高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
11期
2919-2926
,共8页
唐炬%范敏%裘吟君%梁鑫%袁静帆
唐炬%範敏%裘吟君%樑鑫%袁靜帆
당거%범민%구음군%량흠%원정범
六氟化硫%光声光谱%温度影响%交叉响应%在线监测%校正模型
六氟化硫%光聲光譜%溫度影響%交扠響應%在線鑑測%校正模型
륙불화류%광성광보%온도영향%교차향응%재선감측%교정모형
SF6%photoacoustic spectroscopy%temperature influence%cross response%on-line monitoring%correction model
光声光谱检测法在SF6局部放电分解特征气体组分的检测中有较好的效果,但检测温度对其检测的准确度有较大影响。为此,利用构建的光声检测实验平台,获取了SO2、CO2和CF4这3种单一特征气体组分的光声信号温度特性和混合特征气体组分的红外交叉响应特性,对温度影响气体光声信号检测准确度的原理进行了理论分析。研究发现,在30~50℃温度范围内,SO2(波长为7.35μm)、CO2(波长为4.26μm)和CF4(波长为7.78μm)的光声信号值具有负温度特性,混合特征气体组分的交叉响应比例具有正温度特性。同时,提出了一种光声检测微量气体的温度线性校正模型。对该模型进行了校正检验,校正结果与参考温度下的标准光声信号误差〈4%。该模型为SF6局部放电分解特征气体组分的光声光谱检测和相应在线监测装置的研制奠定了可行的温度校正基础。
光聲光譜檢測法在SF6跼部放電分解特徵氣體組分的檢測中有較好的效果,但檢測溫度對其檢測的準確度有較大影響。為此,利用構建的光聲檢測實驗平檯,穫取瞭SO2、CO2和CF4這3種單一特徵氣體組分的光聲信號溫度特性和混閤特徵氣體組分的紅外交扠響應特性,對溫度影響氣體光聲信號檢測準確度的原理進行瞭理論分析。研究髮現,在30~50℃溫度範圍內,SO2(波長為7.35μm)、CO2(波長為4.26μm)和CF4(波長為7.78μm)的光聲信號值具有負溫度特性,混閤特徵氣體組分的交扠響應比例具有正溫度特性。同時,提齣瞭一種光聲檢測微量氣體的溫度線性校正模型。對該模型進行瞭校正檢驗,校正結果與參攷溫度下的標準光聲信號誤差〈4%。該模型為SF6跼部放電分解特徵氣體組分的光聲光譜檢測和相應在線鑑測裝置的研製奠定瞭可行的溫度校正基礎。
광성광보검측법재SF6국부방전분해특정기체조분적검측중유교호적효과,단검측온도대기검측적준학도유교대영향。위차,이용구건적광성검측실험평태,획취료SO2、CO2화CF4저3충단일특정기체조분적광성신호온도특성화혼합특정기체조분적홍외교차향응특성,대온도영향기체광성신호검측준학도적원리진행료이론분석。연구발현,재30~50℃온도범위내,SO2(파장위7.35μm)、CO2(파장위4.26μm)화CF4(파장위7.78μm)적광성신호치구유부온도특성,혼합특정기체조분적교차향응비례구유정온도특성。동시,제출료일충광성검측미량기체적온도선성교정모형。대해모형진행료교정검험,교정결과여삼고온도하적표준광성신호오차〈4%。해모형위SF6국부방전분해특정기체조분적광성광보검측화상응재선감측장치적연제전정료가행적온도교정기출。
Photoacoustic(PA)spectroscopy performs well in the detection of SF6decomposition components under partial discharge(PD),but the testing temperature has a major influence to its accuracy.To investigate how temperature affects the accuracy of the PA signal gas detection,we got the PA signal temperature properties of SO2,CO2,and CF4separately and the cross response properties of the gases'mixture after constructing a PA experimental platform.Based on the experimental results,the effect of temperature on the detection was theoretically analyzed.The experiments show that the PA signal of SO2,CO2,and CF4have a negative temperature property but the cross response ratios of mixed gas has a positive temperature property in range of 30~50°C.Moreover,we put forward a temperature linear correction model which can be used in PA detection of trace gases.The model was regulated,and the corrected result has error less than 4%to the standard PA signal under reference temperature.The model could be used as a feasible temperature correction foundation for PA detection of SF6 decomposition components under partial discharge and corresponding on-line monitoring devices.
