Study on Uncertainty of Gas Monitoring Dynamic Calibration System

Li De Fang; Xiu Ming Xiang; Xiao Ting Li; Li Li Pang; Xiao Jie Wang; Ran Liu

doi:10.4028/www.scientific.net/AMM.105-107.1970

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 105-107Study on Uncertainty of Gas Monitoring Dynamic...

Study on Uncertainty of Gas Monitoring Dynamic Calibration System

Abstract:

With the rapid development of industry and transportation, air pollution is worsening, therefore, monitoring of air pollution components is more and more heeded. In this study, based on the measurement model and the composition of the air quality monitoring system on line, the mathematical model of the measurement system value transmission was analyzed, and the uncertainty components were calculated respectively, a conclusion that the main factor of the overall system uncertainty is the uncertainty of system itself in the existing air quality monitoring system was drawn, so measurement uncertainty of the calibration system was focused on the research. The effects of the Zero-gas, calibration gases and gas mass flow controller on the uncertainty of the calibration system was experimented and analyzed, and measurement uncertainty of the dynamic calibration system was evaluated.

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Periodical:

Applied Mechanics and Materials (Volumes 105-107)

Pages:

1970-1974

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.105-107.1970

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Online since:

September 2011

Authors:

Li De Fang, Xiu Ming Xiang, Xiao Ting Li, Li Li Pang, Xiao Jie Wang, Ran Liu

Keywords:

Dynamic Calibration System, Gas Monitoring, Mass Flow Controller, Measurement Uncertainty

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References

[1] X.Y. Yang: Design of and Experimental Study on Atmospheric Pollutant Monitoring System with UV Spectroscopy (MS., Tianjin University, China 2005.1). (In Chinese)

Google Scholar

[2] B.C. Wu, L. Fei: Modern Environmental Monitoring Technology(China Environmental Science Press, China 2005). (In Chinese)

Google Scholar

[3] X.J. Hao, K.J. Li and J. Liu: Acta ArmamentarII, Vol. 30 (2009.2) No.2, pp.30-33. (In Chinese)

Google Scholar

[4] L. Michalski, K. Eckersdorf, J. Kucharski and J. McGhee: Temperatures measurement(John Wiley & Sons, UK 2001).

Google Scholar

[5] J.J. Yuan, J.Z and J.G. Yang: Measurement and Test Technology, Vol. 36 (2009) No.2, pp.31-32. (In Chinese)

Google Scholar

[6] L.Huang: Research on Dynamic Calibration Technology of Transient Surface Temperature Sensor (MS, North University of China, China 2007). (In Chinese)

Google Scholar

[7] C.P. Yang: Theories and Techniques Studies on Ultra-Violet Fluorescence Detection of Sulfur Dioxide in Air the Parts per Billion Level (MS., South China Normal University, China 2002) (In Chinese)

Google Scholar

[8] W.M. Wen: Development of an Indoor Toxic Gas Monitoring System(MS, Xi,an University of Science and Technology, China 2008.4.15). (In Chinese)

Google Scholar

[9] W.Q.Qi, Z.G. Sun and G.G. Bian: Environmental Monitoring New Technology(Chemical Industry Press, China 2004). (In Chinese)

Google Scholar

[10] D.G. Streets, N.Y. Tsai, H. Akimoto and K. Oka: Atmospheric Environment, Vol. 34 (2000) p.4413.

Google Scholar

[11] U.S. Environmental Protection Agency: National Air Quality and Emissions Trends Report, (U.S. Environmental Protection Agency, U.S. 1993), p.136.

Google Scholar

[12] W. Zheng: Studying of Air Quality Monitoring System Based on FTIR (MS., Tianjin University, China 2006). (In Chinese)

Google Scholar

[13] A. Miketa and L. Schrattenhozer: Energy Policy, Vol. 34 (2006) No.7, p.877.

Google Scholar