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基于LED光源的气体二氧化氯浓度传感器的研究 被引量:4

Concentration Sensor of Gaseous Chlorine Dioxide with LED
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摘要 气体二氧化氯在空间消毒领域具有广阔的应用前景,但其浓度在线检测技术的不成熟在很大程度上限制了它的推广应用。本文基于吸光光度法的检测原理,采用LED作为光源,设计了简化的单波长双光路差分吸收式浓度检测探头,研制了可在线检测0~9 mg/L浓度范围的气体二氧化氯浓度传感器,采取多种措施避免气体二氧化氯在检测过程中发生光降解,提高传感器寿命和稳定性。并且设计搭建了标定实验平台进行传感器的标定。结果表明,本文设计的气体二氧化氯浓度传感器精度优于2%F.S.,能够满足气体二氧化氯空间消毒对浓度检测的需求。 As is well known, gaseous chlorine dioxide holds great prospect for room disinfection, but the technology of on-line concentration monitoring is immature, which hinders its widely use to a great extent. Based on absorption photometry principle, using LED as a light source, the differential absorption type measuring unit with simplified single wavelength and double light paths was designed. This paper realized the concentration sensor of gaseous chlorine dioxide with a detection range of 0~9 mg/L. Various measures were taken to avoid the photochemical decomposition of gaseous chlorine dioxide in the detection process to improve the stability of the sensor. Additionally, the experiment platform was designed to calibrate the sensor. The result shows that the design can meet the demand of on-line concentration monitoring for room disinfection using gaseous chlorine dioxide, with the accuracy of better than 2%of full scale.
作者 衣颖 吴金辉 陈锋 李抄 林松 张宗兴 祁建城
机构地区 军事医学科学院卫生装备研究所
出处 《光电工程》 CAS CSCD 北大核心 2014年第2期27-32,共6页 Opto-Electronic Engineering
基金 全军”十二五”面上项目(CWS11J081) “十二五”国家科技重大专项(2012ZX10004801)
关键词 气体二氧化氯 吸光光度法 浓度检测 双光路 gaseous chlorine dioxide absorption photometry concentration sensor double light paths
分类号 TP212 [自动化与计算机技术—检测技术与自动化装置]
  • 相关文献

参考文献9

  • 1Stuart Dobson, Richard Cary. Concise international chemical assessment document 37: CHLORINE DIOXIDE(GAS) [K]. Geneva: World HealthOrganization, 2002: 4-16.
  • 2John C S Chang, Michael L Taylor, Karen Riggs, et al. Verification of chlorine dioxide gas technologies for decontamination indoor surfaces contaminated with biological or chemical agents [K]. Columbus: U.S. EPA, 2003: 42-47.
  • 3Wilson S C, Wu C, Andriychuk L A, et al. Effect of chlorine dioxide gas on fungi and mycotoxins associated with sick building syndrome [J]. Applied and Environmental Microbiology(S0099-2240), 2005, 71(9): 5399-5403.
  • 4Joseph P Wooda, Blair Martinb G. Development and field testing of a mobile chlorine dioxide generation system for the decontamination of buildings contaminated with Bacillus anthracis [J]. Journal of Hazardous Materials(S0304-3894), 2009, 164: 1460-1467.
  • 5周德平,张渝,成琼,谢家理.高浓度二氧化氯气体的在线检测研究[J].分析试验室,2005,24(8):35-38. 被引量:5
  • 6王玉田,王聪,韩昭明.气体浓度在线检测系统的设计[J].红外与激光工程,2006,35(z2):123-127. 被引量:2
  • 7王艳菊,王玉田,张玉燕.差分吸收式甲烷气体传感系统的研究[J].仪器仪表学报,2006,27(12):1647-1650. 被引量:21
  • 8Kromminga H, Orphal J, Spietz P, et al. New measurements of OC10 absorption cross-sections in the 325-435 nm region and their temperature dependence between 213 and 293K [J]. Journal of Photochemistry and Photobiology A: Chemistry(S1010-6030), 2003, 157(2): 149-160.
  • 9崔超,胡双启,晋日亚,张晓宇.气体二氧化氯的光降解规律研究[J].中国安全科学学报,2011,21(7):52-56. 被引量:17

二级参考文献18

  • 1刘日龙,冯志华.互相关检测技术及其电路实现[J].自动化与仪器仪表,2005(4):38-39. 被引量:7
  • 2王化祥,曹章.基于锁相放大器的低通滤波环节优化设计[J].仪器仪表学报,2005,26(7):684-688. 被引量:11
  • 3CHAO CHEN XIAO-JIAN ZHANG YUN WANG LING-XIA ZHU JING LIU.Waste Water Disinfection During SARS Epidemic for Microbiological and Toxicological Control[J].Biomedical and Environmental Sciences,2006,19(3):173-178. 被引量:5
  • 4Lars S, Disa T. Svensk Pappersidning, 1978,81(4): 114.
  • 5Gauw R D, Emmert G L et al. Talanta, 1999, 50:1073.
  • 6黄君礼.新型水处理剂-二氧化氯技术及其应用[M].北京:化学工业出版社,2000.46.
  • 7Kolar J J, Lindgen B O. Tappi Journal, 1983, 67(8): 81.
  • 8JIN W,STEWART.G,CULSHAW B.Absorption measurement of methane gas using a broad light source and interferometric signal processing[J].Optics letters,1993,18(16):1364-1366.
  • 9DUBANIEWICZ T H,CHILTON J E,DOBROSKI H J R.Fiber optical atmospheric mine monitoring[J].IEEE Transaction on Industry Application,1993,29(4):740-753.
  • 10WHITENET T,STEWART G,ATHERTON K.Optical fibre instrumentation for environmental monitoring applications[J].Pure and Applied Optics,2003,5:140-145.

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二级引证文献27

光电工程
2014年 第2期

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