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通量工程
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  flux engineering
     10 Years Safety Operation of the High Flux Engineering Test Reactor(HFETR)
     高通量工程试验堆(HFETR)安全运行十周年
短句来源
     This paper introduces technologic management mode and major contenton of High Flux Engineering Test Reactor(HFETR).
     介绍了高通量工程试验堆(HFETR)的技术管理模式及其主要内容。
短句来源
     Application of Genetic Algorithm in the Fuel Management Optimization for the High Flux Engineering Test Reactor
     遗传算法在高通量工程试验堆燃料管理优化中的应用
短句来源
     Fast Neutron Flux Calculation of Welding Line in Pressure Vessel of High Flux Engineering Test Reactor
     高通量工程试验堆压力容器焊缝快中子注量计算
短句来源
     Economic Analysis and Comprehensive Utilization of the High Flux Engineering Text Reactor
     高通量工程试验堆运行经济分析及综合利用
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  “通量工程”译为未确定词的双语例句
     The code package comprised of cell calculation code WIMS D4 CNPRI and diffusion codes CITATION/SIXTUS 2/3 is developed and has been successfully used for the physical calculation of HFETR.
     开发了栅元计算程序WIMS D4 CNPRI和六角形堆芯扩散计算程序CITATION/SIXTUS 2 / 3软件包 ,并成功的将它们用于高通量工程试验堆的物理计算。
短句来源
     Results demonstrate that themeasurements by this gauge could attain an accuracy of 1.4% after its beingirradiated to 1.4x10~(20)N/cm~2(E>0.625eV)at temperature of 330±40℃.
     堆外试验和在高通量工程试验反应堆(HFETR)内的辐照试验结果表明,在辐照到快中子积分通量1.4×10~(20)N/cm~2(E>0.625eV)时,其测量误差在±1.4%以内.
短句来源
     Monte Carlo Calculation of HFETR Criticality
     高通量工程试验堆临界蒙特卡罗计算
短句来源
     The Physical Design and Calculation of the HFETR
     高通量工程试验反应堆的物理设计和计算
短句来源
     The Flow Inversion Test and Theory Analysis for HFETR
     高通量工程试验反应堆流量反转试验及其理论分析
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  相似匹配句对
     PHYSICAL STARTUP OF HIGH FLUX ENGINEERING TEST REACTOR
     高通量工程试验反应堆物理启动
短句来源
     Beryllium Used in HFETR
     铍在高通量工程试验堆上的应用
短句来源
     After transformation, the engineered strain E.
     工程菌 E.
短句来源
     main projects
     重点工程
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     On the Teaching of Flux
     关于通量的教学
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The general situations of the HFETR have been described in reference[1].Inthis paper,we devote to the mention of the physical design and calculation ofHFETR.Firstly,the principles and characters of the physical design are represented,and then the theoretical models and mathods used in the physical ealculation of theHFETR are explained simply.The physical parameters of the HFETR are givenin detail.It is our hope that the paper will be referable to reactor designers andscientists who are going to test in the HFETR....

The general situations of the HFETR have been described in reference[1].Inthis paper,we devote to the mention of the physical design and calculation ofHFETR.Firstly,the principles and characters of the physical design are represented,and then the theoretical models and mathods used in the physical ealculation of theHFETR are explained simply.The physical parameters of the HFETR are givenin detail.It is our hope that the paper will be referable to reactor designers andscientists who are going to test in the HFETR.

通量工程试验反应堆的一般情况已在文献[1]中作了介绍。本文专题介绍该堆的物理设计和计算。文中首先说明了物理设计的原则和特点。其次简述了物理计算方法,给出该堆较为完整的物理特性参数。可供利用该堆进行各种试验的科研工作者及其它有关人员参考。

The authors had measured the transient of the thermal parameters(e.g.the inlet and outlet coolant temperature of fuel element case,the temperature offuel cladding,the flow of fuel element case and its thermal power)of the fuelelement at loss-of-power accident,the flow-reversal transient when emergencypump was starting and stopping during shutdown cooling,and the long-timedecay heat after shutdown by means of the in-core fuel element temperature-flowmeasurement facility of HFETR.The above-mentioned measurement...

The authors had measured the transient of the thermal parameters(e.g.the inlet and outlet coolant temperature of fuel element case,the temperature offuel cladding,the flow of fuel element case and its thermal power)of the fuelelement at loss-of-power accident,the flow-reversal transient when emergencypump was starting and stopping during shutdown cooling,and the long-timedecay heat after shutdown by means of the in-core fuel element temperature-flowmeasurement facility of HFETR.The above-mentioned measurement results havebeen described.

作者应用高通量工程试验堆堆芯燃料元件温度-流量测量装置测定了在全厂断电事故情况下的燃料元件热工参数(元件盒进出口水温,元件包壳温度,元件盒流量及其热功率)的瞬态过程,测定了在停堆冷却过程中启停事故泵时的流动反向过程,进行了停堆后的长时间剩余发热测量,给出了上述测量结果。

This paper summarized the data on thermal and hydraulic experiments in the High Flux Engineering Test Reactor, and compared the experimental results with the calculated values. It indicated that satisfactory agreement holds between them, therefore the theoretical analysis models are correct and the formulas parameters are suitable.

本文整理了高通量工程試驗堆在綜合調試实驗和第一炉高参数連續运行期間堆内有关的热工、水力实驗数据,并将結果与理論分析值进行了比較。二者符合较好。这說明原理论分析模型是正确的,所采用的有关公式和参数是适宜的。

 
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