Abstract
We explore some rheological aspects of the yielding of gelled waxy crude oil on the basis of a fractal model for the structural description of the waxy gel and Marrucci’s model for the time evolution of the stress with mixed elastic and viscous effects. With some parameters of the model directly obtained from classic rheometry, and others by fitting the parameters to the experimental data of one shear-rate condition, the flow curves for another shear-rate condition are predicted. Both theoretical curves—the fitting and the predicted ones—share the basic features of the experimental ones. Comparison with results of Maxwell model shows that Marrucci’s model used here leads to much better results, as it incorporates nonlinear viscoelasticity of waxy crude gels in the stress evolution equation. The strain dependence of the elastic modulus also plays a relevant role on the prediction of the model, suggesting a double-network contribution for very small strain values. Due to the inertia of rheometric device, the actual shear rate is often found to depart from the setting one, and modification of shear rate history can be necessary in model validation.
Highlights
The rheological behaviors of gelled waxy crude oils during yielding process is a very relevant problem for theoretical rheology, as it exhibits the consequences of drastic structural modifications at a microscopic level, leading the system from a solid-like behavior to a thixotropic fluid behavior
We have presented a simplified theoretical model for the yielding of a waxy crude oil by assuming the gel as a fractal structure
The predicted results of the model show a very close form in comparison with experimental curves. It gives a quantitative description of the isothermal nonlinear viscoelastic behavior of waxy crude gels formed under a given constant cooling rate, and may be used to estimate the minimum pressure and time needed to restart the flow after a period of shutdown
Summary
The rheological behaviors of gelled waxy crude oils during yielding process is a very relevant problem for theoretical rheology, as it exhibits the consequences of drastic structural modifications at a microscopic level, leading the system from a solid-like behavior to a thixotropic fluid behavior. It is very useful because it may help engineers make smart decisions on the operation strategies for pipelines. We aim to model this nonlinear viscoelastic behavior of waxy crude oil as the yielding of a fractal gel
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