Modelling rate of penetration in drilling operations using RBF, MLP, LSSVM, and DT models

Riazi, M.R.; Mehrjoo, Hossein; Nakhaei, Reza; Jalalifar, Hossein; Shateri, Mohammadhadi; Riazi, Masoud; Ostadhassan, Mehdi; Hemmati-Sarapardeh, Abdolhossein

doi:10.1038/s41598-022-14710-z

Cited by 15 publications

(3 citation statements)

References 54 publications

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“…Previous research [19,27,32] has provided explanations for the effective review of the solid-liquid exchange coefficient, K sl . When the volume percentage of the liquid phase, a l > 0.8, then, K sl , is transformed from Equations ( 6)- (9). The current study does not, however, predict that the fluid will flow in a uniform laminar flow due to the rotating drill pipe and the release of drilling fluids [33] from the bit's nozzles to improve rate of penetration.…”

Section: General Equationsmentioning

confidence: 74%

“…Interestingly, the cost-time index of drill operations is meant for drill managers operators to determine and devise magnificent means of optimizing cost and tim The impact of bit design elements might be comprehended and used to enhance bit hydraulics with the aid of computational methodologies. A computational technique [9][10][11][12][13] called computational fluid dynamics (CFD) is useful for modeling fluid flow phenomena in drill bit designs with complex geometries that involve bit rotation and multi-phase conditions downhole of the well. Through the application of CFD to improve drill bit design, drilling performance can be boosted.…”

Section: Introductionmentioning

confidence: 99%

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Modelling and Simulating Eulerian Venturi Effect of SBM to Increase the Rate of Penetration with Roller Cone Drilling Bit

et al. 2023

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Drilling bits are essential downhole hardware that facilitates drilling operations in high-pressure, high-temperature regions and in most carbonate reservoirs in the world. While the drilling process can be optimized, drilling operators and engineers become curious about how drill bits react during rock breaking and penetration. Since it is experimentally expensive to determine, the goal of the study is to maximize the rate of penetration by modeling fluid interactions around the roller cone drilling bit (RCDB), specifying a suitable number of jet nozzles and venturi effects for non-Newtonian fluids (synthetic-based muds), and examining the effects of mud particles and drill cuttings. Ansys Fluent k-epsilon turbulence viscous model, a second order upwind for momentum, turbulent kinetic energy, and dissipation rate, were used to model the specified 1000 kg/m3 non-Newtonian fluid around the roller cone drill bit. The original geometry of the nozzles was adapted from a Chinese manufacturer whose tricone had three jet nozzles. The results of our six redesigned jet nozzles (3 outer, 39.12 mm, and 3 proximal, 20 mm) sought to offer maximum potential for drilling optimization. However, at a pressure of 9.39 × 104 Pa, the wellbore with particle sizes between 0.10 mm and 4.2 mm drill cuttings observed an improved rate of penetration with a rotation speed of 150 r/min.

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Section: General Equationsmentioning

confidence: 74%

Section: Introductionmentioning

confidence: 99%

Modelling and Simulating Eulerian Venturi Effect of SBM to Increase the Rate of Penetration with Roller Cone Drilling Bit

et al. 2023

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“…Mendes 12 also presented a methodology based on a neural network model for ROP and a neuro-genetic adaptive controller to address the problem that relationships between operational variables affecting ROP are complex and not easily modeled. In addition, with the boom in ML algorithms approximately 2010, more and more ML methods are being used for ROP prediction, including Moran 13 , Arabjamaloei 14 , Esmaeili 15 , Ning 16 , Zare 17 , Bodaghi 18 , Hegde 19 , Mantha 20 , Hegde 21 , Anemangely 22 , Soares 7 , Sabah 23 , Felipe 2 , Korhan 24 , Li 25 , Mohammad 26 , Gan 27 , Hazbeh 28 , Salaheldin 29 , Zhang 30 , Ren 31 , Zhang 32 , Brenjkar 33 , Riazi 34 , Song 35 , Wang 36 , Mohammad 37 , Kaveh 38 and so on. Judging from the increasing number of articles published each year in recent years on the use of machine learning for ROP prediction, it can be amply demonstrated that ML methods are well suited for application in the field of ROP prediction.…”

Section: Introductionmentioning

confidence: 99%

Hybrid physics-machine learning models for predicting rate of penetration in the Halahatang oil field, Tarim Basin

Jiao,

Li,

et al. 2024

Sci Rep

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Rate of penetration (ROP) is a key factor in drilling optimization, cost reduction and drilling cycle shortening. Due to the systematicity, complexity and uncertainty of drilling operations, however, it has always been a problem to establish a highly accurate and interpretable ROP prediction model to guide and optimize drilling operations. To solve this problem in the Tarim Basin, this study proposes four categories of hybrid physics-machine learning (ML) methods for modeling. One of which is residual modeling, in which an ML model learns to predict errors or residuals, via a physical model; the second is integrated coupling, in which the output of the physical model is used as an input to the ML model; the third is simple average, in which predictions from both the physical model and the ML model are combined; and the last is bootstrap aggregating (bagging), which follows the idea of ensemble learning to combine different physical models’ advantages. A total of 5655 real data points from the Halahatang oil field were used to test the performance of the various models. The results showed that the residual modeling model, with an R2 of 0.9936, had the best performance, followed by the simple average model and bagging with R2 values of 0.9394 and 0.5998, respectively. From the view of prediction accuracy, and model interpretability, the hybrid physics-ML model with residual modeling is the optimal method for ROP prediction.

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Enhancing Rock Drilling Efficiency: A Comparative Analysis of DRI Estimation Models Using the RES Approach

Fattahi,

Ghaedi

2023

Indian Geotech J

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Modelling rate of penetration in drilling operations using RBF, MLP, LSSVM, and DT models

Cited by 15 publications

References 54 publications

Modelling and Simulating Eulerian Venturi Effect of SBM to Increase the Rate of Penetration with Roller Cone Drilling Bit

Modelling and Simulating Eulerian Venturi Effect of SBM to Increase the Rate of Penetration with Roller Cone Drilling Bit

Hybrid physics-machine learning models for predicting rate of penetration in the Halahatang oil field, Tarim Basin

Enhancing Rock Drilling Efficiency: A Comparative Analysis of DRI Estimation Models Using the RES Approach

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