Experimental study on the influence of nanoparticles on oil-based drilling fluid properties

The cuttings transport efficiency of various drilling fluids has been studied in several approaches. This is an important aspect, since hole cleaning is often a bottleneck in well construction. The studies so far have targeted the drilling fluid cuttings’ transport capability through experiments, simulations or field data. Observed differences in the efficiency due to changes in the drilling fluid properties and compositions have been reported but not always fully understood. In this study, the cuttings bed, wetted with a single drilling fluid, was evaluated. The experiments were performed with parallel plates in an Anton Paar Physica 301 rheometer. The results showed systematic differences in the internal friction behaviors between tests of beds with oil-based and beds with water-based fluids. The observations indicated that cutting beds wetted with a polymeric water-based fluid released clusters of particles when external forces overcame the bonding forces and the beds started to break up. Similarly, it was observed that an oil-based fluid wetted bed allowed particles to break free as single particles. These findings may explain the observed differences in previous cutting transport studies.

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Real-Time Measurement of Drilling Fluid Rheological Properties: A Review

Sensors ◽

10.3390/s21113592 ◽

2021 ◽

Vol 21 (11) ◽

pp. 3592

Author(s):

Naipeng Liu ◽

Di Zhang ◽

Hui Gao ◽

Yule Hu ◽

Longchen Duan

Keyword(s):

Decision Making ◽

Rheological Properties ◽

Real Time ◽

Drilling Fluid ◽

Time Measurement ◽

Decision Making Process ◽

Rate Of Penetration ◽

The Real ◽

Real Time Measurement ◽

Fluid Properties

The accurate and frequent measurement of the drilling fluid’s rheological properties is essential for proper hydraulic management. It is also important for intelligent drilling, providing drilling fluid data to establish the optimization model of the rate of penetration. Appropriate drilling fluid properties can improve drilling efficiency and prevent accidents. However, the drilling fluid properties are mainly measured in the laboratory. This hinders the real-time optimization of drilling fluid performance and the decision-making process. If the drilling fluid’s properties cannot be detected and the decision-making process does not respond in time, the rate of penetration will slow, potentially causing accidents and serious economic losses. Therefore, it is important to measure the drilling fluid’s properties for drilling engineering in real time. This paper summarizes the real-time measurement methods for rheological properties. The main methods include the following four types: an online rotational Couette viscometer, pipe viscometer, mathematical and physical model or artificial intelligence model based on a Marsh funnel, and acoustic technology. This paper elaborates on the principle, advantages, limitations, and usage of each method. It prospects the real-time measurement of drilling fluid rheological properties and promotes the development of the real-time measurement of drilling rheological properties.

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Full Scale Flow Loop Experiments of Hole Cleaning Performances of Drilling Fluids

Volume 10: Petroleum Technology ◽

10.1115/omae2015-41901 ◽

2015 ◽

Cited By ~ 2

Author(s):

Jan David Ytrehus ◽

Ali Taghipour ◽

Sneha Sayindla ◽

Bjørnar Lund ◽

Benjamin Werner ◽

...

Keyword(s):

Test Section ◽

Drilling Fluid ◽

Drilling Fluids ◽

Flow Loop ◽

Base Oil ◽

Hole Cleaning ◽

Cleaning Performance ◽

Water Based ◽

Fluid Properties ◽

Drilling Cost

One important requirement for a drilling fluid is the ability to transport the cuttings out of the borehole. Improved hole cleaning is a key to solve several challenges in the drilling industry and will allow both longer wells and improved quality of well construction. It has been observed, however, that drilling fluids with similar properties according to the API standard can have significantly different behavior with respect to hole cleaning performance. The reasons for this are not fully understood. This paper presents results from flow loop laboratory tests without and with injected cuttings size particles using a base oil and a commercial oil based drilling fluid. The results demonstrate the importance of the rheological properties of the fluids for the hole cleaning performance. A thorough investigation of the viscoelastic properties of the fluids was performed with a Fann viscometer and a Paar-Physica rheometer, and was used to interpret the results from the flow loop experiments. Improved understanding of the fluid properties relevant to hole cleaning performance will help develop better models of wellbore hydraulics used in planning of well operations. Eventually this may lead to higher ROP with water based drilling fluids as obtained with oil based drilling fluids. This may ease cuttings handling in many operations and thereby significantly reduce the drilling cost using (normally) more environmentally friendly fluids. The experiments have been conducted as part of an industry-sponsored research project where understanding the hole cleaning performance of various oil and water based drilling fluids is the aim. The experiments have been performed under realistic conditions. The flow loop includes a 10 meter long test section with 2″ OD freely rotating drillstring inside a 4″ ID wellbore made of concrete. Sand particles were injected while circulating the drilling fluid through the test section in horizontal position.

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Impact on Oil-Based Drilling Fluid Properties from Gas Influx at HPHT Conditions

10.2118/178860-ms ◽

2016 ◽

Cited By ~ 4

Author(s):

Anja Torsvik ◽

Jan Ole Skogestad ◽

Harald Linga

Keyword(s):

Drilling Fluid ◽

Fluid Properties

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GEOLOGICAL AND TECHNICAL FEATURES OF BAZHENOV FORMATIONIN THE TERRITORY OF WESTERN SIBERIA FIELDS AND THE OPTIMIZATIONOF COMPLETION DRILLING FLUID PROPERTIES COUNTER FLOW IMBIBITION PROBLEM

Oil and Gas Studies ◽

10.31660/0445-0108-2018-3-54-63 ◽

2018 ◽

pp. 54-63 ◽

Cited By ~ 1

Author(s):

V. P. Ovchinnikov ◽

P. V. Ovchinnikov ◽

N. A. Aksenova ◽

D. S. Gerasimov ◽

O. V. Rozhkova ◽

...

Keyword(s):

Western Siberia ◽

Drilling Fluid ◽

Counter Flow ◽

Fluid Properties ◽

Technical Features

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Experimental study on microstructure and rheological behavior of organobentonite/oil-based drilling fluid

Journal of Molecular Liquids ◽

10.1016/j.molliq.2018.04.137 ◽

2018 ◽

Vol 263 ◽

pp. 147-157 ◽

Cited By ~ 17

Author(s):

Mohammad Ghavami ◽

Bashir Hasanzadeh ◽

Qian Zhao ◽

Sadra Javadi ◽

Daryoush Yousefi Kebria

Keyword(s):

Experimental Study ◽

Rheological Behavior ◽

Drilling Fluid

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Development of New Models to Determine the Rheological Parameters of Water-based Drilling Fluid Using Artificial Intelligence

10.2118/204597-ms ◽

2021 ◽

Author(s):

Farqad Hadi ◽

Ali Noori ◽

Hussein Hussein ◽

Ameer Khudhair

Keyword(s):

Rheological Properties ◽

High Performance ◽

Drilling Fluid ◽

Gel Strength ◽

Solid Content ◽

Rheological Parameters ◽

Water Based ◽

Fluid Properties ◽

Drilling Operations ◽

Marsh Funnel

Abstract It is well known that drilling fluid is a key parameter for optimizing drilling operations, cleaning the hole, and managing the rig hydraulics and margins of surge and swab pressures. Although the experimental works present valid and reliable results, they are expensive and time consuming. On the other hand, continuous and regular determination of the rheological mud properties can perform its essential functions during well construction. More uncertainties in planning the drilling fluid properties meant that more challenges may be exposed during drilling operations. This study presents two predictive techniques, multiple regression analysis (MRA) and artificial neural networks (ANNs), to determine the rheological properties of water-based drilling fluid based on other simple measurable properties. While mud density (MW), marsh funnel (MF), and solid% are key input parameters in this study, the output functions or models are plastic viscosity (PV), yield point (YP), apparent viscosity (AV), and gel strength. The prediction methods were demonstrated by means of a field case in eastern Iraq, using datasets from daily drilling reports of two wells in addition to the laboratory measurements. To test the performance ability of the developed models, two error-based metrics (determination coefficient R2 and root mean square error RMSE) have been used in this study. The current results of this study support the evidence that MW, MF, and solid% are consistent indexes for the prediction of rheological properties. Both mud density and solid content have a relative-significant effect on increasing PV, YP, AV, and gel strength. However, a scattering around each fit curve is observed which proved that one rheological property alone is not sufficient to estimate other properties. The results also reveal that both MRA and ANN are conservative in estimating the fluid rheological properties, but ANN is more precise than MRA. Eight empirical mathematical models with high performance capacity have been developed in this study to determine the rheological fluid properties based on simple and quick equipment as mud balance and marsh funnel. This study presents cost-effective models to determine the rheological fluid properties for future well planning in Iraqi oil fields.

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