期刊论文详细信息
Nuclear Technology and Radiation Protection
The pulsed subcritical amplifier of neutron flux driven by high-intensity neutron generator
Babenko Vladimir1  Pavlovych Volodymyr2  Gulik Volodymyr3 
[1] Bogolyubov Institute for Theoretical Physics, Kyiv, Ukraine;Institute for Nuclear Research, Kyiv, Ukraine;Institute for Safety Problems of Nuclear Power Plants, Kyiv, Ukraine;
关键词: accelerator-driven system;    Monte Carlo calculation;    pulsed research reactor;    D-T neutron generator;   
DOI  :  10.2298/NTRP180629018B
来源: DOAJ
【 摘 要 】

The subcritical reactor driven by external neutron source could apply as useful instrument for modern nuclear energy applications requiring high-level irradiation of different materials by the high-energy and high-intense neutron flux (e. g., nuclear waste transmutation, radiopharmaceuticalproduction,etc.).Thepropagationofneutronpulsesthroughthe subcriticalnuclearsystemwasconsideredinthepresentpaper.Simplehomogeneous subcritical systems and a model of two-zone subcritical reactor were computationally investigated using Monte Carlo MCNP4c transport code. The propagation of one initial neutron pulse and series of one hundred neutron pulses through the presented subcritical nuclear models were simulated. In this study, the neutron multiplication factor, the neutron flux, the energy amplification factor, the total energy of neutrons in initial pulse, etc. were obtained and analyzed. The presented calculations have shown that the considered pulse subcritical systems can be successfully used as effective amplifiers of neutron flux from the initial source. The modeling results indicate that there is an achievement of a stable, high level of neutron flux caused by the accumulation of delayed neutrons from previous pulses in series of one hundred pulses for both homogeneous and heterogeneous systems.

【 授权许可】

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