News on China's scientific and technological development.

A Radical Kind of Reactor



"A Radical Kind of Reactor
By KEITH BRADSHER
Published: March 24, 2011


Dr. Xu Yuanhui of Chinergy with one of the "pebbles" or fuel elements that power the reactor.
(Photo credit: Shiho Fukada for The New York Times)

SHIDAO, China — While engineers at Japan’s stricken nuclear power plant struggle to keep its uranium fuel rods from melting down, engineers in China are building a radically different type of reactor that some experts say offers a safer nuclear alternative.

The technology will be used in two reactors here on a peninsula jutting into the Yellow Sea, where the Chinese government is expected to let construction proceed even as the world debates the wisdom of nuclear power.

Rather than using conventional fuel rod assemblies of the sort leaking radiation in Japan, each packed with nearly 400 pounds of uranium, the Chinese reactors will use hundreds of thousands of billiard-ball-size fuel elements, each cloaked in its own protective layer of graphite.

The coating moderates the pace of nuclear reactions and is meant to ensure that if the plant had to be shut down in an emergency, the reaction would slowly stop on its own and not lead to a meltdown.

The reactors will also be cooled by nonexplosive helium gas instead of depending on a steady source of water — a critical problem with the damaged reactors at Japan’s Fukushima Daiichi power plant. And unlike those reactors, the Chinese reactors are designed to gradually dissipate heat on their own, even if coolant is lost.

If the new plants here prove viable, China plans to build dozens more of them in coming years.

The technology under construction here, known as a pebble-bed reactor, is not new. Germany, South Africa and the United States have all experimented with it, before abandoning it over technical problems or a lack of financing.

But as in many other areas of alternative energy, including solar panels and wind turbines, China is now taking the lead in actually building the next-generation technology. The government has paid for all of the research and development costs for the two pebble-bed reactors being built here, and will cover 30 percent of the construction costs.

Despite Japan’s crisis, China still plans to build as many as 50 nuclear reactors over the next five years — more than the rest of the world combined. Most of this next wave will be of more conventional designs.

But if the pebble-bed approach works as advertised, and proves cost effective, China hopes it can eventually adopt the technology on a broad scale to make nuclear power safer and more feasible as it deals with the world’s fastest growing economy and the material expectations of its 1.3 billion people.



Western environmentalists are divided on the safety of pebble-bed nuclear technology.

Thomas B. Cochran, the senior scientist on nuclear power for the Natural Resources Defense Council, an American group, said that such reactors would probably be less dangerous than current nuclear plants, and might be better for the environment than coal-fired plants.

“Over all, in terms of design,” he said, “it would appear to be safer, with the following caveat: the safety of any nuclear plant is not just a function of the design but also of the safety culture of the plant.”

The executives overseeing construction of the new Chinese reactors say that engineers are already being trained to oversee the extensively computerized controls for the plant, using a simulator at a test reactor that has been operating for a decade near Beijing, apparently without mishap.


Engineers have been trained to oversee the controls on a test pebble-bed reactor that has been operating for a decade near Beijing.
(Photo credit: Shiho Fukada for The New York Times)


Students look at an experimental reactor project built at Tsinghua University, north of Beijing.
(Photo credit: Shiho Fukada for The New York Times)

But Greenpeace, the international environmentalist group, opposes pebble-bed nuclear reactors, questioning whether any nuclear technology can be truly safe. Wrapping the uranium fuel in graphite greatly increases the volume of radioactive waste eventually requiring disposal, said Heinz Smital, a Greenpeace nuclear technology specialist in Germany.

But he said the waste is far less radioactive per ton than spent uranium fuel rods — one of the big sources of trouble at the Fukushima Daiichi plant.

China is building a repository for high-level nuclear waste, like conventional fuel rods, in the country’s arid west. But the far less radioactive spheres, or pebbles, like those from the Shidao reactors will not require such specialized storage; China plans to store the used pebbles initially at the power plants, and later at lower-level radioactive waste disposal sites near the reactors.

Whatever fears the rest of the world may have about China’s nuclear ambitions, the environmental cost-benefit analysis contains at least one potential positive: More nukes would let China reduce the heavy reliance on coal and other fossil fuels that now make it the world’s biggest emitter of global-warming gases.

“China epitomizes the stark choices that we face globally in moving away from current forms of coal-based electricity,” said Jonathan Sinton, the top China specialist at the International Energy Agency in Paris. “Nuclear is an essential alternative” to coal, he said. “It’s the only one that can provide the same quality of electricity at a similar scale in the medium and long term.”

Chinese leaders have been largely unwilling to engage in the global debate on climate change. But they have made a priority of reducing urban air pollution — which kills thousands of people every year and is largely caused by burning coal — and of improving mine safety. Coal mining accidents killed more than 2,400 people in China last year alone.

China’s biggest electric company, the state-owned Huaneng Group, now aims to prove that the technology can work on a commercial scale by building the two pebble-bed reactors — each capable of meeting the residential power needs of an American city of 75,000 to 100,000 people. The reactors are expected to go into operation in about four years.

The plants’ foundations have already been laid, their steel reinforcing bars pointing skyward, on a desolate landscape dominated by thatch-roofed huts and last season’s cornfields. Chinese safety regulations require that all nuclear plants be located at least 30 miles from the nearest city, in this case Rongcheng, which has a population of one million.

It was only three days after a tsunami swamped Japan’s Fukushima Daiichi plant that China’s legislature approved its five-year plan calling for dozens of new nuclear reactors. As the severity of that crisis became evident, Beijing said it would “temporarily suspend“ the approval of new nuclear reactors, but would allow construction to proceed at more than two dozen other nuclear projects already under way.

By coincidence, China’s cabinet and its national energy bureau had both given final approval for the pebble-bed reactors here in Shidao in the two weeks before the earthquake, said Xu Yuanhui, the father of China’s pebble-bed nuclear program.

China’s nuclear safety agency has met since the Japanese earthquake and reviewed the Shidao’s project plans and site preparation, and has indicated it will be the next project to receive safety clearance.

“The conclusion is clear that it is all ready to start to pour concrete,” said Dr. Xu, a former Tsinghua University professor who is now the vice general manager of Chinergy, the contractor building the reactors here.

Germany led the initial research into pebble-bed nuclear reactors and built its own research version in the 1960s. That reactor closed after an accident, caused by a jammed fuel pebble that released traces of radiation — coincidentally nine days after the Chernobyl accident in 1986, at a time of greatly increased worry about nuclear safety. Dr. Xu said that China, learning from the German mishap, had designed its reactors to keep the pebbles from jamming.

South Africa tried hard until last summer to build a pebble-bed reactor but ran into serious cost overruns.

In the United States, the federal government and companies have spent heavily on pebble-bed research. But there has been little appetite for actually building new nuclear reactors — of any sort — since the Three Mile Island accident in 1979.

“The Chinese had a determination to build, to show the technology to work, and a commitment to get it done,” said Andrew Kadak, a Massachusetts Institute of Technology nuclear engineer specializing in pebble-bed reactors. 'In the U.S. we didn’t have, and still don’t have, the commitment.'”

The reactor schematic suggest that the plant will use superheated steam giving a carnot efficiency of about 50%, reckoning with losses, that would provide about 45% net efficiency, much higher than the 30 - 35 % of light water reactors. However later plants will no doubt use a gas turbine topping cycle, increasing efficiency substantially. So a LWR throws away twice as much energy than it puts into the electric network, for the later pebble bed reactor this is reversed. Put differently the pebble bed reactor produces twice the electric power for a given thermal rating and uses a quarter of the amount of cooling water for each kWh.

China's installed daily desalination capacity reaches 524,000 tonnes


Desalination and power plant in Tianjin, China.
(Photograph: Jonathan Watts for the Guardian)


Tianjin Dagang NewSpring Seawater Desalination Plant



"China's installed daily desalination capacity reaches 524,000 tonnes
March 22, 2011

China has built sea water desalination facilities with a combined daily capacity of producing 524,000 tonnes of fresh water, said a senior technology official in north China's Tianjin Municipality on Monday.

Li Baochun, deputy director of the Tianjin Municipal Commission of Science and Technology, said Tianjin's current desalination capacity accounts for 41 percent of the country's total, and the city plans to nearly double its capacity to 480,000 tonnes by 2015.

Li made the remark when announcing that 300 representatives from 14 countries and regions, including the United States, Japan, the Republic of Korea, have registered to take part in the 2011 International Desalination and Water Reuse Forum to be held in Tianjin from April 6 to 7. Li said the city has also proposed to host the International Desalination Association World Congress in 2013.

Tianjin, with per-capita water availability of 160 cubic meters, is on the list of Chinese cities facing a severe water shortage.

Li said that sea water desalination has become one of the key solutions to addressing the water shortage.

Source: Xinhua"

Taiwan's AsusTek launches Android-powered tablet



"Taiwan's AsusTek launches Android-powered tablet
By ANNIE HUANG
Associated Press
Posted on Fri, Mar. 25, 2011 06:14 AM

AsusTek Computer Inc. unveiled a sleek tablet computer on Friday, after the Taiwanese firm saw the sales of its once popular line of mini-laptops stall following the launch of Apple's hit iPad.


A Taiwanese model displays an Asus Eee Pad Transformer during its new product media event on Friday, March 25, 2011, in Taipei, Taiwan. The Asus Eee Pad Transformer features a 10.1-inch touch screen tablet with a detachable keyboard dock. It will go on the Taiwanese market at a price of NT$17,999 (US$ 611) for the 16GB model and NT$19,999 (US$ 679) for the 32GB model. (Photo credit: Chiang Ying-ying)

AsusTek says the EEE Pad Transformer, which runs on the Android 3.0 operating system, distinguishes itself with an optional keyboard that is superior to docking options for other tablets because of its light weight and flexibility.

Its 10.1-inch screen with a front and rear camera can be detached from the keyboard to allow users on the move quick Web browsing and film viewing. Plugging it to the keyboard dock, the device can then be used as a full-fledged laptop.

"In our own pursuit of perfection, we offer users more options," AsusTek CEO Jerry Shen told The Associated Press. "They can get a full range of functions including 10-finger touch, Flash supported video viewing, e-book reading, and a physical keyboard so they don't have to deal with any inconveniences."

The EEE Pad Transformer, which became available for pre-order in Taiwan on Friday, goes on sale in the U.K. on March 30, to be followed by U.S. sales.

In Taiwan, the 16 GB version without the keyboard sells for 14,900 New Taiwan dollars ($500), while the keyboard version costs NT$17,900 ($600). The company did not provide prices for other markets.

Another Asus tablet, the 12-inch e-Slate powered by the Microsoft Windows operating system, went on sale in January, while two additional Asus tablet models will go on sale soon. Shen said he expected total sales of the four models to reach two million units in 2011.

Taiwan's Acer Inc., the world's third largest computer vendor, has already unveiled four tablet models, as well as a 4.8-inch smartphone that doubles as a tablet. The company says all will be on sale next month.

Shen acknowledged Apple Inc.'s current dominance in the rapidly expanding tablet computer market, but predicted that its market share would fall to 50 percent by 2012, as devices run on Android and Microsoft systems pick up steam.

Asus pioneered netbooks - mini-laptops - to great fanfare in 2007. Once seen as a key to the company's growth, sales remained flat in 2010, Shen said, following the iPad's appearance in the marketplace."

China on course to overtake U.S. as world's leading scientific superpower


China has rocketed into second place in the number of articles published in international science magazines



"China on course to overtake U.S. as world's leading scientific superpower
By Daily Mail Reporter
Last updated at 1:12 PM on 29th March 2011

China is fast becoming a scientific superpower and now ranks second only to the U.S. in its share of published research, it was revealed today.

A decade ago the country was number six in the league table of authorship in recognised scientific journals.

Today it has ousted Japan as the second most prolific scientific nation and could overtake the long-dominant U.S. as soon as 2013, according to a report by the Royal Society.

Britain, meanwhile, has maintained its position in third place.


Fast rising: China has ousted Japan as the second most prolific scientific nation and could overtake the long-dominant U.S. as soon as 2013

Science is also flourishing in Brazil, India and several countries in Asia, the Middle East and North Africa, which until recently made little or no contribution to global research.

One of the big surprises in the report, entitled Knowledge, Networks And Nations: Global Scientific Collaboration In The 21st Century, is what has happened in Iran.

The Islamic nation has the fastest growth in scientific output in the world. Between 1996 and 2008, the number of research publications produced in Iran shot up from 736 to 13,238.

Iran has said it is committed to a 'comprehensive plan for science' which will see research and development investment increased from less than 1 per cent to 4 per cent of its gross domestic product by 2030.

Despite fears of Iran's nuclear intentions, Iranian scientists were increasingly working with their counterparts in the U.S., and had even teamed up with colleagues in Israel.

The changes reflect an emerging new world order in science, emphasising collaboration between nations which have different areas of expertise.

Professor Sir Chris Llewellyn Smith, who chaired the advisory group which compiled the report, said: 'The scientific world is changing and new players are fast appearing.

'Beyond the emergence of China, we see the rise of south-east Asian, Middle Eastern, North African and other nations.

'The increase in scientific research and collaboration, which can help us to find solutions to the global challenges we now face, is very welcome.

'However, no historically dominant nation can afford to rest on its laurels if it wants to retain the competitive economic advantage that being a scientific leader brings.'


Scientists work at the Beijing Aerospace Control Centre. China has a 10.2 per cent share of published science, shortly behind the U.S. with 21.2 per cent

The report compares percentages of global publication authorship between 1993-2003 and 2004-2008, ranking the top ten countries in order.

It shows that although the U.S. is still out in front its share of published science has fallen from 26.4 per cent to 21.2 per cent.

China has a 10.2 per cent share followed by the UK with 6.5 per cent. The UK's contribution fell slightly by 0.6 per cent between the two periods.

Japan, now ranked fourth, has 6.1 per cent of publications.

Speaking at a news conference at the Royal Society's London headquarters, Sir Chris said: 'We have maintained our position as number two in terms of publications and citations.

'The Government would like to say we're getting more bang for our buck. But I think we must absolutely not be complacent, because other countries are coming up very fast.'

In an increasingly interconnected world, science is becoming more and more collaborative, the evidence shows. Collaborative research now accounts for around 35 per cent of articles published in international journals.

Collaboration brought several benefits, such as the ability to share different skills and areas of specialist knowledge, said the report.

'The more countries there are involved in science the more innovations we will have and the better off we shall be,' said Sir Chris.

The need to keep science global meant it made no sense to bar highly skilled foreign scientists from the UK. Sir Chris said the Government had now got the balance right after listening to scientists opposed to draconian visa restrictions.

He added: 'It's in all our interests to keep the doors open and continue to attract the best people.'

New Haier 3D television with backlit technology offers a movie-like experience



"New Haier 3D television with backlit technology offers a movie-like experience
by Swati Mahaseth
Tuesday, 15 March 2011

Haier has come up with its latest variety of televisions for a rich multimedia experience. Haier guarantees a movie-like situation in its new 3D environment. The television was recently announced at an event that marked the company’s arrival into the 3D market.

An integrated 3D backlit technology has been used that promises a rich 3D experience. High definition is also possible in the set with 1080p as its specification giving it a colorful new look. Haier is quite new to this technology and as a result the company plans to bring in more number of new sets this year.


Haier LE55A310 3D TV

Multimedia experience has also been given priority in this set. The 3D television has an SRS TruSurround XT technology inbuilt that provides surround sound with theatre like simulation. It is also provided with 3 HDMI connections allowing users to connect the set with various other gadgets and speakers thereby giving it a true surround feel.

Another interesting feature given into new Haier 3D television is the USB 2.0. Using this port, hard drives, pen drives and flash drives can be connected. As a result, now one can listen and view his own songs and videos through the USB.

Consumer durables market worth Rs 20,000 crores in India is the prime target of Haier. And, with sources revealing that this coming July will see a new Chinese executive into India as the CEO of the company, Haier is probably thinking of making some adjustments with the management. The new 3D television and all new products require an effective technical knowhow and Haier seems to be in line with this thought. The company is worth $12.8 billion and if market assessments of experts are to be believed, then Haier will continue to produce such innovative technology-led products this year."

China Wins 2010 Clean Energy Race With $54.4 Billion in Funding



"China Wins 2010 Clean Energy Race With $54.4 Billion in Funding
BY Ariel Schwartz
Tue Mar 29, 2011


Wind power plants in Xinjiang, China
[Photo credit from Wikipedia: 林 慕尧 / Chris Lim from East Coast (东海岸), Singapore (新加坡)]

Add renewable energy to the list of industries in which China is now coming out on top of the U.S. While China is still home to thousands of pollution-spewing factories, it's also now churning out wind turbines and solar panels at a world-record pace. According to The Pew Charitable Trusts' just-released Who's Winning the Clean Energy Race 2010 report--the country's private investment in clean energy soared in 2010, increasing by 39% from the previous year to $54.4 billion in funding. It's an impressive number, but clean energy investment isn't lagging elsewhere, either.

According to the report, the worldwide clean energy sector grew 30% from 2009 to $243 billion worth of finance and investment in technologies like wind, solar, biofuel, and geothermal. "The sector is marked by pretty explosive growth," says Phyllis Cuttino, Program Director of the Pew Clean Energy Program.


The United States has fallen to third place last year -- from second in 2009 -- for its investments in clean energy sources such as solar and wind, reports the Pew Charitable Trusts.

Asia is clearly the region to watch. In 2010, clean energy investment increased 33% over 2009 to $82.8 billion. In 2009, the region surpassed the Americas for the first time, and in 2010, investment grew faster than in Europe. The European region is still the leader for clean energy finance this year, with $94.4 billion in investments (mostly helped along by investments in small scale distributed capacity projects like rooftop solar panels), but Asia is quickly catching up.

From a national standpoint, the top three countries are China, Germany and the U.S., in that order. Again, Asia slipped past its competitors in recent years. The U.S. used to lead the sector until 2009, when China displaced it. This year, Germany beat the U.S., and China took the top spot. The reason? "National policies really matter. If you don't have one like in the U.S., it matters," says Cuttino.

Germany, for example, relies on a national feed-in tariff program, which lures homeowners and businesses into using renewables by offering above-market rates for feeding their excess clean energy back to the grid. And China's national action plan is helping the country use more hydro, wind, and solar power. The country has goals of 150 gigawatts of wind capacity by 2020 (it looks like they're going to meet this goal five years early) and 20 gigawatts of solar by 2020. For comparision, the U.S. currently has .6 gigawatts of solar and 33 gigawatts of wind. "China has an aggressive renewable energy target that investors have flooded in to help them meet," explains Cuttino.

The U.S. is lagging in this arena, lacking a comprehensive renewable energy policy and continuing to offer government cash to fossil fuel-based energy sources. But all isn't lost domestically. Clean energy investments did rise 51% between 2009 and 2010 to $34 billion. The fact that that was only enough to give the U.S. third place shows just how rapidly the clean energy sector is growing. And that's good news for everyone."

Greater China beats Germany in U.S. patents again!

For 2010, Greater China (i.e. China, Taiwan, and Hong Kong) maintained its lead over Germany to retain the unofficial third-highest rank for countries that receive the most patents in the United States.



Patents granted by the United States for the year 2010.

1. U.S. 121,164 patents
2. Japan 46,978
(Greater China 13,654)
3. Germany 13,633
4. South Korea 12,508
5. Taiwan 9,635
6. Canada 5,511
7. France 5,100
8. U.K. 5,038
9. China 3,303
10. Italy 2,254
...
India 1,137
Hong Kong 716 (Patent office counts Hong Kong as a separate entity)
Singapore 633
Russian Federation 287
Malaysia 224
Brazil 219

These countries are sometimes mentioned by the media as the "next China":

South Africa 142
Mexico 115
Thailand 60
Argentina 59
Poland 56
Greece 54
Turkey 45
Philippines 40
Chile 27
Egypt 20
Ukraine 14
Indonesia 6
Vietnam 2

The world's four largest exporters for 2010 are (1) China, (2) United States, (3) Germany, and (4) Japan. Not surprisingly, the world's four largest exporters are also the world's four largest grantees of U.S. patents (e.g. United States, Japan, Greater China, and Germany).

Patents are critical in becoming a world manufacturing power and exporter, because it creates a technological barrier of entry. Patents prevent a corporation's product from becoming a commodity that competes on price alone. The higher revenues and profits, which result from a patented product, enable a company to spend more money on research and development.

This is a self-reinforcing cycle. The United States, Greater China, Japan, and Germany continue to grow richer from their patented export products. The attainment of world-leading patents is the aspiration of any nation that wants to develop, grow technologically powerful, and wealthy.

Looking at the meager annual patents produced by nations touted by the media as the next China, we can see that all of those nations will probably become stuck in the "middle income trap."

"History shows that while many countries have been able to make it from low income to middle income, relatively few have carried on to high income. To make the high-income transition, countries have to specialize more in selected areas where they can achieve economies of scale and technological leadership."

From 2009 to 2010, the number of U.S. patents received by China increased by 46%. Even without Taiwan's help, the trend indicates that China will eventually become a wealthy nation. After all, China's annual number of U.S. patents already exceeds those of wealthy Italy. The only thing that China needs is time.

At a superficial glance, the patent list shows that India may be a viable emerging patent power. However, sometimes numbers lie. In my judgment, India will also be unable to escape the "middle income trap."

India's strength is in services as the world's call center. Most of India's patents are most likely in software, but the market for call centers is limited. For 20 years, "India has been unable to increase manufacturing's share of the economy, a dynamic that drove industrial revolutions in the U.S. and in other Asian countries." (See Wall Street Journal Interactive Slide for Indian Sectors at )

In conclusion, twenty years from now, the world in 2031 will look very similar to the world today. The only difference is that China will have become exponentially more influential in the future. There is no "next China." There is only one China. That's the only reasonable conclusion that we can draw from the list of the world's most powerful patent powers.

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[Note: These are my comments from last year on "China Claims #9 Rank In United States Patents!"]

For 2009, Greater China's 10,638 combined total patents (i.e. China's 2,270 + Taiwan's 7,781 + Hong Kong's 587) are greater than Germany's 10,353 patents. Greater China would rank third on the U.S. patent list. The patent ranks are important because they help to explain why China is the world's largest exporter and Germany is the world's second-largest exporter. Patents play an important role.

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[Note: These are my comments from two years ago on "Greater China outnumbers German patents."]

There are 70,000 Taiwanese companies on the Chinese Mainland. It is my guess that many Chinese exports incorporate not only Chinese patents, but also Taiwanese patents. The Taiwanese were a perennial #4 in U.S. patents received until they were passed by South Korea in 2008.

While the current number of Chinese patents appears to be insufficient to support a large high-tech export base, the combination of Greater China (i.e. Chinese, Taiwanese, and Hong Kong) patents should suffice.

Greater China's 10,370 patents (i.e. China's 1,874 + Taiwan's 7,779 + Hong Kong's 717) are greater than the number of German patents at 10,086.


"Significant migration to Taiwan from the Chinese mainland began as early as A.D. 500. ..... There are a number of small political parties, including the Taiwan .... in China, and more than 70000 Taiwan companies have operations there. .... In keeping with our one China policy, the U.S. does not support Taiwan ..."

Re: China reports lunar rover design complete

Martian said:

"Please remember, this lunar rover is created by China," Ye said repeatedly during a lecture in Chongqing."

Click to expand...

Call me a pessimist, but that's not a good sign. I bet it's based on some Soviet lunar or something. I hope not though.

In terms of technology, China still disappoints. In less than 10 years, SpaceX, a privately owned American company has indigenously designed rockets and reentry vehicles from scratch! This is a feat that entire nations lack the talent and resources to achieve, and which has taken China decades.

Another problem I see is the lack of a startup culture. I cannot think of any innovative startup Chinese companies with a worldwide presence. America has Facebook and the like. In a few short years, it now essentially can access the information of hundreds of millions of people across the world. The situation here is that China plays the game, but it does not make the game. The west makes the game, and thus it will always be number one and control the profits and system.

Apple has created the game, a hardware and software ecosystem. Facebook has created a game in its communications platform. The Google Android is also a game, but China continues to manufacture low end hardware to play. This is what China lacks. It remains the lowest bidder.

Lastly what is the quality of China's scientific research? Numbers are just numbers. I see many articles claiming that plagiarism is a major problem or that the research is not significant somehow.

That's not exactly the same. SpaceX has people filled with experience. If you told me the Mark Zuckerberg of aerospace engineers right out of college did it, then that would be something else.

China just started to play the game. That's like believing since the US is 30 years ahead on stealth technology, China will always be 30 years behind. The J-20 shows China has closed the gap. So that logic doesn't apply.