给出了核电站冷却池中wwer-1000燃料组件表面自然对流对超声测量结果影响的工程计算公式

A. Voronina, S. Pavlov
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引用次数: 0

摘要

给出了计算WWER-1000辐照燃料组件的衰减热引起的超声传感器到燃料组件表面距离的方法误差值的工程公式。水温沿超声波路径的梯度会引起方法误差。这是由于从反应堆排放到核电站冷却池的燃料组件表面存在自然对流。本文提出了一种计算方法误差的方法。假设传感器与燃料组件表面之间的水温由核电站冷却池中燃料组件与水之间的对流换热决定。VVER-1000燃料组件表面采用具有均匀表面热流密度的垂直平板进行建模。用几何声学的近似方法描述了超声波在燃料组件表面和超声波传感器之间的介质中的传播。根据所提出的方法,数值计算的结果以图的形式执行。通过对一组计算数据的处理,得到了计算方法误差值的工程公式。所得公式已应用于核电站WWER-1000冷却池燃料组件变形监测系统的研制。
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ENGINEERING FORMULAS FOR ESTIMATING THE INFLUENCE OF NATURAL CONVECTION ALONG THE SURFACE OF FUEL ASSEMBLY OF WWER-1000 ON THE RESULTS OF MEASURING ITS SIZES BY THE ULTRASONIC METHOD IN COOLING POND OF NUCLEAR POWER PLANT
Engineering formulas are presented for calculating the value of methodological error in measuring the distances from the ultrasonic sensor to the surface of the irradiated fuel assembly of WWER-1000 caused by decay heat from the fuel assembly. The methodical error arises due to the water temperature gradient along ultrasonic wave path. This is due to the presence of natural convection at the surface of the fuel assembly discharged from the reactor into cooling pool at nuclear power plant. The paper presents a methodology for calculating the methodical error. It is assumed that the water temperature between the sensor and the surface of the fuel assembly is determined by convective heat transfer between the fuel assembly and the water in cooling pool at nuclear power plant. The surface of VVER-1000 fuel assemblies is modeled by a flat vertical plate with a uniform surface heat flux. The propagation of an ultrasonic wave in a medium between the surface of a fuel assembly and an ultrasonic sensor is described in the approximation of geometric acoustics. The results of numerical calculations according to the presented method are executed in the form of nomograms. Engineering formulas for calculating the value of methodological error are obtained by processing an array of calculated data. The obtained formulas are used in the development of measuring systems for monitoring the deformation of fuel assemblies of WWER-1000 in cooling pond of nuclear power plant.
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