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A Review of Rheological Modeling of Cement Slurry in Oil Well Applications

Chengcheng Tao, Barbara Kutchko, Eilis Rosenbaum, Mehrdad Massoudi

2020Energies117 citationsDOIOpen Access PDF

Abstract

The rheological behavior of cement slurries is important in trying to prevent and eliminate gas-migration related problems in oil well applications. In this paper, we review the constitutive modeling of cement slurries/pastes. Cement slurries, in general, behave as complex non-linear fluids with the possibility of exhibiting viscoelasticity, thixotropy, yield stress, shear-thinning effects, etc. The shear viscosity and the yield stress are two of the most important rheological characteristics of cement; these have been studied extensively and a review of these studies is provided in this paper. We discuss the importance of changing the concentration of cement particles, water-to-cement ratio, additives/admixtures, shear rate, temperature and pressure, mixing methods, and the thixotropic behavior of cement on the stress tensor. In the concluding remarks, we propose a new constitutive model for cement slurry, considering the basic non-Newtonian nature of the different models.

Topics & Concepts

ThixotropyRheologyCementMaterials scienceSlurryViscoelasticityShear rateShear thinningViscosityConstitutive equationComposite materialMixing (physics)Geotechnical engineeringGeologyEngineeringStructural engineeringFinite element methodPhysicsQuantum mechanicsDrilling and Well EngineeringInnovations in Concrete and Construction MaterialsGrouting, Rheology, and Soil Mechanics