利用紫外led光源测量so2气体浓度
, PP. 48-52
Keywords: so2浓度,紫外led,测量,吸收光谱,光学吸收参量,信噪比
Abstract:
采用led作为探测光源,可以进一步降低so2检测设备的成本,增加其使用寿命。以中心波长为300nm的紫外led为光源,基于so2的吸收光谱特性,建立了光学吸收参量与so2浓度之间的理论模型。试验表明,采用新的数据处理方法进行so2气体浓度评价,可以显著降低光源及探测器电子噪声对测量结果的影响,当信噪比等于2时其检测限可达0.2μl/l,通过长时间的浓度测量验证了该检测方法的稳定性及精确性。
| [1] | kanhd,chenrj,tongsl.ambientairpollution,climatechange,andpopulationhealthinchina[j].environmentinternational,2012,42:10-19.
|
| [2] | 严金英,郑重,于国峰,等.燃煤烟气多污染物一体化控制技术研究进展[j].热力发电,2011,40(11):9-13.yanjingying,zhengzhong,yuguofeng,etal.progressinstudyonmulti-pollutantcontroltechnologyforcoal-firedfluegas[j].thermalpowergeneration,2011,40(11):9-13.
|
| [3] | 江梅,张国宁,张明慧,等.国家大气污染物排放标准体系研究[j].环境科学,2012,33(12):4417-4421.jiangmei,zhangguoning,zhangminghui,etal.studyonemissionstandardsystemofairpollutants[j].environmentalscience,2012,33(12):4417-4421.
|
| [4] | paulta,porusm,gallettib,etal.sf6concentrationsensorforgas-insulatedelectricalswitchgear[j].sensorsandactuatorsa,physical,2014,206:51-56.
|
| [5] | aspromontesg,miróee,boixav.ftirstudiesofbutane,tolueneandnitricoxideadsorptiononagexchangednamordenite[j].adsorption,2012,18(1):1-12.
|
| [6] | 李宁,王飞,严建华,等.利用可调谐半导体激光吸收光谱技术对气体浓度的测量[j].中国电机工程学报,2005,25(15):121-126.lining,wangfei,yanjianhua,etal.thetunablediodelaserabsorptionspectroscopyforgasconcentrationmeasurement[j].proceedingsofthecsee,2005,25(15):121-126.
|
| [7] | 姚华,王飞,许婷,等.可调谐激光吸收光谱技术应用于高温环境下co的测量[j].热力发电,2011,40(11):42-46.yaohua,wangfei,xuting,etal.measurementofcoconcentrationusingtunablelaserabsorptionspectroscopytechnologyunderhightemperaturecondition[j].thermalpowergeneration,2011,40(11):42-46.
|
| [8] | doolyg,fitzpatrickc,lewise.opticalsensingofhazardousexhaustemissionsusingauvbasedextrinsicsensor[j].energy,2008,33:657-666.
|
| [9] | mertena,tschritterj,plattu.designofdifferentialopticalabsorptionspectroscopylong-pathtelescopesbasedonfiberoptics[j].appliedoptics,2011,50(5):738-754.
|
| [10] | premudam,petritolia,masieris,etal.astudyofo3andno2verticalstructureinacoastalwoodedzonenearametropolitanarea,bymeansofdoasmeasurements[j].atmosphericenvironment,2013,71:104-114.
|
| [11] | kalabokaspd,papayannisad,tsaknakisg,etal.astudyontheatmosphericconcentrationsofprimaryandsecondaryairpollutantsintheathensbasinperformedbydoasanddialmeasuringtechniques[j].scienceofthetotalenvironment,2012,414:556-563.
|
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