AUTHOR=Li Guolin , Jiang Qingzhi , Hua Chenquan , Ma Kun , Jiao Yue , Ji Wenhai 

TITLE=Temperature and Pressure Insensitive Spectroscopic Method for Measuring 13CH4 during Oil and Natural Gas Drilling Operations

JOURNAL=Frontiers in Physics

VOLUME=9

YEAR=2021

URL=https://www.frontiersin.org/journals/physics/articles/10.3389/fphy.2021.633012

DOI=10.3389/fphy.2021.633012

ISSN=2296-424X

ABSTRACT=<p>A novel rugged two-section driving NIR TDLAS scheme was implemented to reduce temperature and pressure sensitivity of methane carbon isotope measurement during oil and natural gas drilling operations. Isotope spectra line groups with same lower energy levels were selected to derive the concentration of <sup>13</sup>CH<sub>4</sub> and <sup>12</sup>CH<sub>4</sub>. Dynamic pressure linewidth broadening was introduced in the absorbance curve fitting. Various uncontrollable factors such as spectra shift, stretching, and baseline trending were incorporated in the comprehensive multi-peak fitting. The results showed that the sensitivity of isotope ratios to temperature and pressure variation was greatly suppressed. The δ<sup>13</sup>CH<sub>4</sub> uncertainty in the temperature test was 2.8‰ with fitted δ<sup>13</sup>CH<sub>4</sub>-T slope of 0.021‰/°C in 25 ± 5°C range. The δ<sup>13</sup>CH<sub>4</sub> uncertainty in the pressure test was 1.4‰ with fitted δ<sup>13</sup>CH<sub>4</sub>-P slope of &lt;0.001‰/mbar from 400 to 1000 mbar. The limit standard deviation of long-term test was 0.15‰ (@135 s). The results indicate that our scheme is a promising solution for δ<sup>13</sup>CH<sub>4</sub> measurement during drilling operations due to the enhanced robustness.</p>