Integration of a fused silica capillary and in-situ Raman spectroscopy for investigating CO2 solubility in n-dodecane at near-critical and supercritical conditions of CO2

To determine the solubility of CO2 in n-dodecane at T = 303.15–353.15 K, P ≤ 11.00 MPa, an integrated fused silica capillary and in-situ Raman spectroscopy system was built. The Raman peak intensity ratio (ICO2/IC-H) between the upper band of CO2 Fermi diad (ICO2) and the C–H stretching band of n-do...

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Bibliographic Details
Published in:Petroleum science 2022-12, Vol.19 (6), p.3124-3133
Main Authors: Wang, Jun-Liang, Song, Zi-Hao, Li, Lin-Jun, Yang, Li-Li, Wang, Quan-Yuan, Chou, I-Ming, Pan, Zhi-Yan
Format: Article
Language:English
Subjects:
CO2 solubility
Fused silica capillary
In-situ
n-dodecane
Raman spectroscopy
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Summary:To determine the solubility of CO2 in n-dodecane at T = 303.15–353.15 K, P ≤ 11.00 MPa, an integrated fused silica capillary and in-situ Raman spectroscopy system was built. The Raman peak intensity ratio (ICO2/IC-H) between the upper band of CO2 Fermi diad (ICO2) and the C–H stretching band of n-dodecane (IC-H) was employed to determine the solubility of CO2 in n-dodecane based on the calibrated correlation equation between the known CO2 molality in n-dodecane and the ICO2/IC-H ratio with R2 = 0.9998. The results indicated that the solubility of CO2 decreased with increasing temperature and increased with increasing pressure. The maximum CO2 molality (30.7314 mol/kg) was obtained at 303.15 K and 7.00 MPa. Finally, a solubility prediction model (lnS=(P−A)/B) based on the relationship with temperature (T in K) and pressure (P in MPa) was developed, where S is CO2 molality, A=−8×10−6T2+ 0.0354T− 8.1605, and B=0.0405T− 10.756 . The results indicated that the solubilities of CO2 derived from this model were in good agreement with the experimental data.
ISSN:1995-8226
1995-8226
DOI:10.1016/j.petsci.2022.06.014