两相流的测量:基于碳纳米管的静态CT系统

Yucheng Zhang, Shuo Xu, Xincheng Xiang
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摘要

高精度的两相流测量对核反应堆安全高效运行具有重要意义。本文研究了内径为13mm的非透明管内气液流动的空隙率。x射线计算机断层扫描(CT)由于其良好的非侵入性被认为是测量两相流的有效方法。然而,由于转速的机械限制,快速CT系统减少扫描时间的解决方案已被提出依赖于多个源和检测器。近年来,基于碳纳米管(CNT)的x射线源被应用于CT成像,通过增加x射线源的数量,避免了龙门旋转,显著提高了时间分辨率。本文提出了一种用于直钢管两相流成像的潜在静态CT系统设计。该系统的设置采用90对碳纳米管x射线源和探测器阵列排列成一个圆圈。通过在管内随机放置不同大小的球形气泡来模拟气液流动。为了代替流动,根据流速和曝光时间增加模拟器的z轴。对密度分布反问题进行了迭代图像重建,实验结果表明,静态CT系统可用于区分流型和测量气液流动的空隙分布。
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Measurement of Two-Phase Flow: Static CT System Based on Carbon Nanotubes
Two-phase flow measurement with high precision plays a significant role in safe and efficient operation of nuclear reactor. This paper focuses on the void fraction of gas-liquid flow in a non-transparent tube with the inner diameter of 13mm. X-ray computer tomography (CT) is considered to be effective for two-phase flow measurement because of its good qualities of non-invasion. However, due to the mechanical limitation of rotating speed, solutions for fast CT system to reduce the scanning time have been suggested relied on multiple sources and detectors. Recently, carbon nanotube (CNT) based X-ray source has been applied to CT imaging, significantly improves the temporal resolution by increasing the number of sources and avoid the gantry rotation. This paper proposes a potential static CT system design for the imaging of two-phase flow in straight steel tube. The setup of this system employed 90 couples of CNT X-ray sources and detector arrays arranged in a circle. Gas-liquid flow was simulated with different sizes of spheroidic bubbles randomly placed in the water inside the tube. To substitute for the flow moving, the z-axis of the simulator was added according to the flow velocity and exposure duration. Iterative image reconstruction was applied for the inverse problem of density distribution, and the reconstruction result of the experiment indicates the static CT system is useful to distinguish the flow pattern and measure the void faction distribution of gas-liquid flow.
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