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Nuclear safety / Energy conversion / Nuclear reactors / AP600 / AP1000 / Heat transfer / Water cooling / Loss-of-coolant accident / Containment building / Nuclear technology / Energy / Nuclear energy in the United States


Simulation of AP1000’s Passive Containment Cooling with the German Containment Code System COCOSYS Philipp Broxtermann, Hans-Josef Allelein Institute for Reactor Safety and Reactor Technology (LRST), RWTH Aachen Univer
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Document Date: 2012-07-16 15:41:58

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City

Pittsburgh / Aachen / Livermore / Cordoba / Bovec / Vienna / /

Company

Sandia National Laboratories / GRS mbH / Natural Circulation / CDW / Westinghouse Electric Company / SANDIA Labs / Passive Safety Systems / /

Continent

Europe / /

Country

Germany / Austria / United States / Slovenia / Spain / /

/

Event

FDA Phase / /

Facility

Reactor Technology / Hans-Josef Allelein Institute / Reactor Safety / AP1000 reactor / Large Scale Test facility / Large-Scale Test Facility / University Eilfschornsteinstraße / LST facility / /

IndustryTerm

passive systems / code systems / energy balance / steel surfaces / reactor safety technology / energy releases / passive containment cooling systems / cooled steel shell / energy release tables / steel shell / containment steel shell / energy release data / containment systems / energy / /

Organization

Nuclear Regulatory Commission / International Atomic Energy Agency / Hans-Josef Allelein Institute for Reactor Safety and Reactor Technology / Hans-Josef Allelein Institute for Reactor Safety / /

Person

Springer / /

Position

Governor / /

Product

WCAP-14138 / /

RadioStation

WCAP-14138 / /

Technology

radiation / reactor safety technology / condensation / heat transfer / Simulation / /

URL

www.nrc.gov / /

SocialTag