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A rendering of the AP1000 reactor by Westinghouse  (Source: Wikimedia Commons)

Prospective workers train in China to become operators at the world's first AP1000 reactor, an advanced Generation III+ reactor design by Westinghouse. The U.S. has several applications for the new reactor type pending, but with construction already started on the Chinese plant, China will almost certainly beat the U.S. to become the first to build the new reactor.  (Source: Wikimedia Commons)
While adoption in the U.S. still languishes, China's nuclear power is flourishing

One of the biggest controversies in the environmental community is the topic of nuclear power.  Some see it as the best short-term hope for clean, affordable alternative energy.  Others are fearful of the waste that is associated with older reactor designs.  Despite modern reactor designs recycling much of the spent fuel and being built with safer designs, these fears remain. 

The net result is that despite a couple pending applications, the U.S. is stuck with aging nuclear reactions, which indeed play to critics worst fears -- lacking much of the safety and waste recycling of modern designs.

Elsewhere, though, times are kind to the nuclear industry.  China, in particular is looking to join France and Japan in providing a large portion of its power from nuclear energy.  The nation, which currently relies heavily on coal power, is including nuclear development in a diverse program which also includes massive solar and wind power growth.

Concrete was just poured at the site of a new reactor in Sanmen, China, built by the Westinghouse Electric Company, The Shaw Group Inc., China's State Nuclear Power Technology Corporation, and the Sanmen Nuclear Power Company of China National Nuclear Corporation.  The reactor will be the first of four 1,100 MWe reactors built.

The new reactor, the Westinghouse AP1000, is an extremely advanced design which focuses on modularity and automation, as well as safety and optimum fuel use.  It is classed as a Generation III+ reactor and is the only such reactor to receive Design Certification from the U.S. Nuclear Regulatory Commission (NRC).

In total, the four reactor project will cost the nation approximately $8B USD.  However, it will put them in a position of nuclear leadership, with no other nation currently employing this reactor design, the latest from Westinghouse.  Westinghouse President and CEO Aris Candris states, "Completion of concrete pour is a major milestone that visibly moves the Sanmen project from the design and discussion stage to the construction stage.  More importantly, by getting this project underway on schedule, we are further helping to ensure that baseload electricity generation will begin at this plant as intended in 2013."

Some Chinese feel less than comfortable about the new reactor, though, stating that their country's people are being used as test rats for unproven designs (source in Chinese).  Regardless, construction appears geared to continue as planned.

The U.S., despite strong opposition, in coming years may roll out an even more advanced reactor design, with Georgia Power Company reaching an agreement late last year to construct two Revision 16 reactors in Vogtle, Georgia.  There are, in total, twelve such pending Combined Construction and Operating Licenses (COLs) filed for, though the go ahead from government regulators still remains.  The proposed plans may have to survive heavy legal pressure from anti-nuclear groups if they hope to advance.  Thus the status of the U.S.'s nuclear future remains significantly more questionable of that of China.



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RE: U.S. Still Stuck
By blppt on 4/21/2009 7:27:13 PM , Rating: 2
Actually, it has been said quite a few times that the heads of the Chernobyl plant, and those in charge at the time of the accident had very little training in nuclear physics... I think that article I linked mentioned that the head of the plant had run a coal plant before hand, and had no additional training after taking over Chernobyl.

And even the people who DID know a decent amount about reactors (the powerless underlings) did not know about the power spike the control rods created when they very first entered the core, which ultimately caused the final power surge and subsequent steam explosion.

The test was done very reluctantly by those who knew about reactors, simply because their bosses (who knew little, apparently) wanted the test done. The test *had* to be run during a scheduled reactor shutdown, and the next time this would happen would not be for a year. When the reactor accidentally fell to extreme low power, and fell into the "iodine poisoning well", the safe thing to do would have been to shut down the core, and thus stop the test. The knowledgeable underlings knew how dangerous trying to pull an RBMK out of this iodine well was, but they were overruled by the higher ups, who really had no in depth knowledge of nuclear reactors.

You can imagine how the Soviet bureaucracy would feel about "groundless concerns of lowly engineers" scrubbing a prestigious test for a year. So, the underlings very reluctantly went ahead with the test, and the rest is history.


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