Serious Chinese Nuclear Fisson Fuel Technological Breakthrough energy 100X longer, Ang Moh???

Must not teach nor sell these technologies to Ang Mohs! Chinese new nuclear energy technology can use nuclear fission fuel to level exceeding 95% compared to existing (Western current state of art) below 1%! And Deduced Nuclear Waste down to 4%, and the waste half-life reduced to 500 years instead of 100,000 years! Nuclear energy technology is improved by Chinese to be much much more efficient, safe, and clean!



http://news.sina.com.cn/c/nd/2017-06-09/doc-ifyfzfyz2549491.shtml


中国核燃料研究获突破 核裂变或成“万年能源”
2017年06月09日07:11 中国青年报

　　原标题：我国核燃料研究获得突破

　　本报北京6月8日电(实习生苏琬茜中国青年报.中青在线记者邱晨辉) 记者从中国科学院今天举行的新闻发布会上获悉，由该院近代物理研究所原创提出的全新加速器驱动先进核能系统，可将铀资源利用率由目前技术的"不到1%"提高到"超过95%"，处理后核废料量不到乏燃料的4%，放射寿命由数十万年缩短到约500年。这些为探索更高效、更安全的核燃料循环体系奠定了基础，有望使核裂变能成为近万年可持续、安全、清洁的战略能源。

　　在当天的发布会上，中科院近代物理研究所副所长徐瑚珊研究员表示，发展清洁、高效、安全、可靠的核裂变能，是解决未来能源供应、保障我国经济社会可持续发展的战略选择。然而，核裂变能可持续发展必须解决核燃料的利用效率和乏燃料的安全处理处置问题，这是国际核能界面临的共同挑战。

　　徐瑚珊说，2011年中科院启动了战略性先导科技专项（A类）"未来先进核裂变能-ADS（加速器驱动次临界系统）嬗变系统"，经过6年多的不懈努力和奋力攻关，该专项从零开始，突破了一些关键核心技术并部分引领国际发展。在认识到传统的ADS方案在经济性上缺乏竞争力且技术挑战巨大之后，该专项原创地提出了"加速器驱动先进核能系统"全新概念，并已通过大规模并行计算模拟研究证明了其原理上的可行性，完成了一系列实验室模拟原理验证实验并取得了突破性进展。

　　他说，中国科学家提出的"加速器驱动先进核能系统"变国际上"分离-嬗变"策略的"精耕细作、吃细粮"为"吃粗粮且吃干榨净"，将为全人类和平利用核能贡献源自中国的原始创新。

Re: Chinese Nuclear Fisson Fuel Technological Breakthrough energy 100X longer, Ang Mo

NO SPECIFICS is good! Do not tell the West! Keep advanced technologies away from them, let them die of famine!


http://dailycaller.com/2016/12/12/china-claims-nuclear-fusion-breakthrough-no-specifics/

China Claims Nuclear Fusion Breakthrough, No Specifics
Photo of Andrew Follett
Andrew Follett
Energy and Science Reporter
4:23 PM 12/12/2016



China’s state-controlled TV station claimed Sunday scientists made a major breakthrough in nuclear fusion research.

Chinese researchers claim to have independently invented components to keep ionized gas burning steadily for twice the length of the previous record — an important step forward toward nuclear fusion, if true.

The country allegedly created a component for a fusion reactor core that can withstand extremely high heat.

“The component we invented is one of the first of its kind in the world that has passed the international cyclic heat test,” Cheng Jiming of China National Nuclear Corporation told CCTV. “It really means a lot — it’s a great contribution to the international field of thermonuclear experimental reactors.”

CCTV wasn’t clear about what kind of breakthrough allegedly occurred, other than to say China is “leaving other nations in the dust” and will pour more money into fusion research.

China’s component is supposed to be installed on the International Thermonuclear Experimental Reactor (ITER) in France. China provides about 10 percent of the financial support for ITER and has scientists directly involved in the project. It claims the new component is about 20 percent more heat-resistant than the reactor’s design requires.

ITER was originally expected to cost approximately $5.7 billion. Cost overruns, design changes and rising raw material prices saw the amount almost triple to $ 14.9 billion. The project could end up costing $20 billion.

Scientists in Germany found fusion reactors are feasible earlier this month by determining that an experimental reactor was generating the right kind of magnetic field to trap plasma for long enough for nuclear fusion to occur.

German engineers from the Max Planck Institute successfully activated the experimental nuclear fusion reactor used in the research last December and managed to suspend plasma for the first time. The reactor took 19 years and $1.1 billion to build and contains over 470 tons of superconducting magnets, all of which need to be cooled to absolute zero.

Nuclear fusion is different from conventional nuclear reactors, as fusion causes atoms to join at extremely high temperatures and release huge amounts of energy. The process would generate essentially no hazardous waste and wouldn’t require hazardous fuel.

Operational fusion power would put most other forms of electricity generation permanently out of business and could occur very soon. Fusion power could be “too cheap to meter,” meaning that the cost of generating new power would be below the cost of determining how much power an individual was using, effectively making electricity generation free.

Other recent breakthroughs in fusion could restart the atomic age, an era when nuclear progress was lauded as a pinnacle of human achievement.

Lockheed Martin Skunk Works is developing a compact fusion reactor small enough to fit in a truck and would generate enough electricity to power 80,000 homes.

An American research team in January discovered a way to initiate nuclear fusion reactions in a process called “fast ignition” using a high-intensity laser, according to the American Association for the Advancement of Science. Scientists believe that “fast ignition” could allow a fusion reaction to be controlled, because it requires less “start-up” energy than other methods.

Re: Chinese Nuclear Fisson Fuel Technological Breakthrough energy 100X longer, Ang Mo

https://www.technologyreview.com/s/...e-a-meltdown-proof-nuclear-reactor-next-year/



Sustainable Energy
China Could Have a Meltdown-Proof Nuclear Reactor Next Year
Two high-temperature, gas-cooled reactors under construction in Shandong will make up the first commercial-scale plant of its type in the world.

by Richard Martin February 11, 2016

In what would be a milestone for advanced nuclear power, China’s Nuclear Engineering Construction Corporation plans to start up a high-temperature, gas-cooled pebble-bed nuclear plant next year in Shandong province, south of Beijing. The twin 105-megawatt reactors—so-called Generation IV reactors that would be immune to meltdown—would be the first of their type built at commercial scale in the world.

Construction of the plant is nearly complete, and the next 18 months will be spent installing the reactor components, running tests, and loading the fuel before the reactors go critical in November 2017, said Zhang Zuoyi, director of the Institute of Nuclear and New Energy Technology, a division of Tsinghua University that has developed the technology over the last decade and a half, in an interview at the institute’s campus 30 miles south of Beijing. If it’s successful, Shandong plant would generate a total of 210 megawatts and will be followed by a 600-megawatt facility in Jiangxi province. Beyond that, China plans to sell these reactors internationally; in January, Chinese president Xi Jinping signed an agreement with King Salman bin Abdulaziz to construct a high-temperature gas-cooled reactor in Saudi Arabia.

“This technology is going to be on the world market within the next five years,” Zhang predicts. “We are developing these reactors to belong to the world.”

Pebble-bed reactors that use helium gas as the heat transfer medium and run at very high temperatures—up to 950 °C—have been in development for decades. The Chinese reactor is based on a design originally developed in Germany, and the German company SGL Group is supplying the billiard-ball-size graphite spheres that encase thousands of tiny “pebbles” of uranium fuel. Seven high-temperature gas-cooled reactors have been built, but only two units remain in operation, both relatively small: an experimental 10-megawatt pebble-bed reactor at the Tsinghua Institute campus, which reached full power in 2003, and a similar reactor in Japan.

During a recent visit to the Tsinghua facility, technologists were testing the huge helium blower that will circulate the gas coolant at the Shandong site once it starts up. Such high-temperature reactors are immune to meltdown because they don’t require elaborate external cooling systems of the sort that failed at Fukushima, Japan, in 2011. The graphite coating protects the fuel from breaking down, even at temperatures well beyond those found in the reactor core during operation, and once the interior temperature passes a certain threshold, the nuclear reactions slow, cooling the reactor and making it essentially self-regulating. And while pebble-bed reactors do not totally solve the problem of nuclear waste, the fuel’s form also gives rise to multiple options for waste disposal. China’s eventual goal is to eliminate or greatly reduce waste by recycling the spent fuel.

One of the main hurdles to building these reactors is the cost of the fuel and of the reactor components. But China’s sheer size could help overcome that barrier. “There have been studies that indicate that if reactors are mass-produced, they can drive down costs,” says Charles Forsberg, executive director of the MIT Nuclear Fuel Cycle Project. “The Chinese market is large enough to make that potentially possible.”

Several other advanced-reactor projects are under way in China, including work on a molten-salt reactor fueled by thorium rather than uranium (a collaboration with Oak Ridge National Laboratory, where the technology originated in the 1960s), a traveling-wave reactor (in collaboration with TerraPower, the startup funded by Bill Gates), and a sodium-cooled fast reactor being built by the Chinese Institute for Atomic Energy (see “China Details Next-Gen Nuclear Reactor Program” and “TerraPower Quietly Explores New Nuclear Reactor Strategy”).

Indeed, China is rapidly becoming a test bed for innovative nuclear power technologies that have stalled in the United States and Europe. “What you are seeing is serious intent,” says Forsberg. “They may kick greenhouse gases out of their power sector before we do because of that serious intent.”







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Re: Chinese Nuclear Fisson Fuel Technological Breakthrough energy 100X longer, Ang Mo

Believe you me, the Bilderburgs and Roschilds will make sure this will fail

Re: Chinese Nuclear Fisson Fuel Technological Breakthrough energy 100X longer, Ang Mo

No use. Cock got 10x longer or not?

Re: Chinese Nuclear Fisson Fuel Technological Breakthrough energy 100X longer, Ang Mo

i ask my buddy fatty kim to strap a missile to your cock and we try, okies, longer and fasterer