Energy Science & Engineering (May 2024)

Experimental study on the dissolution characteristics of ethane into oil‐based mud in complex oil and gas wellbore environments

  • Song Xuncheng,
  • Liu Yongwang,
  • Huang Hongqiang,
  • Lin Guojun,
  • Sukari Bernard Francis,
  • Cai Jun,
  • Wang Lei,
  • Jiang Zhiqiang

DOI
https://doi.org/10.1002/ese3.1718
Journal volume & issue
Vol. 12, no. 5
pp. 1870 – 1887

Abstract

Read online

Abstract Accurately determining the solubility of ethane in oil‐based mud is crucial for assessing the severity of gas kicks and implementing appropriate well control procedures. The key factors influencing the solubility of ethane gas in oil‐based drilling fluids include the content of base oil, pressure, temperature, and the viscosity of the drilling fluid. This study aims to test the solubility of high‐purity ethane in oil‐based mud under simulated downhole conditions in a 5000 m deep well. The test covers a temperature range of 40–140°C and a partial pressure range of 0.17–5.92 MPa. The effects of temperature, pressure, base oil content, and drilling fluid viscosity on the solubility of ethane are analyzed using various experimental data processing methods. The results show that the variation in ethane solubility with pressure and temperature is nearly linear within the specified ranges. Furthermore, the impact of pressure (1.24–2.78%/MPa) on solubility is approximately 50 times greater than that of temperature (−0.013 to −0.049%/°C) in oil‐based drilling mud. Additionally, ethane's solubility decreases as the drilling fluid's viscosity increases. The ethane solubility in 80% and 90% oil‐based muds is roughly 1.6 times and 2.0 times higher than in 70% oil‐based mud under the same testing conditions. Models for predicting ethane solubility have been developed using screening procedures and statistical regression. These models can be incorporated into gas–liquid flow models to analyze flow behavior during gas kicks.

Keywords