TY - EJOU
AU - Liu, Boyu
AU - Yao, Jun
AU - Sun, Hai
TI - Numerical Simulation of Proppant Migration in the Non-Uniform Temperature Field during Supercritical CO2 Fracturing
T2 - The International Conference on Computational \& Experimental Engineering and Sciences
PY - 2024
VL - 29
IS - 1
SN - 1933-2815
AB - The temperature gradient between the geological formation and the injected supercritical CO2 (Sc-CO2) initiates heat transfer processes, leading to a non-uniform temperature field within the fracture. This spatial thermal variation induces fluctuations in the density and viscosity of Sc-CO2. Moreover, the non-uniform density distribution of Sc-CO2 leads to varying degrees of volume expansion or shrinkage, influencing fluid flow velocities within the fractures. This study integrates heat transfer and fluid leak-off models into the Eulerian-Eulerian two-fluid framework to systematically investigate the collective impacts of Sc-CO2's density, viscosity, and density-induced volumetric alterations on the proppant transport process under varied pumping conditions. The initial sensitivity analysis discerned that fluid viscosity, density, and velocity significantly influenced the formation of the proppant pack, a process intricately linked to the non-uniform temperature distribution within the fracture. The fracture's temperature profile was delineated into four distinct zones, with Zone B emerging as particularly influential on proppant migration due to pronounced temperature fluctuations resulting from ongoing heat transfer processes. Furthermore, the findings underscored the complex interplay between Sc-CO2's volumetric expansion/shrinkage and its concurrent density and viscosity alterations. The predominance of either effect and the direction of their impact hinged upon specific pumping conditions. In summary, increased formation pressure, higher formation temperature, and lower injection temperature resulted in an extended proppant pack. The proposed coupled model offers valuable insights for the design and optimization of Sc-CO2 fracturing operations.
KW - Heat transfer; compressible fluid; CO2 utilization; hydraulic fracturing
DO - 10.32604/icces.2024.011600