Quantitative Analysis of Main Components of Natural Gas Based on Raman Spectroscopy

Publication date: January 2019Source: Chinese Journal of Analytical Chemistry, Volume 47, Issue 1Author(s): Ying GAO, Lian-Kui DAI, Hua-Dong ZHU, Yun-Liang CHEN, Li ZHOUAbstractNatural gas is composed of methane, ethane, propane, carbon dioxide, nitrogen, hydrogen, carbon monoxide and unknown alkane components of C4 or more (denoted as C4+) after desulfurization and dehydration treatment. The concentrations of the first seven components account for more than 90% of natural gas. When analyzing the natural gas composition using Raman spectral analysis methods, a small amount of unknown alkane components C4+ will have a negative impact on the analytical precision. In this work, a novel method that consists of an automatic decomposition algorithm of Raman spectra and a model for quantitative analysis was developed for the analysis of components of natural gas. The Raman spectrum of a natural gas sample could be decomposed into the sum of the Raman spectra of pure constituents and several Lorentz peaks by a nonlinear least-square optimization algorithm based on a linear additivity of Raman spectra. The concentration of the unknown alkane component C4+ was determined according to the area of the C-H deformation vibration peak which was common for most alkane molecules. Some training samples were used to establish the model between Raman characteristic peak areas and corresponding concentrations for each component. Compared with the existing Raman analysis methods, the new method so...
Source: Chinese Journal of Analytical Chemistry - Category: Chemistry Source Type: research