Civil Engineering Reference
In-Depth Information
10. The Westinghouse AP1000 Advanced Nuclear Power Plant, Plant description.
http://www.
11. Nuclear Monitor (2009)
http://www.nirs.org/mononline/nm697.pdf
12. Westinghouse Electric Company (2011) New nuclear reactors: generic design assessment.
Westinghouse Electric Company LLC AP1000
Nuclear Reactor.
http://www.hse.gov.uk/
13. Mitsubishi US-APWR.
http://www.iaea.org/NuclearPower/Downloadable/Meetings/2011/
14. (2000) Kernkraftwerk Gundremmingen 1280 MWe BWR.
www.kkw-gundremmingen.de
15. (2007) SWR-1,000, an advanced boiling water reactor with passive safety features.
http://
16. Stosic ZV et al (2008) Boiling water reactor with innovative safety concept, the generation III
+ SWR-1000. Nucl Eng Design 238:1863-1901
17. Kersting E et al (1993), Safety analysis for boiling water reactors, a summary. Gesellschaft f¨r
Anlagen- und Reaktorsicherheit, GRS-98
18. Yamada K et al (2003) ABWR design and its evolution - primary system design of ABWR and
ABWR-II. In: GENES4/ANP2003, Kyoto, 15-19 Sept 2003, Paper 1161
19. Beard JA (2007) ABWR-overview.
https://docs.google.com/file/d/0B744LXrbu_
20. Hitachi, Ltd. (2007) Design features, construction and operating experiences of abwr,
improvement of safety, economics and reliability.
http://www.reak.bme.hu/MTAEB/files/
21. Toshiba Corporation (2011) US-ABWR and EU-ABWR Design, safety technology, operabil-
ity features and their current deployment.
http://www.iaea.org/NuclearPower/Downloadable/
22. IAEA (2004) Status of advanced light water reactor designs. IAEA Tecdoc-1391.
http://www-
23. Sato T (1999) Study of advanced reinforced concrete containment for the next generation
boiling water reactors. In: 7th International conference of nuclear engineering (ICONE 7330),
Tokyo
24. Sato T (2004) Basic concept of a new future BWR. Nucl Eng Design 230:181-193
®