Abstract:
Appropriate selection of rheological models is important for hydraulic calculations of pressure loss prediction and hole
cleaning efficiency of drilling fluids. Power law, Bingham-Plastic and Herschel-Bulkley models are the conventional fluid
models used in the oilfield. However, there are other models that have been proposed in literature which are under/or not
utilized in the petroleum industry. The primary objective of this paper is to recommend a rheological model that best-fits the
rheological behaviour of xanthan gum-based biopolymer drill-in fluids for hydraulic evaluations. Ten rheological models
were evaluated in this study. These rheological models have been posed deterministically and due to the unrealistic nature
have been replaced by statistical models, by adding an error (disturbance) term and making suitable assumptions about them.
Rheological model parameters were estimated by least-square regression method. Models like Sisko and modified Sisko
which are not conventional models in oil industry gave a good fit. Modified Sisko model which is a four parameter
rheological model was selected as the best-fit model since it produced the least residual mean square of 0.61 Ibf2
/100ft4
.
There is 95% certainty that the true best-fit curve lies within the confidence band of this function of interest.
