钠冷却剂直管蒸汽发生器功率计算

A. Blokhina, S. Lyakishev, O. Korotkova
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引用次数: 0

摘要

研究了含钠冷却剂的快中子反应堆直管蒸汽发生器管组中冷却剂流型非线性对换热器功率的影响。在设计蒸汽发生器时,一项非常重要的任务是正确计算蒸汽发生器的输出参数,特别是功率。对于没有参考溶液的工厂,有必要对影响计算参数的因素进行深入分析,并将这些参数纳入规范。一个没有类似物的新电厂的例子是用于使用液态金属钠冷却剂的前景快中子电厂的壳式蒸汽发生器。新解在蒸汽发生器设计中的应用,需要用现代计算规范对热工水力进行实验和计算论证。蒸汽发生器功率计算按“KORSAR/GP”、“PGN-2K”热工代码进行。冷却剂路径参数计算模型(管空间)的一个假设是通过管组件的横截面得到均匀的速度分布。每个换热管的给水费用相同,这也是公认的。另一方面,在蒸汽发生器气动模型上的计算CFD和实验研究表明,冷却剂费用在管道空间截面上存在明显的不均匀性,这在热水力计算中没有考虑到。本文介绍了在液态金属蒸汽发生器计算中,用管空间截面法计算已知的冷却剂流动不均匀分布的方法。在此基础上,提出了提高功率输出和可靠性的措施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
POWER CALCULATION OF STRAIGHT-PIPE STEAM GENERATOR WITH SODIUM COOLANT
The article investigates the influence of coolant flow profile nonlinearity through straight-pipe steam generators tube assembly for fast neutron reactor with sodium coolant on heat exchanger power. When designing steam generators, a very important task is to correctly calculate the output parameters of the steam generator, especially the power. For the plants without reference solutions it is necessary to perform a deep analysis of the factors affecting on calculated parameters and to incorporate these parameters in the codes. An example of a new plant that do not have analogues is a shell-type steam generator for perspective fast neutron plants with liquid metal sodium coolant. The application of new solutions in steam generators design requires experimental and calculational justification of thermal hydraulic with the use of modern calculation codes. Power calculation of steam generator is carried out by thermohydraulic code “KORSAR/GP”, “PGN-2K”. One of the assumptions in coolant path parameters calculation model (tube space) is a uniform velocity profile by cross-section of tube assembly. It’s also accepted, that each heat exchange tube has the same expense of feed water. On the other hand calculational CFD and experimental studies at aerodynamic model of steam generator showed the presence of significant unevenness of coolant expense by tube space cross-section which is not taken into account in thermohydraulic calculations. The article contains the methodic of accounting for the known uneven coolant flow profile by tube space cross-section in liquid metal steam generator calculation. Based on the results obtained, measures to improve power output and reliability are proposed.
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