仪器仪表学报
儀器儀錶學報
의기의표학보
CHINESE JOURNAL OF SCIENTIFIC INSTRUMENT
2014年
12期
2717-2724
,共8页
李楠%杨祥东%龚裕%王湃%刘秀成
李楠%楊祥東%龔裕%王湃%劉秀成
리남%양상동%공유%왕배%류수성
电容层析成像%模糊理论%正交设计%灵敏度均匀性%图像相对误差
電容層析成像%模糊理論%正交設計%靈敏度均勻性%圖像相對誤差
전용층석성상%모호이론%정교설계%령민도균균성%도상상대오차
ECT%fuzzy theory%orthogonal design%uniformity index%image error
传感器优化设计是电容层析成像(ECT)多相流无损检测技术的关键环节之一。ECT传感器设计具有多参数多优化指标的特点。本文针对层流检测引入正交实验方法对极板的三个结构参数(极板长度、极板中心角,极板个数)进行了优化,提出一种模糊综合指标CFIECT,作为传感器多参数优化指标,对ECT传感器进行结构参数优化,并分别选择灵敏度均匀性Pcv,图像相对误差 Ier,作为单一优化指标进行优化,最终通过大量实验比较优化结果。实验结果表明利用基于模糊理论的CFIECT 作为传感器多参数优化指标能够使得设计的传感器在拥有较均匀的敏感场分布的同时具有较好的成像结果,为ECT传感器的优化设计提供了一种新思路。
傳感器優化設計是電容層析成像(ECT)多相流無損檢測技術的關鍵環節之一。ECT傳感器設計具有多參數多優化指標的特點。本文針對層流檢測引入正交實驗方法對極闆的三箇結構參數(極闆長度、極闆中心角,極闆箇數)進行瞭優化,提齣一種模糊綜閤指標CFIECT,作為傳感器多參數優化指標,對ECT傳感器進行結構參數優化,併分彆選擇靈敏度均勻性Pcv,圖像相對誤差 Ier,作為單一優化指標進行優化,最終通過大量實驗比較優化結果。實驗結果錶明利用基于模糊理論的CFIECT 作為傳感器多參數優化指標能夠使得設計的傳感器在擁有較均勻的敏感場分佈的同時具有較好的成像結果,為ECT傳感器的優化設計提供瞭一種新思路。
전감기우화설계시전용층석성상(ECT)다상류무손검측기술적관건배절지일。ECT전감기설계구유다삼수다우화지표적특점。본문침대층류검측인입정교실험방법대겁판적삼개결구삼수(겁판장도、겁판중심각,겁판개수)진행료우화,제출일충모호종합지표CFIECT,작위전감기다삼수우화지표,대ECT전감기진행결구삼수우화,병분별선택령민도균균성Pcv,도상상대오차 Ier,작위단일우화지표진행우화,최종통과대량실험비교우화결과。실험결과표명이용기우모호이론적CFIECT 작위전감기다삼수우화지표능구사득설계적전감기재옹유교균균적민감장분포적동시구유교호적성상결과,위ECT전감기적우화설계제공료일충신사로。
Electrical capacitance tomography (ECT) is a non-invasive multiphase flow detecting technique, and sensor optimal design is one of the key parts in ECT technique. The senor design is multi-parametric, and has multiple indicators. Therefore, the orthogonal design is introduced to deal with the optimization of three structural parameters of the sensor plates including the length, the central angel and the number. A combinatorial fuzzy index of ECT (CFIECT) is defined and presented as a multi-parametric indicator for optimization of the senor. Meanwhile, the uniformity indexPcv and the image errorIerare set as the single optimization objective respectively to compare with the new method, CFIECT. Experimental results indicate that the sensor structure optimized by CFIECT exhibits a greater even sensitivity distribution and a better imaging reconstruction result at the same time, which provides a new method for optimization of the ECT sensor design.
