Experimental study on rheological and settling properties of shape memory polymer for fracture sealing in geothermal formations

This paper studies the rheology and annular flow of a smart lost circulation material (LCM) at 160 degrees C, using a high-temperature flow loop. The smart LCM is a shape memory polymer (SMP) that activates at high temperatures, and its particle size increases to seal fractures in geothermal formations. SMP was mixed with the base fluid in two different concentrations, 1.0 and 3.0 wt%, to study rheology, wellbore hydraulics, activation process, and settling behavior under different testing conditions. The results of this study showed that the SMP could be activated at high temperatures. An increase of 80-100% in the particle size was observed at 160 degrees C. The mud samples showed a high shear-thinning behavior at the two concentrations with a Power-law flow index (n) ranging between 0.025 and 0.101. No additional frictional pressure losses were observed when SMP was added to the base fluid. SMP particles showed an excellent suspension at 1.0 wt% while, at 3.0 wt%, a bed was formed at a low flow rate and without pipe rotation. Increasing the drill pipe rotational speed or flow rate effectively removed the bed and homogeneously dispersed the SMP particles, ensuring a better sealing efficiency. SMP particle dispersion in inclined wells was better than in horizontal wells. Moreover, the findings of this study help optimize the lost circulation treatment by considering a wide range of operating parameters that can further be extended to different systems and geometries.

Automated summary

This study investigated the rheology and annular flow of a smart lost circulation material (LCM) at 160 degrees C, by adding different concentrations of SMP particles to the base fluid. The SMP was found to be activated at high temperatures, increasing particle size for better sealing efficiency. The results show high shear-thinning behavior and excellent suspension at 1.0 wt% concentration, with potential applications for optimizing lost circulation treatment in various systems and geometries.