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Method for measuring effective share of delayed neutrons

A delayed neutron and share technology, applied in the field of measuring the effective share of delayed neutrons, can solve the problems of complex experimental equipment, troublesome and time-consuming measurement, and achieve the effect of simple method

Inactive Publication Date: 2015-09-23
CHINA INSTITUTE OF ATOMIC ENERGY
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Problems solved by technology

β eff Technique, experimental measurement of β by heterogeneous poisoning method eff Technology, substitution method to measure β eff Technique, statistical weighting method to measure beta eff Technique, variance mean ratio measure beta eff Technical, zero-probability method for measuring beta eff technology, 252 Cf source value method to measure beta eff Technique, experimental measurement of reactivity and correction of k eff Calculation of reactivity to determine β eff And the statistical method in the frequency domain, etc., these measurement techniques are based on many theories, the experimental equipment is complicated, the measurement is troublesome and time-consuming, and the measurement error is about 5%.

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  • Method for measuring effective share of delayed neutrons
  • Method for measuring effective share of delayed neutrons
  • Method for measuring effective share of delayed neutrons

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Embodiment Construction

[0020] The specific implementation manner of the present invention will be further described in detail below in conjunction with the accompanying drawings and specific experiments.

[0021] The method for measuring the effective proportion of delayed neutrons provided by the invention is measured in a reactor subcritical extrapolation experiment. Firstly, the reactivity ρ in a certain subcritical state of the reactor is given by the improved source multiplication method, and then the external neutron source is driven out of the reactor instantaneously in this state, and the neutron detector used in the extrapolation experiment is used to measure the reactivity ρ The change of neutron count with time in the state, give the state in β eff unit of reactivity Finally, the reactivity ρ is denoted by β eff unit of reactivity Comparing the two can give the effective fraction of delayed neutrons β of the subcritical reactor eff . The measurement method of the present invention ...

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Abstract

The invention relates to a method for measuring the effective share of delayed neutrons. According to the method, an improved source multiplication method is combined with a known experimental measurement subcritical reactivity method to measure the effective share beta eff of the delayed neutrons. Namely, the improved source multiplication method is used for giving out the subcritical reactivity rho of a reactor, then the known experimental measurement subcritical reactivity method is used for giving out reactivity using the beta eff as a unit such as a source jerk method and a rod drop method, and the effective share beta eff of the delayed neutrons can be obtained by comparing the two methods. The measuring method does not need any special equipment and condition, and can be carried out in a subcritical extrapolation experiment of the reactor, so that the method is simple; and moreover, the reactivity obtained by the method does not depend on theoretical calculation like before, and can be measured in the physical starting process of the reactor.

Description

technical field [0001] The invention belongs to the field of measurement, and in particular relates to a method for measuring the effective fraction of delayed neutrons. Background technique [0002] effective fraction of delayed neutrons β eff It is the main dynamic parameter of reactor neutronics. Other dynamic parameters of reactor neutronics including average neutron lifetime l, neutron generation time Λ, reactivity ρ, etc. are all related to the effective share of delayed neutrons. If the prompt neutron decay constant is measured If the effective fraction of delayed neutrons is known, then the average neutron lifetime l is known; if the prompt neutron decay constant at the delayed critical time is measured Then the average neutron generation time Λ is also known, and under the subcritical condition, the experimentally measured reactor subcriticality or control rod value is given in terms of β eff unit reactivity If the theoretically calculated reactivity is to be...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G21C17/02
CPCG21C17/02Y02E30/30
Inventor 史永谦朱庆福张巍刘锋李开健
Owner CHINA INSTITUTE OF ATOMIC ENERGY
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