Calibration data for simultaneous determination of P-V-X properties of binary and ternary CO2 - CH4 - N2 gas mixtures by Raman spectroscopy over 5–600 bar: Application to natural fluid inclusions - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Chemical Geology Année : 2020

Calibration data for simultaneous determination of P-V-X properties of binary and ternary CO2 - CH4 - N2 gas mixtures by Raman spectroscopy over 5–600 bar: Application to natural fluid inclusions

Van-Hoan Le
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Marie-Camille Caumon
Alexandre Tarantola
Aurelien Randi
  • Fonction : Auteur
Pascal Robert
  • Fonction : Auteur

Résumé

The P-V-X properties of two-component fluid inclusions (FIs) are generally determined from microthermometry data using appropriate thermodynamic models (i.e., VX diagrams) and/or equations of state (EoS). However, some limitations can hamper the applicability of this technique such as the small size, low density or complex composition of the analyzed FI. Raman spectroscopy is known as the best-suited alternative method to microthermometry for the investigation of natural FIs because it can provide simultaneously non-destructive qualitative and possible quantitative analyses after specific calibrations. The present work aims to provide calibration data to directly determine the P-V-X properties of binary or ternary mixtures of CH4, CO2, and N2. The variation of spectral features as a function of composition and pressure (or density) was investigated by using Raman spectroscopy coupled with an improved High-Pressure Optical Cell (HPOC) system and a customized heating-cooling stage. From our experimental data, the relative Raman scattering cross-section (RRSCS) of CH4 (νCH4∗) was demonstrated to be constant at 7.73 ± 0.16 over the investigated range of pressure (5–600 bars) and for any composition. This parameter can thus be used for the determination of composition with an uncertainty of ~0.5 mol%. Several calibration equations were calculated for different PX domains, linking the Fermi diad splitting of CO2 (Δ) or the relative variation of the CH4 peak position (νCH4∗) to the pressure (or density) and composition of CO2-CH4, CH4-N2, and CO2-N2-CH4 mixtures at 22 and 32 °C. The pressure and density of the fluids can henceforth be directly measured from Raman spectra with an uncertainty of ~20 bars and ~0.01 g·cm−3, respectively. Our calibration equations were then validated on natural FIs by comparing the results obtained from Raman and microthermometry. We also interpreted the variation of the peak position of CH4 based on the change of intermolecular interaction. Finally, we discussed the applicability of the obtained calibration data into another laboratory by comparing it with the data of pure CO2 and CH4 published in literature. A small shift between calibration curves implies a systematic error which is perhaps due to the difference in the configuration or the day-to-day deviation of the instruments. Therefore, standards of well-known P-V-X properties should be regularly measured to prevent and to correct any variation or shifting of the instrumental responses.
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hal-02904254 , version 1 (22-08-2022)

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Paternité - Pas d'utilisation commerciale

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Van-Hoan Le, Marie-Camille Caumon, Alexandre Tarantola, Aurelien Randi, Pascal Robert, et al.. Calibration data for simultaneous determination of P-V-X properties of binary and ternary CO2 - CH4 - N2 gas mixtures by Raman spectroscopy over 5–600 bar: Application to natural fluid inclusions. Chemical Geology, 2020, 552, pp.119783. ⟨10.1016/j.chemgeo.2020.119783⟩. ⟨hal-02904254⟩
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