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Chinese Nuclear Carrier Design Unveiled (Along With Ion Propulsion Engine)

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These are some posters taken from the Science and Technology Achievement Show in Beijing.

This shows a new type of ion engine as well as a nuclear-powered aircraft carrier with J-10s on board.

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It also suggests that the J-10 will also be put aboard carriers.
 
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I've already seen this in the CD forum.

I wonder if this one could be China's own Ford class carrier?
 
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Ion engine works in outer space and it has very slow initial velocity, ion generated by the engine is turned into a stream of jet to propel a spacecraft. Although shown in the same exhibition, I am sure it is not related to aircraft carrier since the ship need to power up fast and change speed constantly, also where would the ions stream go to inside the ship?
 
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Ion Engines are the most exciting new rocket propulsion system since the Chinese invented the rocket about a thousand years ago.
Most rocket engines use chemical reactions for power. They combine various gases and liquids to form chemical explosions which push the rocket through space. Chemical rocket engines tend to be powerful but have a short lifetime.
Ion Engines use electric fields instead of chemical reactions. Ion Engines tend to be much less powerful, but they are so efficient, they can last for years before running out of fuel.
The European Space Agency and the Australian National University have successfully tested a new design of spacecraft ion engine that dramatically improves performance over present thrusters and marks a major step forward in space propulsion capability.

Ion engines are a form of electric propulsion and work by accelerating a beam of positively charged particles (or ions) away from the spacecraft using an electric field. ESA is currently using electric propulsion on its Moon mission, SMART-1. The new engine is over ten times more fuel efficient than the one used on SMART-1. "Using a similar amount of propellant as SMART-1, with the right power supply, a future spacecraft using our new engine design wouldn't just reach the Moon, it would be able to leave the Solar System entirely," says Dr Roger Walker of ESA's Advanced Concepts Team, Research Fellow in Advanced Propulsion and Technical Manager of the project.

The new experimental engine, called the Dual-Stage 4-Grid (DS4G) ion thruster, was designed and built under a contract with ESA in the extremely short time of four months by a dedicated team at the Australian National University. "The success of the DS4G prototype shows what can be achieved with the passion and drive of a capable and committed team. It was an incredible experience to work with ESA to transform such an elegant idea into a record-breaking reality", says Dr. Orson Sutherland, the engine's designer and head of the development team at the ANU. During November 2005, the DS4G engine was tested for the first time in ESA's Electric Propulsion Laboratory at ESTEC in the Netherlands, with support from Dr Sutherland and ESA test engineers.

Traditional ion engines use three closely separated perforated grids containing thousands of millimetre-sized holes attached to a chamber containing a reservoir of the charged particles. The first grid has thousands of volts applied, and the second grid operates at low voltage. The voltage difference over the gap between the two grids creates an electric field that acts to simultaneously extract and accelerate the ions out of the chamber and into space in a single step. The higher the voltage difference, the faster the ions are expelled and the greater the fuel efficiency of the thruster. However, at higher voltage differences approaching five thousand volts (5kV), some of the ions collide with the second grid as they are accelerated, thus eroding and damaging the grid and thereby limiting its lifetime in space.
The DS4G ion engine utilises a different concept first proposed in 2001 by David Fearn, a pioneer of ion propulsion in the UK, which solves this limitation by performing a two-stage process to decouple the extraction and acceleration of ions using four grids. In the first stage, the first two grids are closely spaced and both are operated at very high voltage and a low voltage difference between the two (3 kV) enables the ions to be safely extracted from the chamber without hitting the grids. Then, in the second stage, two more grids are positioned at a greater distance 'downstream' and operated at low voltages. The high voltage difference between the two pairs of grids powerfully accelerates the extracted ions.

The test model achieved voltage differences as high as 30kV and produced an ion exhaust plume that travelled at 210,000 m/s, over four times faster than state-of-the-art ion engine designs achieve. This makes it four times more fuel efficient, and also enables an engine design which is many times more compact than present thrusters, allowing the design to be scaled up in size to operate at high power and thrust. Due to the very high acceleration, the ion exhaust plume was very narrow, diverging by only 3 degrees, which is five times narrower than present systems. This reduces the fuel needed to correct the orientation of spacecraft from small uncertainties in the thrust direction.

There is of course still a great deal of work to be done before the new engine design can fly in space. "Working with our industrial partners, the next challenge is to transition this promising new engine design from laboratory experiment to spacecraft flight model and properly define the new missions that it will enable", says José Gonzalez del Amo, Head of Electric Propulsion at ESA. The flight-suitable engines must then be tested: and for ion engines this is a long process.

Since they must operate continuously in space for tens of thousands of hours providing a small thrust, ground tests in a vacuum facility must last several thousand hours to prove their reliability. Only after all this could the first flight models be launched.

Once ready, these engines will be able to propel spacecraft to the outermost planets, the newly discovered planetoids beyond Pluto and even further, into the unknown realm of interstellar space beyond the Solar System. Closer to home, these supercharged ion engines could figure prominently in the human exploration of space. With an adequate supply of electrical power, a small cluster of larger, high power versions of the new engine design would provide enough thrust to propel a crewed spacecraft to Mars and back.

"This is an ultra-ion engine. It has exceeded the current crop by many times and opens up a whole new frontier of exploration possibilities," says Dr Walker.

Space propulsion breakthrough: new spacecraft ion engine tested
Ion Propulsion is proposed for spacecrafts and the thrust generated is so very less. In space it can be culiminated into a huge value over a period of time ( No friction).

Moral of the story : Never jump the gun. Make sure you know what your'e talking about.
 
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Wow this is gonna be so cool. As the world goes into the 21st century we have new powers. And they're taking on the USA in it's biggest strength. NAVY! I know there are hostilities between us. But let's face it. We all hate the USA. :rofl:
 
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Im disappointed with the aircraft carrier....I thought the Chinese would've made a dramatic entry into the naval field maybe pushing for a completely new design.
 
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Im disappointed with the aircraft carrier....I thought the Chinese would've made a dramatic entry into the naval field maybe pushing for a completely new design.

I dont think the chinese industry is mature enough to push for a completely new design.
 
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China Has Plans For Five Carriers

Jan 5, 2011

By Richard D. Fisher, Jr.
Alexandria, Va.

China’s People’s Liberation Army (PLA) is assembling the production and basing capacity to make its aircraft carrier program one of Asia’s largest military endeavors.

A plausible near-term projection for China’s aircraft carrier ambitions was revealed in two 2009 articles in Japan’s Asahi Shimbun newspaper, which featured rare access to Chinese military and shipbuilding sources. The sources noted that China would first build two non-nuclear medium-sized carriers similar to the 50,000-ton ex-Soviet/Ukrainian Project 1143.5 carrier Varyag being rebuilt in Dalian Harbor. These carriers would start initial construction in 2009. Beginning in 2020 or soon after, two 60,000-plus-ton nuclear-powered carriers would follow, based on plans for the Soviet-designed but never built Project 1143.7 Ulyanovsk class.

This would mean a likely fleet of five carriers by the 2020s, including Varyag, which entered a phase of accelerated reconstruction in 2009. Work surrounding this carrier is also serving to create the development and production infrastructure for future carriers. Since mid-2005, Varyag’s reconstruction has been documented by images from Chinese military fans on dozens of web pages.

In April 2009, Varyag was moved from its Dalian berth to a nearby drydock. Surrounding the drydock are large ship-component construction hangars, from which the next carriers may emerge. By April 2010, the ship was berthed outside the drydock. Since the move the hull has undergone degaussing, likely in preparation for the now-visible outfitting of a new naval electronics suite. This suite will include four arrays for Chinese-developed naval phased-array radar and new rotating-array radar. Emplacements for the electronic warfare suite are visible.

A “Sinicized” model of a Varyag-like carrier, built in 2003 by students at Harbin Technology Institute, which does carrier development work, indicated it would carry a heavy fixed armament of YJ-63 long-range antiship cruise missiles, vertically launched medium-range surface-to-air missiles (SAMs) and Type 730 30-mm. close-in weapon systems (CIWS). Last November, however, Internet imagery indicated it might carry a lighter weapons suite. It will be the lead platform for the short-range FL-3000N SAM, similar to Raytheon’s SeaRAM, though it carries 24 missiles. The imagery shows that Varyag will carry four FL-3000N launchers and at least two Type-730 30-mm. CIWS.

Varyag’s air wing is becoming visible. Chinese Internet sources reported that the first flight of the Shenyang Aircraft Corp.’s copy of the Sukhoi Su-33 was in August 2009, and by early 2010 Internet imagery and a video confirmed Shenyang had copied the Su-33. Since 2005 Russian sourceshave insisted to this writer that China could not copy the Su-33, as it was a radical modification of the Su-27SK design. By 2009, these sources anticipated China would purchase an upgraded Su-33 as it developed its own version with a Chinese-designed WS-10A turbofan. In 2010, an Asian source said the PLA might not be pleased with its Su-33 copy, and would consider buying the Sukhoi-built version. Since 2005, negotiations have been held up over Russia’s insistence that China buy a profitable number, around 40.

It is now expected that Shenyang will perfect its Su-33 copy, which will feature the latest Chinese-designed active phased-array radar, and new 5th-generation air-to-air missiles and long-range antiship missiles, such as an air-launched version of the YJ-63, with a range of 600-plus km. (373 mi.). Varyag may start its service with a multirole fighter more capable in some respects than the Boeing F/A-18E/F.

In 2010, Internet images appeared of a new airborne early-warning and control radar array of the size needed for a carrier aircraft. This followed a 2005 partial image of a turboprop-powered AEW&C. In October 2009, Internet images emerged of possibly retractable AEW&C radar on a Chinese Z-8 helicopter, which may form part of the initial air wing.

The PLA is also building escort ships for its carrier fleet. In the autumn of 2009 it appeared that two Chinese shipyards were building two new destroyer classes, but their configurations and equipment are not apparent. The PLA is expected to build up to 18 modern Type-065A air-defense frigates. Two new Type-093 nuclear-powered attack submarines (SSNs) have been built, and a more capable Type-095 SSN is expected.

When it enters service around 2015, the Varyag and its sisters, plus escorts, may be located at a recently constructed naval base near Sanya on Hainan Island.

China Has Plans For Five Carriers | AVIATION WEEK
 
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A slightly older report, but an interesting one


Chinese Carrier Plans Revealed
by James Dunnigan
January 1, 2011

An obscure, but unclassified, Chinese government report revealed China's carrier aviation plans. These call for a non-nuclear, 60,000 ton, carrier to be launched within four years, and enter service by the end of the decade. The plan calls for a larger, nuclear powered, carrier to be launched within ten years. Meanwhile, the Shi Lang (the refurbished Russian Varyag) is to enter service as a training carrier within two years.

There was no secret about the Shi Lang. For eight years now, China has been tinkering with a half finished Russian aircraft carrier. Two years ago, the ex-Soviet/Russian/Ukrainian Varyag, was renamed the Shi Lang (after the Chinese general who took possession of Taiwan in 1681, the first time China ever paid any attention to the island) and given the pennant number 83.

Until last year, progress was slow, and China's carrier plans were murky. But the recently released report indicated that the decision to proceed with building a carrier fleet was made last year. That accounts for the increased progress on the Shi Lang lately. Early in 2009, China moved the Shi Lang into dry dock, where work was obviously underway to install engines and other heavy equipment. A year ago, the radar mast was completed, and now there is a Chinese radar system being installed. Officially, the Chinese said nothing. But the dockyard workers keep at it, and it was possible to take photos from a distance. It appeared that the Shi Lang was a year or so from going to sea.

For a long time, no one was sure exactly what plans the Chinese had for the Shi Lang, although work had been going on for years. It was long believed that the carrier would eventually be used to train the first generation of Chinese carrier aviators and sailors. Until now, all was based on observation (from a distance, but good pix were numerous) and speculation.

The Varyag has been in a Chinese shipyard at Dailan since 2002. For a long time, there were few visible signs of work. There was a new paint job (in the gray shade used by the Chinese navy) and ongoing work on the superstructure (particularly the tall island on the flight deck.) Many workers could be seen on the ship, and material was seen going into (new stuff) and out of (old stuff) of the ship. Shipyard workers reported ever tighter security on the carrier, and stern instructions to not report details of what is happening on the ship.

The Varyag is one of the Kuznetsov class carriers that Russia began building in the 1980s. Originally the Kuznetsovs were to be 90,000 ton, nuclear powered ships, similar to American carriers (complete with steam catapults). Instead, because of the high cost, and the complexity of modern (American style) carriers, the Russians were forced to scale back their plans, and ended up with the 65,000 ton (full load ) ships that lacked steam catapults, and used a ski jump type flight deck instead. Nuclear power was dropped, but the Kuznetsov class was still a formidable design. The 323 meter (thousand foot) long ship normally carries a dozen navalized Su-27s (called Su-33s), 14 Ka-27PL anti-submarine helicopters, two electronic warfare helicopters and two search and rescue helicopters. But the ship can carry up to 36 Su-33s and sixteen helicopters. The ship carries 2,500 tons of aviation fuel, allowing it to generate 500-1,000 aircraft and helicopter sorties. Crew size is 2,500 (or 3,000 with a full aircraft load.) Only two ships of this class exist; the original Kuznetsov, which is in Russian service, and the Varyag.

The Chinese have been in touch with Russian naval construction firms, and may have purchased plans and technology for equipment installed in the Kuznetsov. Some Chinese leaders have quipped about having a carrier by 2010 (this would have to be a refurbished Varyag), but it soon became clear that 2012 was more likely. Even that may be too soon, as the Chinese have been burned before when they tried to build new military technology in a hurry. The Chinese appear intent on getting it right the first time.

Two years ago, China announced that its first class of carrier aviators had begun training at the Dalian Naval Academy. The naval officers are undergoing a four year course of instruction to turn them into fighter pilots capable of operating off a carrier. China already has an airfield, in the shape of a carrier deck, built at an inland facility. The Russians have warned China that it may take them a decade or more to develop the knowledge and skills needed to efficiently run an aircraft carrier. The Chinese are game, and are slogging forward.

Chinese Carrier Plans Revealed
 
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