Dynamics of Power Pulses in a Research Reactor with Neptunium Nuclear Fuel

Dynamics of Power Pulses in a Research Reactor with Neptunium Nuclear Fuel

The current trend in neutron-aided scientific research presupposes the development of new high-intensity pulsed sources. One variant of such an installation could be a pulsed reactor with a fissile-isotope core – 237 Np. The present work is devoted to a study of the dynamics of power pulses of a nep...

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Veröffentlicht in:Atomic energy (New York, N.Y.) N.Y.), 2018-08, Vol.124 (4), p.227-231
Hauptverfasser: Shabalin, E. P., Rzyanin, M. V.
Format: Artikel
Sprache:eng
Schlagworte:
DELAYED NEUTRONS
Energy industry
FEEDBACK
FUEL ELEMENTS
GENERAL STUDIES OF NUCLEAR REACTORS
Hadrons
Heavy Ions
NEPTUNIUM
NEPTUNIUM 237
Neutrons
Nuclear Chemistry
Nuclear Energy
NUCLEAR FUELS
Nuclear Physics
Nuclear power plants
OSCILLATORS
Physics
Physics and Astronomy
PULSED REACTORS
Reaction kinetics
Reactors
RESEARCH REACTORS
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Zusammenfassung:The current trend in neutron-aided scientific research presupposes the development of new high-intensity pulsed sources. One variant of such an installation could be a pulsed reactor with a fissile-isotope core – 237 Np. The present work is devoted to a study of the dynamics of power pulses of a neptunium reactor taking account of fast temperature feedback during pulse buildup. The problem is reduced to a simple model of a single frequency oscillator combined with the equation of single point kinetics of a reactor neglecting delayed neutrons. It is shown that on the basis of such an approximation, owing to feedback on the temperature of a fuel element the estimated energy of accidental power pulses decreases by almost a factor of 10 compared with a calculation neglecting fast feedback.
ISSN:1063-4258
1573-8205
DOI:10.1007/s10512-018-0402-9