Somboon Rassame scite author profile

Long fuel cycle design Double passive safety system Design basis accident analysis RELAP5 simulation a b s t r a c tThe Purdue NMR (Novel Modular Reactor) represents a BWR-type small modular reactor with a significantly reduced reactor pressure vessel (RPV) height. Specifically, it has one third the height of a conventional BWR RPV with an electrical output of 50 MWe. The preliminary design of the NMR-50 including reactor, fuel cycle, and safety systems is described and discussed. The improved neutronics design of the NMR-50 extends the fuel cycle length up to 10 years. The NMR-50 is designed with double passive engineering safety system, which is intended to withstand a prolonged station black out with loss of ultimate heat sink accident such as experienced at Fukushima. In order to evaluate the safety features of the NMR-50, two representative design basis accidents, i.e. main steam line break (MSLB) and bottom drain line break (BDLB), are simulated by using the best-estimate thermal-hydraulic code RELAP5. The RPV water inventory, containment pressure, and the performance of engineering safety systems are investigated for about 33 h after the initiation of the accidents.

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Void penetration length from air injection through a downward large diameter submerged pipe in water pool

Rassame

Hibiki

Ishii

2016

Annals of Nuclear Energy

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ESBWR passive safety system performance under loss of coolant accidents

Rassame

Hibiki

Ishii

2017

Progress in Nuclear Energy

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Constitutive equations for vertical upward two-phase flow in rod bundle

Hibiki

Ozaki

Shen

et al. 2018

International Journal of Heat and Mass Transfer

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Somboon Rassame

Drift-flux correlation for gas-liquid two-phase flow in a horizontal pipe

Novel modular natural circulation BWR design and safety evaluation

Void penetration length from air injection through a downward large diameter submerged pipe in water pool

ESBWR passive safety system performance under loss of coolant accidents

Constitutive equations for vertical upward two-phase flow in rod bundle

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