Abstract
Paraffin deposition under single-phase flow conditions was investigated to determine its dependence on shear stripping, deposit aging, flow regime, temperature gradient and fluid properties.
In this study, a new model for the prediction of singlephase wax deposition has been developed. Most of the models previously used assume that equilibrium exists at the deposit-fluid interface. A kinetic resistance of the fluid is considered in the new model. Therefore, the interfacial wax concentration might be different from the equilibrium wax concentration. The model also includes continuous diffusion of wax into the deposit. We believe that this enrichment of the deposit is responsible for the increasing hardness of the deposit with time, a process known as aging. The effect of shear stripping may also be incorporated in the prediction.
The model predictions are compared with predictions from previous models, as well as with experimental data gathered at the Tulsa University Paraffin Deposition Projects with two different oils: a black oil and a condensate. Even though some tuning is required for each oil, the new model is based on physical phenomena, reducing the empiricism of previous models.
