Fujun Song scite author profile

Scanning the absorption spectral line of water vapor through wavelength around 1368.597 nm is successfully used to measure the value of micro-moisture content. The synchronous superposition average of original signal algorithm based on labview is innovated and applied to detecting weak spectrum absorption signal instead of low pass filter. Two data processing methods are used to get the concentration of water vapor in ppm: one is a general formula method which has newly deduced a general formula to calculate the concentration of gas with temperature and beam intensity ratio when the pressure is equal to or greater than 1 atm; the other is engineering calibration method which is proved to have high resolution and accuracy with the fitted curve of beam intensity ratio and concentration in ppm when the temperature changes form 258 K to 305 K and the pressure ranges from 1atm to 5 atm.

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Measurement and analysis of water vapor inside optical components for optical fiber H₂O sensing system

Wang

Chang

Song³

et al. 2013

Appl. Opt.

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Water vapor existing inside internal end-face gaps of optical components of an optical fiber H2O sensing system makes it possible to influence the measurement accuracy and stability. The influence principle has been briefly analyzed based on the structure of three main optical components: a distributed feedback laser diode (DFB-LD), a collimator, and a photoelectric diode (PD). With application of a differential technique, the influence of water vapor inside the DFB-LD can be removed. With reasonable recombination of the collimator and the PD in a dual-beam detection system, the influence of water vapor inside the collimator and the PD's end-face gaps has been suppressed from more than 1.57×10(-3) to as low as -2.175×10(-5) in absorbance. After H2O isolation processing water vapor inside the end-face gaps of the DFB-LD, the collimator, and the PD can be utilized as a reference to design a simple but feasible H2O sensor. As a result, good linearity with an R2 of 0.9964 has been realized in a concentration range of 39-2110 ppm during an application test, and a long-term test of the designed H2O sensor against the S8000 with a difference of 10 ppm has been achieved.

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Application of wavelength scanning for measuring water vapour concentration by distributed laser diode

Chang

Zhou

et al. 2011

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A technique which takes advantage of distributed feedback laser diode (DFB-LD) wavelength scanning to measure water vapor concentration is presented. Concentration is gotten by peak absorption rate according to Beer-Lambert law and absorption coefficient of water vapor in HITRAN database. Theoretical work on the pressure affection to light intensity absorption rate has been done, a scheme is presented to cope with the affection of overlap of two adjacent lines, it takes advantage of the peak absorption difference between 1368.597nm and 1367.862 nm, and the difference value is used to calculate the water-vapor concentration.

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The theoretical and experimental exploration of a novel water-vapor concentration measutrment scheme based on scanning spectrometry

Zhang

Chang

Wang

et al. 2011

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Fujun Song

Detection of water vapor concentration based on differential value of two adjacent absorption peaks

Water vapor detection system based on scanning spectra

Measurement and analysis of water vapor inside optical components for optical fiber H₂O sensing system

Application of wavelength scanning for measuring water vapour concentration by distributed laser diode

The theoretical and experimental exploration of a novel water-vapor concentration measutrment scheme based on scanning spectrometry

Contact Info

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Resources

About

Fujun Song

Detection of water vapor concentration based on differential value of two adjacent absorption peaks

Water vapor detection system based on scanning spectra

Measurement and analysis of water vapor inside optical components for optical fiber H2O sensing system

Application of wavelength scanning for measuring water vapour concentration by distributed laser diode

The theoretical and experimental exploration of a novel water-vapor concentration measutrment scheme based on scanning spectrometry

Contact Info

Product

Resources

About

Measurement and analysis of water vapor inside optical components for optical fiber H₂O sensing system