EFFECT OF CELL-BOUNDARY CURRENTS ON THE FUEL BURNUP CHARACTERISTICS OF VVER-1000 LIGHT-WATER REACTOR

Klimov A. D.; Orlov V. V.; Kvaratskheli A. Yu.; Knyazev A. P.

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EFFECT OF CELL-BOUNDARY CURRENTS ON THE FUEL BURNUP CHARACTERISTICS OF VVER-1000 LIGHT-WATER REACTOR

机译：细胞边界电流对VVER-1000轻型反应堆燃料燃烧特性的影响

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The results of a computational study of the effect of nonzero currents at FA boundaries on the characteristics of fuel burnup in VVER-1000 are presented. A variant with 1/3 mixed fuel loaded into the core was studied. The TRIFON 2.1 code was used to calculate the time dependence of the characteristics of FA with uranium and mixed fuel and the SHERHAN code was used for computational modeling of three-dimensional burnup; the codes were modified on the basis of an improved heterogeneous method. It is shown by a computational method that in VVER-1000 with a mixed fuel load nonzero currents at FA boundaries, matched with their conditions inside the reactor, give a moderate effect in the multiplication coefficient - 0.2-0.35%, in the coefficient of nonuniformity of the power distribution - 1.5%, and in the burnup of uranium and mixed fuel in FA over a fuel cycle - 0.6%.

机译：给出了在VVER-1000中FA边界处非零电流对燃料燃耗特性的影响的计算研究结果。研究了一种将1/3混合燃料装入堆芯的方案。 TRIFON 2.1代码用于计算铀和混合燃料的FA特性的时间依赖性，而SHERHAN代码用于三维燃耗的计算模型。在改进的异构方法的基础上对代码进行了修改。通过计算方法表明，在混合燃料负载的VVER-1000中，FA边界处的非零电流与反应堆内部的条件相匹配，从而对不均匀系数的乘积系数-0.2-0.35％产生了中等影响。功率分布的1.5％，以及燃料循环中FA中铀和混合燃料的燃耗-0.6％。

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来源
《Atomic Energy》 |2018年第6期|355-363|共9页
作者
Klimov A. D.; Orlov V. V.; Kvaratskheli A. Yu.; Knyazev A. P.;
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作者单位

Dollezhal Res & Dev Inst Power Engn NIKIET, Moscow, Russia;

Dollezhal Res & Dev Inst Power Engn NIKIET, Moscow, Russia;

Natl Res Ctr Kurchatov Inst, Alikhanov Inst Theoret & Expt Phys GNTs RF ITEF, State Sci Ctr Russian Federat, Moscow, Russia;

Natl Res Ctr Kurchatov Inst, Alikhanov Inst Theoret & Expt Phys GNTs RF ITEF, State Sci Ctr Russian Federat, Moscow, Russia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-18 04:06:33

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EFFECT OF CELL-BOUNDARY CURRENTS ON THE FUEL BURNUP CHARACTERISTICS OF VVER-1000 LIGHT-WATER REACTOR

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