Passive nondestructive burnup monitoring of MNSR irradiated fuel by measuring photoneutrons produced within fission products.

Haddad Kh

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Passive nondestructive burnup monitoring of MNSR irradiated fuel by measuring photoneutrons produced within fission products.

机译：通过测量裂变产物内产生的光中子，对MNSR辐照燃料进行无损无损燃烧监测。

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A passive nondestructive method for monitoring of Syrian miniature neutron source reactor (MNSR) fuel burnup is introduced. The inner irradiation site design inside the Be reflector was exploited to measure the generated photoneutrons induced by fission products hard gamma radiation in the subcritical state. The photoneutron flux was measured using gold foils as a function of cooling time and operation power. For cooling time ranges between 10 and 25d, experiments show that (140)Ba is the extremely dominating inducer of photoneutrons and the measured flux is proportional to the accumulated (140)Ba. This result forms a new method base for MNSR fuel burnup monitoring. It might be used also as a safeguards technique to check the operator declared information.

机译：介绍了一种用于监测叙利亚微型中子源反应堆（MNSR）燃料燃耗的无源无损方法。利用Be反射器内部的内部辐照部位设计来测量由裂变产物在亚临界状态下的硬伽玛射线诱导的产生的光中子。使用金箔测量光中子通量作为冷却时间和操作功率的函数。对于介于10d和25d之间的冷却时间，实验表明（140）Ba是光中子的极其主要的诱导剂，并且测得的通量与累积的（140）Ba成正比。该结果为MNSR燃耗监测提供了新的方法基础。它也可以用作检查操作员声明的信息的保障技术。

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《Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine》 |2009年第10期|共5页
作者
Haddad Kh;
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正文语种 eng
中图分类原子核物理学、高能物理学;放射医学;
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1. Passive nondestructive burnup monitoring of MNSR irradiated fuel by measuring photoneutrons produced within fission products. [J] . Haddad Kh Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine . 2009,第10期

机译：通过测量裂变产物内产生的光中子，对MNSR辐照燃料进行无损无损燃烧监测。
2. Monitoring of MNSR operation by measuring subcritical photoneutron flux. [J] . Haddad Kh, Alsomel N Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine . 2011,第3期

机译：通过测量亚临界光励将通量监测MNSR操作。
3. Monitoring of MNSR operation by measuring subcritical photoneutron flux. [J] . Haddad Kh, Alsomel N Applied radiation and isotopes: including data, instrumentation and methods for use in agriculture, industry and medicine . 2011,第3期

机译：通过测量亚临界光励将通量监测MNSR操作。
4. AREVA NP burnup credit investigation on irradiated MOX fuel within the REBUS BWR programme [C] . Alexandra Alander, Stefan Misu, Sebastien Thareau, International conference on the physics of reactors;PHYSOR 08 . 2011

机译：在REBUS BWR计划中对辐照的MOX燃料进行AREVA NP燃耗信用调查
5. A feasibility and optimization study to determine cooling time and burnup of advanced test reactor fuels using a nondestructive technique. [D] . Navarro, Jorge. 2013

机译：使用无损技术确定先进试验堆燃料的冷却时间和燃耗的可行性和优化研究。
6. Monitoring and Predicting Net Longevity by Measuring Surface Levels of Insecticide: Implementing a Faster Cost Effective Nondestructive and Field-Ready Alternative to the World Health Organization Cone Test Bioassay [O] . David A. Calle, Guillermo L. Rúa-Uribe, Lisardo Osorio, 2018

机译：通过测量杀虫剂的表面水平来监测和预测净寿命：替代世界卫生组织锥度测试生物测定法实现更快成本有效无损且可现场使用的替代方法
7. Thermochemical Prediction of Chemical Form Distributions of Fission Products in LWR Oxide Fuels Irradiated to High Burnup. [O] . Kouki MORIYAMA, Hirotaka FURUYA 1997

机译：高燃烧辐射氧化物燃料中裂变产物的化学形式分布的热化学预测。
8. Fission Gas Release from High Burnup ThO sub 2 and ThO sub 2 -UO sub 2 Fuels Irradiated at Low Temperature. (LWBR/AWBA Development Program). [R] . Giovengo, J. F., Goldberg, I., Sphar, C. D. 1982

机译：高燃烧ThO sub 2和ThO sub 2 -UO sub 2燃料的裂变气体释放在低温下辐照。（LWBR / aWBa发展计划）。

Passive nondestructive burnup monitoring of MNSR irradiated fuel by measuring photoneutrons produced within fission products.

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