A New Approach for the Prediction of Rate of Penetration (ROP) Values

Bilgesu, H.I.; Tetrick, L.T.; Altmis, U.; Mohaghegh, S.; Ameri, S.

doi:10.2118/39231-ms

Cited by 70 publications

(25 citation statements)

References 14 publications

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“…These factors were combined with Eq. (12) until an equation was obtained that matched the experimental data 3) . The resultant expression for ROP is:…”

Section: Warren Modelmentioning

confidence: 99%

Artificial Neural Network Model for Prediction of Drilling Rate of Penetration and Optimization of Parameters

Bataee

Irawan

Kamyab

2014

J. Jpn. Petrol. Inst.

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According to field data, there are several methods to reduce the drilling cost of new wells. One of these methods is the optimization of drilling parameters to obtain the maximum available rate of penetration (ROP). There are too many parameters affecting on ROP like hole cleaning (including drillstring rotation speed (N), mud rheology, weight on bit (WOB) and floundering phenomena), bit tooth wear, formation hardness (including depth and type of formation), differential pressure (including mud weight) and etc. Therefore, developing a logical relationship among them to assist in proper ROP selection is extremely necessary and complicated though. In such a case, Artificial Neural Networks (ANNs) is proven to be helpful in recognizing complex connections between these variables. In literature, there were various applicable models to predict ROP such as Bourgoyne and Young's model, Bingham model and the modified Warren model. It is desired to calculate and predict the proper model of ROP by using the above models and then verify the validity of each by comparing with the field data. To optimize the drilling parameters, it is required that an appropriate ROP model to be selected until the acceptable results are obtained. An optimization program will optimize the drilling parameters which can be used in future works and also leads us to more accurate time estimation. The present study is optimizing the drilling parameters, predicting the proper penetration rate, estimating the drilling time of the well and eventually reducing the drilling cost for future wells.

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“…These factors were combined with Eq. (12) until an equation was obtained that matched the experimental data 3) . The resultant expression for ROP is:…”

Section: Warren Modelmentioning

confidence: 99%

Artificial Neural Network Model for Prediction of Drilling Rate of Penetration and Optimization of Parameters

Bataee

Irawan

Kamyab

2014

J. Jpn. Petrol. Inst.

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“…Neural networks have been successfully used in different fields due to their capability to identify complex relationships when sufficient data exist (Bilgesu et al, 1997). These networks have ability to learn and identify relations between input patterns and output(s).…”

Section: Artificial Neural Networkmentioning

confidence: 99%

“…Proper drill utilization is always associated with the cost of excavation as well as overall cost of the project (Singh et al, 2009). Today applications of drilling require proper identification of operations where a cost reduction is possible (Bilgesu et al, 1997). It is well known that penetration rate is the most important performance parameter for drilling performance optimization.…”

Section: Introductionmentioning

confidence: 99%

Prediction of penetration rate of rotary-percussive drilling using artificial neural networks – a case study / Prognozowanie postępu wiercenia przy użyciu wiertła udarowo-obrotowego przy wykorzystaniu sztucznych sieci neuronowych – studium przypadku

Aalizad

Rashidinejad

2012

Archives of Mining Sciences

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Penetration rate in rocks is one of the most important parameters of determination of drilling economics. Total drilling costs can be determined by predicting the penetration rate and utilized for mine planning. The factors which affect penetration rate are exceedingly numerous and certainly are not completely understood. For the prediction of penetration rate in rotary-percussive drilling, four types of rocks in Sangan mine have been chosen. Sangan is situated in Khorasan-Razavi province in Northeastern Iran. The selected parameters affect penetration rate is divided in three categories: rock properties, drilling condition and drilling pattern. The rock properties are: density, rock quality designation (RQD), uni-axial compressive strength, Brazilian tensile strength, porosity, Mohs hardness, Young modulus, P-wave velocity. Drilling condition parameters are: percussion, rotation, feed (thrust load) and flushing pressure; and parameters for drilling pattern are: blasthole diameter and length. Rock properties were determined in the laboratory, and drilling condition and drilling pattern were determined in the field. For create a correlation between penetration rate and rock properties, drilling condition and drilling pattern, artificial neural networks (ANN) were used. For this purpose, 102 blastholes were observed and drilling condition, drilling pattern and time of drilling in each blasthole were recorded. To obtain a correlation between this data and prediction of penetration rate, MATLAB software was used. To train the pattern of ANN, 77 data has been used and 25 of them found for testing the pattern. Performance of ANN models was assessed through the root mean square error (RMSE) and correlation coefficient (R 2 ). For optimized model (14-14-10-1) RMSE and R 2 is 0.1865 and 86%, respectively, and its sensitivity analysis showed that there is a strong correlation between penetration rate and RQD, rotation and blasthole diameter. High correlation coefficient and low root mean square error of these models showed that the ANN is a suitable tool for penetration rate prediction.Keywords: Penetration rate, Rotary-percussive drilling, Artificial neural networks, Top hammer drilling, Sangan iron mine Postęp wiercenia przy wierceniach skał jest jednym z podstawowych parametrów decydujących o opłacalności przedsięwzięcia. Całkowite koszty prowadzenia prac wiertniczych określa się w oparciu

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“…Lots of experimental work has been done to study the effect of these variables on drilling rate. These factors that affect the rate of penetration are: Bit type, weight on bit (WOB), rotary speed (N), drilling fluid properties, bit hydraulics and formation properties [1] .…”

Section: Introductionmentioning

confidence: 99%

Investigation of Various ROP Models and Optimization of Drilling Parameters for PDC and Roller-cone Bits in Shadegan Oil Field

Bataee

Kamyab

Ashena

2010

Proceedings of International Oil and Gas Conference and Exhibition in China

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According to the field data, there are several methods to reduce the drilling cost of future wells. One of these methods is the optimization of drilling parameters to obtain the maximum rate of penetration (ROP) in each bit run. Many parameters affect ROP like hole cleaning (including drillstring rotation speed (N), weight on bit (WOB), floundering phenomena, mud rheology), tooth wear, formation hardness (including depth and kind of formation), differential pressure (including mud weight (MW)), etc. Considering the geology and rock mechanical parameters, each part of well has different recommended parameters from the other parts. To optimize the drilling parameters, it is required that an appropriate ROP model to be selected until acceptable results are obtained. In literature, there are various applicable models to predict the ROP such as Bourgoyne and Young model, Bingham model and modified Warren model. It is desired to calculate and predict the proper model of ROP for roller-cone and PDC bits in each well by using the mentioned models and then verify the validity of each model by comparing with field data. Analyzing the drilling parameters by computer optimizationyields recommended range of parameters for each bit. The applications of present study are predicting the proper penetration rate, optimizing the drilling parameters, estimating the drilling time of well and eventually reducing the drilling cost for future wells.

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A New Approach for the Prediction of Rate of Penetration (ROP) Values

Cited by 70 publications

References 14 publications

Artificial Neural Network Model for Prediction of Drilling Rate of Penetration and Optimization of Parameters

Artificial Neural Network Model for Prediction of Drilling Rate of Penetration and Optimization of Parameters

Prediction of penetration rate of rotary-percussive drilling using artificial neural networks – a case study / Prognozowanie postępu wiercenia przy użyciu wiertła udarowo-obrotowego przy wykorzystaniu sztucznych sieci neuronowych – studium przypadku

Investigation of Various ROP Models and Optimization of Drilling Parameters for PDC and Roller-cone Bits in Shadegan Oil Field

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