Doctoral Degree
Dalian University of Technology
Gender:Female
Business Address:Room No.609,School of Energy and Power Engineering
E-Mail:lanlan@dlut.edu.cn
Indexed by:Journal Papers
Date of Publication:2020-01-01
Journal:JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING
Included Journals:EI、SCIE
Volume:73
ISSN No.:1875-5100
Key Words:Enhanced gas recovery; CO2-CH4; Dispersion; Reservoir conditions
Abstract:In this study, experimental investigation of gas dispersion in a broader temperature and pressure range were performed in both horizontal and vertical orientations. Three types of glass sand with different particle sizes were used in experiments at temperatures 60-150 degrees C and pressures 10-30 MPa. The effects of temperature, pressure, injection flow rate, gravity, and sand particle size on the dispersion under reservoir conditions were studied in detail. The results indicate that dispersion was considerably affected by temperature in the studied range. High injection flow rates also resulted in larger dispersion coefficients and early breakthrough behavior. In supercritical region, the effects of pressure on dispersion in horizontal and vertical orientations were completely opposite in the presence of gravity, with the horizontal dispersion coefficients being much higher than the vertical ones. In addition, dispersion coefficients exhibited weak dependence on the particle size in the unconsolidated cores at low interstitial velocity.