- International Advanced Researches and Engineering Journal
- Vol: 2 Issue: 2
- An Artificial Neural Network Approach for the prediction of Water-Based Drilling Fluid Rheological B...
An Artificial Neural Network Approach for the prediction of Water-Based Drilling Fluid Rheological Behaviour
Authors : Emine Avcı
Pages : 124-131
View : 8 | Download : 4
Publication Date : 2018-08-15
Article Type : Research
Abstract :It is well known that high temperatures, which change the rheological properties of the drilling fluid and can frequently cause problems in deep wells, is a major problem during drilling. The importance of the estimation and control of the rheological parameters of the drilling fluid and the hydraulics of the well increases as the depth of the well drilled is being increased to explore new oil, gas or geothermal reserves. Since it is difficult to measure these parameters with standard field and laboratory viscometers, different conventional measurements and regression-analysis techniques are routinely used to approximate the true rheological parameters. In this study, water-based drilling fluid was initially prepared and rheological properties of the fluids were measured under elevated temperatures using high temperature rheometer (Fann Model 50 SL). Then, the shear stresses of drilling fluid are predicted using artificial neural network (ANN) method depending on the elevated temperature and shear rate. The results obtained from the high temperature rheometer and artificial neural network were compared with each other and analyzed. Consequently, it is observed that the artificial neural network could be used with good engineering accuracy to directly estimate the shear stress of drilling fluids without complex procedures. The testing process shows that the average percentage error was found to be approximately 2% for the prediction of shear stress values. Hence, rheological parameters of the drilling fluid could be determined quickly and controllability was facilitated using artificial neural network structure developed.Keywords : Artificial Neural Network, Drilling Fluids, Rheology, Temperature