Your search keyword '"Cheong, Kin-Pang"' showing total 2 results

1. Tomographic Absorption Spectroscopy for H 2 O Transport in a Laminar Jet with Inverse Concentration Gradient.

Author

Cheong, Kin-Pang, Shi, Dingfeng, Liu, Shaotong, Wu, Junjun, Duan, Kun, Song, Yong, and Ren, Wei

Subjects

*CONCENTRATION gradient, *JET transports, *WATER vapor transport, *COMPUTATIONAL fluid dynamics, *WATER distribution

Abstract

We report a tomographic absorption spectroscopy (TAS) study of water vapor transport in a laminar jet issuing into the ambient. The jet was generated using compressed dry air that was straightened by a honeycomb and a smooth contraction nozzle. A TAS scheme using the water vapor in the ambient as absorbing species and the absorption line near 1368.598 nm was proposed to study the H2O transport in the laminar jet with an inverse concentration gradient. One-dimensional tomography was conducted at various heights above the nozzle, and the results were validated by the predictions from computational fluid dynamics (CFD) simulations. Particularly, the variations in the concentration gradient in the shear layer at different heights were captured. The 2D distribution of water concentration in the dry laminar jet was obtained experimentally. The present study shows that TAS has great potential in the research of mass transfer and scalar field of gaseous flows. [ABSTRACT FROM AUTHOR]

Published

2022

2. Theoretical and Experimental Study of Heterodyne Phase-Sensitive Dispersion Spectroscopy with an Injection-Current-Modulated Quantum Cascade Laser.

Author

Wang, Zhen, Cheong, Kin-Pang, Li, Mingsheng, Wang, Qiang, and Ren, Wei

Subjects

*QUANTUM cascade lasers, *SPECTRUM analysis, *DISPERSION (Chemistry), *LASER spectroscopy, *HETERODYNE detection, *STANDARD deviations

Abstract

We report the theoretical and experimental study of calibration-free heterodyne phase-sensitive dispersion spectroscopy (HPSDS) in the mid-infrared using a direct current modulated mid-infrared quantum cascade laser (QCL). The modulation of QCL current at several hundred MHz or higher generates the synchronous frequency and intensity modulation of the QCL emission. An analytical model of the phase of the beat note signal in HPSDS is derived by considering the absorption and dispersion processes and incorporating the QCL modulation parameters. In the experiment, a 4.5 μm QCL modulated at 350 MHz was used to measure N2O at 200 Torr in a 10 cm gas cell. The N2O concentrations inferred from the analytical model were compared with the nominal values to show good agreement over the concentration range of 189−805 ppm with a standard deviation <3%. When the QCL wavelength was locked at the line-center of the molecular transition, it was of interest to find that the theoretical model was simplified to that used for near-infrared HPSDS with an electro-optical modulator for laser modulation. [ABSTRACT FROM AUTHOR]

Published

2020