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Setsuden – Japan finds an nuclear power replacement that might change the world

setsuden – the Japanese word for power conservation…..As setsuni continues to pare back the power requirements of the Japanese economy, maybe the country won’t need the power from the 54 reactors that it might mothball by next year.

If so, setsuden isn’t just an energy solution for Japan..

Setsuden poised to replace nuclear power in Japan, JEFF RUBIN. Globe and Mail, August 3, 2011  Japanese Prime Minister Naoto Kan was recently quoted as seeing the country as a nuclear-free nation. But unlike similar pronouncements from Germany, which pledges to be nuclear-free by 2022, Japan may become nuclear free literally within a year.

That would be quite a feat for a country that only five months ago relied on nuclear plants for about 30 per cent of its electrical power.

By some measures, the country is already two-thirds of the way to becoming nuclear free. Thirty eight of the country’s 54 reactors are currently shut down, and there are no dates set for their return to service.

Aside from the irretrievably damaged reactors at the Fukushima power plant, reactors have been shut down across Japan for maintenance checks. The only problem is once the nuclear plants are shut down, none have been restarted as local governments have balked against their reopening.

By law, all Japanese reactors must be temporarily shut down for maintenance every 13 months. All of the currently operating reactors have maintenance scheduled by next spring. As a result, if the present pattern of indefinite shutdowns after maintenance inspections continues, Japan could effectively be nuclear free by next spring.

there is reason for the Japanese to be optimistic.

When the March 11 tsunami knocked out more than half of the nuclear power plants servicing Tokyo, the 30 million person metropolis lost about one-fifth of its power supply just as it was heading into the peak summer power season. But there have been no power shortages in Tokyo this summer despite the sweltering heat.

The reason is setsuden – the Japanese word for power conservation. It’s suddenly the new watchword of post- Fukushima Japan. And this new mantra of energy conservation mandates as much of a change in the practices of Japanese business and the lifestyles of Japanese households as the OPEC oil shocks did three decades ago.

From convincing staid Japanese businessmen to stop wearing suits and turning down the office air conditioning to closing the energy-sucking visitors gallery of the Tokyo Stock Exchange, the Japanese government is asking for 15 per cent to 20 per cent power cuts from the boardrooms of the country’s powerful corporate sector. And it is asking no less in power savings from the Japanese in their homes.

As setsuni continues to pare back the power requirements of the Japanese economy, maybe the country won’t need the power from the 54 reactors that it might mothball by next year.

If so, setsuden isn’t just an energy solution for Japan..

http://www.theglobeandmail.com/report-on-business/commentary/jeff-rubins-smaller-world/setsuden-poised-to-replace-nuclear-power-in-japan/article2117071/

August 4, 2011 - Posted by | business and costs, Japan

1 Comment »

  1. Wow! That is really taking the initiative! I hope they succeed.

    Another thing they should look at is the recent advance of solar power technology:

    RSi’s ChemArc Process has greatly reduced the cost of photovoltaic silicon.
    http://www.engineeringtv.com/video/The-Chemistry-of-RSis-ChemArc-P (See also http://www.engineeringtv.com/video/Revolutionary-Power-Converters )

    And relevant advances are being made in storage of electrical power:

    “Utilization of poly(ethylene terephthalate) plastic and composition-modified barium titanate powders in a matrix that allows polarization and the use of integrated-circuit technologies for the production of lightweight ultrahigh electrical energy storage units (EESU)” http://www.freepatentsonline.com/7466536.html , http://en.wikipedia.org/wiki/EEStor

    “This paper reports the successful creation of a new ultracapacitor structure that offers a capacitance density on the order of 100 to 200 Farads per cubic centimeter; versus the current state of the art capacitance density of 1 F/cm3. ” (“New mega-farad ultracapacitors”, Bakhoum, E., 2009, ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=4775259

    “We report the observation of extremely high dielectric permittivity exceeding 10^9 and magnetocapacitance of the order of 10^4% in La0.875Sr0.125MnO3 single crystal.” (“Giant dielectric permittivity and magnetocapacitance in La0.875Sr0.125MnO3 single crystals”, R. F. Mamin, T. Egami, Z. Marton, and S. A. Migachev, 29 March 2007; DOI: 10.1103/PhysRevB.75.115129 ; PACS numbers: 77.22.d, repository.upenn.edu/cgi/viewcontent.cgi?article=1158&context=physics_papers

    In the last citation, a dielectric permitivity of over a BILLION (one thousand million) is simply astounding, and would also be useful in antigravity research. (scripturalphysics.org/4v4a/ADVPROP.html#Biefeld-BrownEffect )

    Old battery charging technology is being pulled out of the closet too. One implementation uses an AC electropolishing technique to increase the charge/discharge cycling life times of ordinary batterys by a factor of 20 to 30 times the usual.
    pages.ripco.net/~marnow/uk/NASA_Vargo_Start.html
    http://www.freepatentsonline.com/2752550.pdf

    This is just ONE example in ONE industry. There are many others, and some are astonishing–real “poop-a-brick” developments!

    Brian Fraser's avatar Comment by Brian Fraser | August 4, 2011 | Reply


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