光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2015年
1期
34-37
,共4页
高光珍%蔡廷栋%胡波%贾天俊
高光珍%蔡廷棟%鬍波%賈天俊
고광진%채정동%호파%가천준
可调谐多模二极管激光器%关联光谱%谐波检测%氧气浓度
可調諧多模二極管激光器%關聯光譜%諧波檢測%氧氣濃度
가조해다모이겁관격광기%관련광보%해파검측%양기농도
Tunable multi-mode diode laser%Correlation spectroscopy%Harmonic detection%Oxygen concentrations
可调谐二极管激光吸收光谱技术(TDLAS)具有高灵敏度、高选择性和快速响应等特点,被广泛应用于环境监测、工业生产监控和生物医疗等众多领域。为克服传统TDLAS技术成本高以及长时间工作过程中由于中心波长偏移造成的稳定性差等问题,提出了利用多模二极管激光关联光谱和谐波检测技术实现氧气浓度在线监测的研究。以Fabry-Perot(FP)激光器为光源,通过对760 nm附近氧气分子的多条吸收谱线的探测,实现了对氧气浓度的测量。输出光束被分光系统分成两路信号,分别经过样品池和测量池,双路接收采集含有气体浓度信息的光信号送后级处理,通过测量信号和参考信号之间的相关性及比例关系对氧气浓度进行反演,其中关联光谱技术和谐波检测技术被用于提高系统稳定性和信噪比。结果表明,在1个大气压条件下,系统的探测极限为280 ppm?m ,对同一样品在30 min内的30次连续测量的标准偏差为0.056%,表明了系统良好的稳定性。该系统在软、硬件上的设计可以满足氧气的在线监测,且系统稳定性高、装置简单、易用,便于复杂环境应用。
可調諧二極管激光吸收光譜技術(TDLAS)具有高靈敏度、高選擇性和快速響應等特點,被廣汎應用于環境鑑測、工業生產鑑控和生物醫療等衆多領域。為剋服傳統TDLAS技術成本高以及長時間工作過程中由于中心波長偏移造成的穩定性差等問題,提齣瞭利用多模二極管激光關聯光譜和諧波檢測技術實現氧氣濃度在線鑑測的研究。以Fabry-Perot(FP)激光器為光源,通過對760 nm附近氧氣分子的多條吸收譜線的探測,實現瞭對氧氣濃度的測量。輸齣光束被分光繫統分成兩路信號,分彆經過樣品池和測量池,雙路接收採集含有氣體濃度信息的光信號送後級處理,通過測量信號和參攷信號之間的相關性及比例關繫對氧氣濃度進行反縯,其中關聯光譜技術和諧波檢測技術被用于提高繫統穩定性和信譟比。結果錶明,在1箇大氣壓條件下,繫統的探測極限為280 ppm?m ,對同一樣品在30 min內的30次連續測量的標準偏差為0.056%,錶明瞭繫統良好的穩定性。該繫統在軟、硬件上的設計可以滿足氧氣的在線鑑測,且繫統穩定性高、裝置簡單、易用,便于複雜環境應用。
가조해이겁관격광흡수광보기술(TDLAS)구유고령민도、고선택성화쾌속향응등특점,피엄범응용우배경감측、공업생산감공화생물의료등음다영역。위극복전통TDLAS기술성본고이급장시간공작과정중유우중심파장편이조성적은정성차등문제,제출료이용다모이겁관격광관련광보화해파검측기술실현양기농도재선감측적연구。이Fabry-Perot(FP)격광기위광원,통과대760 nm부근양기분자적다조흡수보선적탐측,실현료대양기농도적측량。수출광속피분광계통분성량로신호,분별경과양품지화측량지,쌍로접수채집함유기체농도신식적광신호송후급처리,통과측량신호화삼고신호지간적상관성급비례관계대양기농도진행반연,기중관련광보기술화해파검측기술피용우제고계통은정성화신조비。결과표명,재1개대기압조건하,계통적탐측겁한위280 ppm?m ,대동일양품재30 min내적30차련속측량적표준편차위0.056%,표명료계통량호적은정성。해계통재연、경건상적설계가이만족양기적재선감측,차계통은정성고、장치간단、역용,편우복잡배경응용。
Tunable diode laser absorption spectroscopy (TDLAS) is a widely used technique for high sensitivity ,good selectivity and fast response .It is widely used in environment monitoring ,industrial process control and biomedical sensing .In order to o-vercome the drawbacks of TDLAS including high cost ,poor stability and center wavelength shift problem .A multi-mode diode laser system based on correlation spectroscopy and wavelength modulation spectroscopy (TMDL-COSPEC-WMS) was used to measure O2 concentration near 760nm at the 1% ~30% range of near room temperature .During the experiment ,the light is splitter into two beams ,respectively through the sample and measuring cell ,two receiving optical signal collection containing gas concentration information sent back stage treatment ,invert the oxygen concentration through correlation and ratio between meas-ured signal and reference signal ,the correlation spectroscopy harmonic detection technique is used to improve the stability of the system and the signal to noise ratio .The result showed that ,there was a good linear relationship between the measured oxygen concentration and the actual concentration value .A detection limit of 280 pmm﹒m in the 1 atmospheric which approved of the same sample .A continuous measurement for oxygen with the standard deviation of 0.056% in ambient air during approximately 30minutes confirms the stability and the capability of the system .The design of the system includes soft and hardware can meet the needs of oxygen online monitoring .The experimental device is simple and easy to use ,easy to complex environment application .
