Results 111 to 120 of about 272 (179)

Allosteric control of the bacterial ClpC/ClpP protease and its hijacking by antibacterial peptides. [PDF]

open access: yesEMBO J
Jenne T   +13 more
europepmc   +1 more source

Minor actinide transmutation characteristics in AP1000

Annals of Nuclear Energy, 2018
Abstract We study the minor actinide transmutation characteristics by coating different thickness minor actinide on fuel pellets of the AP1000. The calculation results indicate that the more minor actinide is loaded to AP1000, the more boric acid concentration need to be reduced from coolant to let k eff return criticality.
Bin Liu, Xuefeng Lyu
exaly   +2 more sources

The SCDAP/RELAP5 3.2 model of AP1000 on SBLOCA

Progress in Nuclear Energy, 2012
Abstract One of innovation design of both the AP600 and AP1000 from conventional Westinghouse PWRs is that they includes passive safety features to prevent or minimize core uncovery during small break loss of coolant accidents (SBLOCAs). This paper uses the best estimate code SCDAP/RELAP5 3.2 to build the numerical model of AP1000.
Heng Xie, Shuangji He
exaly   +2 more sources

AP1000+

ACM SIGOPS Operating Systems Review, 1994
The scalability of distributed-memory parallel computers makes them attractive candidates for solving large-scale problems. New languages, such as HPF, FortranD, and VPP Fortran, have been developed to enable existing software to be easily ported to such machines.
Kenichi Hayashi   +8 more
openaire   +1 more source

AP1000 IRWST numerical analysis with GOTHIC

Nuclear Engineering and Design, 2021
Abstract The AP1000 Passive Residual Heat Removal (PRHR) system plays a significant role as it helps to remove the core decay heat, using the In-containment Refueling Water Storage Tank (IRWST) as a heat sink. The IRWST is located above the core, promoting natural circulation and allowing to be the mid-term heat-sink for the reactor core.
Samanta Estévez-Albuja   +2 more
openaire   +1 more source

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