests and observations showed that the environment and food reserves inside the Tiangong-I space lab module can sustain one astronaut living and working there for 60 days, or two astronauts for 30 days.

He said authorities have picked three astronauts for the docking, a mission that the astronauts will have to manually conduct, and they have already completed their training.

One of the three Shenzhou-9 crew members will not board the Tiangong-1 space module lab, Qi said, but will remain inside the spacecraft as a precautionary measure in case of emergency.

China launched the Tiangong-1 last September and completed the country's first-ever space docking with the unmanned Shenzhou-8 spacecraft in November.

The 8.5-ton Tiangong-1, or Heavenly Palace-1, is orbiting about 400 kilometers above the surface of the Earth.

Detectors on Tiangong-1 are examining space particle radiation to help scientists find ways to avoid the matter's disruption of satellites, Qi said. The space module is also set to observe factors that could influence the orbiting of spacecraft, including Earth's gravity, magnetic field and atmospheric density, to help provide more accurate forecasts of the orbit, added Qi.

The expert said that one experiment conducted onboard aims to electrolyze liquids into oxygen and hydrogen to add oxygen supply.

China will have to test many technologies in its quest to establish a manned space station by 2020. Qi said the technologies related to extravehicular activity, docking, logistics and recycling are essential for a manned space station.

China will not be able to establish a manned space station until water and oxygen recycling systems are ready for use, Qi added.
 

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Re: Chinese Satellites

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Control of China's oceanic surveying satellite Haiyang-2 was handed over Friday to the State Oceanic Administration (SOA), by its manufacturer and launcher China Aerospace Science and Technology Corporation.

The environmental satellite was launched into the orbit in mid-August last year, and since then, it has passed all tests on all the equipment aboard and functioned in accordance with the design, said Jiang Xingwei, director of China's National Satellite Ocean Application Service.

Haiyang-2 is expected to play an important role in monitoring the oceanic environment, oceanographic research and resources development, the protection of China's maritime rights, and other ocean-related studies, said Jiang.

Jiang said the satellite can effectively monitor extreme weather conditions such as storms, typhoons and tsunamis, thus improving the early-warning system for marine disasters.

In addition, the data Haiyang-2 acquires will be helpful for observing changes in the sea level, globally, and polar ice caps, and supporting studies of the global climate change, he said.

Haiyang-2 will work in collaboration with Haiyang-1, the first Chinese oceanic surveying satellite already in orbit, according to the official.

"This will greatly improve the surveying and monitoring capacities of China's earth observation satellites, and end the monopoly of Western countries in the collection of remote sensing data involving the dynamic environment of oceans," Jiang said.
 

Schumacher

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Re: Chinese Satellites

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Control of China's oceanic surveying satellite Haiyang-2 was handed over Friday to the State Oceanic Administration (SOA), by its manufacturer and launcher China Aerospace Science and Technology Corporation.

The environmental satellite was launched into the orbit in mid-August last year, and since then, it has passed all tests on all the equipment aboard and functioned in accordance with the design, said Jiang Xingwei, director of China's National Satellite Ocean Application Service.
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Great, HY2 encountered problems soon after launch. They did a good job to save it.
 
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