Measured and predicted variations in fast neutron spectrum in massive shields of water and concrete

Nuclear Structural Engineering Pub Date : 1965-08-01 DOI:10.1016/0369-5816(65)90032-3

E. Aalto, R. Fräki, R. Sandlin

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引用次数: 5

Abstract

The absolute magnitude, and the variations in form, of the fast neutron spectrum during deep penetration (0.8 – 1.1 m) in massive shields of water, ordinary and magnetite concrete have been studied by using threshold detectors (In(n, n′), S(n, p), Al(n, α)). The results have been compared with predictions by two rigorous (NIOBE, Moments method) and two non-rigorous (multigroup removal-diffusion) shielding codes (NRN, RASH D).

The absolute results predicted were in general within 50% of the measured ones, ie. showed as good or better accuracy than thermal and epithermal flux predictions in the same small-reactor configurations. No difference in accuracy was found between the rigorous and non-rigorous methods.

The changes in the relative form of the spectrum (indicated by variations in the (Al/S) and (In/S) reaction rate ratios and amounting to factors up to 3–4 during a one metre penetration in water) were rather accurately (within 10–30%) predicted by all of the methods.

The photonuclear excitation of the 335 keV level used for detecting the In(n, n′) reaction was found to distort completely the In results in water at penetrations > 50 cm.

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测量和预测在水和混凝土的大盾中快中子谱的变化

用阈值探测器(in (n, n ')， S(n, p)， Al(n， α))研究了在水、普通和磁铁矿混凝土的大屏蔽层中深度穿透(0.8 ~ 1.1 m)时快中子能谱的绝对量级和形态变化。结果与NIOBE、矩量法和NRN、RASH D两种非严格屏蔽码(多群去除扩散)的预测结果进行了比较，预测的绝对结果一般在实测值的50%以内。在相同的小型反应堆配置下，显示出与热通量和超热通量预测相同或更好的准确性。严格方法和非严格方法在精度上没有差别。光谱相对形式的变化(由(Al/S)和(in /S)反应速率比的变化表示，在水中1米的渗透过程中，因子高达3-4)相当准确(在10-30%范围内)地被所有方法预测。发现用于探测In(n, n’)反应的335 keV能级的光核激发完全扭曲了水中的In(n, n’)结果;50厘米。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nuclear Structural Engineering

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