光电工程
光電工程
광전공정
OPTO-ELECTRONIC ENGINEERING
2009年
8期
33-39
,共7页
葛楠%彭光正%纪春华%姜牧舟
葛楠%彭光正%紀春華%薑牧舟
갈남%팽광정%기춘화%강목주
红外图像处理%热模型%熵融合%气体泄漏定位
紅外圖像處理%熱模型%熵融閤%氣體洩漏定位
홍외도상처리%열모형%적융합%기체설루정위
infrared image processing%heat model%entropy fusion%air leak localization
研究了一种基于红外图像融合技术进行气体泄漏点定位的方法.通过对气体泄漏热传导过程的有限元模拟和泄漏节流温差的焦耳.汤姆逊系数计算,建立了被测对象的温度场模型.实验采用主动式冷却器对气体进行降温处理以增强现象,利用热像仪分别采集金属与非金属对象充入压缩空气前后的红外图像, 根据不同材质对象的导热特性分别建立泄漏诊断阈值并进行熵值融合计算,从而定位泄漏点.仿真和实验结果表明,红外热像图可以灵敏地反映泄漏点处温度变化,熵融合算法能够快速、准确地提取出多种材质对象的泄漏位置,并且有效克服了被测工件表面缺陷对温度场及定位的干扰.
研究瞭一種基于紅外圖像融閤技術進行氣體洩漏點定位的方法.通過對氣體洩漏熱傳導過程的有限元模擬和洩漏節流溫差的焦耳.湯姆遜繫數計算,建立瞭被測對象的溫度場模型.實驗採用主動式冷卻器對氣體進行降溫處理以增彊現象,利用熱像儀分彆採集金屬與非金屬對象充入壓縮空氣前後的紅外圖像, 根據不同材質對象的導熱特性分彆建立洩漏診斷閾值併進行熵值融閤計算,從而定位洩漏點.倣真和實驗結果錶明,紅外熱像圖可以靈敏地反映洩漏點處溫度變化,熵融閤算法能夠快速、準確地提取齣多種材質對象的洩漏位置,併且有效剋服瞭被測工件錶麵缺陷對溫度場及定位的榦擾.
연구료일충기우홍외도상융합기술진행기체설루점정위적방법.통과대기체설루열전도과정적유한원모의화설루절류온차적초이.탕모손계수계산,건립료피측대상적온도장모형.실험채용주동식냉각기대기체진행강온처리이증강현상,이용열상의분별채집금속여비금속대상충입압축공기전후적홍외도상, 근거불동재질대상적도열특성분별건립설루진단역치병진행적치융합계산,종이정위설루점.방진화실험결과표명,홍외열상도가이령민지반영설루점처온도변화,적융합산법능구쾌속、준학지제취출다충재질대상적설루위치,병차유효극복료피측공건표면결함대온도장급정위적간우.
An air leakage localization method based on infrared image fusion was investigated. Modeling and simulation of heat transfer coupled with steady air-leak flow were addressed by the finite element method. The temperature difference in leak throttling proeess was derived from the expression of Joule-Thomson coefficient. In the experiments, metallic and metalloid test objects were charged with cryogenic compressed air respectively, which enhanced the phenomenon, and their temperature fields were acquired by an infrared camera. Leak diagnostic criterion was set as different values referring to the thermal eonductivities of various tested materials, and entropy fusion operation among the infrared images captured before and atter inflation was conducted. Then, the leak positions were located by a certain strategy. The advantages of the method were demonstrated by experiment, especially in eliminating the interference of surface defects and the influence of shapes by employing the entropy fusion algorithm.
