Measurements of effective delayed neutron fraction in a fast neutron reactor using the perturbation method

Abstract

The perturbation method is proposed to obtain the effective delayed neutron fraction (etaeff) of a cylindrical highly enriched uranium reactor. Based on the reactivity measurements with and without a sample at a designable position using the positive periodic technique, the reactor reactivity perturbation ho of the sample in etaeff units is measured. The simulation of the perturbation experiments are performed by MCNP program. The PERT card is used to provide the difference dk of effective neutron multiplication factors with and without the sample inside the reactor. Based on the relationship between the effective multiplication factor and the reactivity, the equation etaeff =dk/ho is derived. In this paper, the reactivity perturbations of 13 metal samples at the designable position of the reactor are measured and calculated. The average etaeff value of the reactor is given as 0.00645, and the standard uncertainty is 3.0%. Additionally, the perturbation experiments for etaeff can be used to evaluate the reliabilities of the delayed neutron parameters. This work showed that the delayed neutron data of 235U and 238U from G.R.Keepin's publication are more reliable than those from ENDF-B6.0, ENDF-B7.0, JENDL3.3 and CENDL2.2.