ebooks, audiobooks, and more for reads
Download A Primer For Deterministic And Stochastic Drill String Vibration Analyses full books in PDF, epub, and Kindle. Read online A Primer For Deterministic And Stochastic Drill String Vibration Analyses ebook anywhere anytime directly on your device. Fast Download speed and no annoying ads. We cannot guarantee that every ebooks is available!
Author: Pol D. Spanos
Publisher:
Published: 2005
Total Pages: 250
ISBN-13: 9780387251585
DOWNLOAD EBOOKDownload or read book A Primer for Deterministic and Stochastic Drill-String Vibration Analyses written by Pol D. Spanos and published by . This book was released on 2005 with total page 250 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author: Mark Iosifovich Freĭdlin
Publisher: Springer
Published: 1992
Total Pages: 260
ISBN-13:
DOWNLOAD EBOOKThis is the first book dedicated to oil well drilling vibrations. The objectives are to provide an exposition to important concepts in drilling and drilling dynamics, and to describe both deterministic and probabilistic solution techniques that may be used to gain insight in downhole vibrations. These considerations are addressed based on a collection of drilling technical publications; an exhaustive literature review. Appendices include a detailed description of the mode superposition method, and a technique to generate trivariate random processes with digital filters.
Download or read book A Primer for Deterministic and Stochastic Drill-String Vibration Analyses written by Mark Iosifovich Freĭdlin and published by Springer. This book was released on 1992 with total page 260 pages. Available in PDF, EPUB and Kindle. Book excerpt: This is the first book dedicated to oil well drilling vibrations. The objectives are to provide an exposition to important concepts in drilling and drilling dynamics, and to describe both deterministic and probabilistic solution techniques that may be used to gain insight in downhole vibrations. These considerations are addressed based on a collection of drilling technical publications; an exhaustive literature review. Appendices include a detailed description of the mode superposition method, and a technique to generate trivariate random processes with digital filters.
Author: Hongyuan Qiu
Publisher:
Published: 2014
Total Pages:
ISBN-13:
DOWNLOAD EBOOKDrill-strings are slender structures used to dig into the rock in search of oil and gas. Failures of drill-strings are time and money consuming and therefore the dynamics of drill-strings must be investigated and carefully controlled. In the thesis, a dynamic model of the drill-string that is suitable for predicting axial, torsional and lateral vibrations is built using Euler-Bernoulli beam theory. The drillstring is driven by a DC motor on the top and is subjected to distributed loads due to its own weight as well as bit/formation interaction. The model is axial-torsional, lateral-torsional coupled. Under deterministic excitations, the model captures stickslip behavior in drilling operation. Analysis on its negative effect on drilling performance is made, and potential mitigation measures are also discussed. In random model, the excitations to the drill-bit are modeled as combination of deterministic and random components. Monte Carlo (MC) simulation is employed to obtain the statistics of the response. Two cases of random excitation with different intensities are investigated. The results from MC simulation are compared against that from deterministic case. Secondly, the thesis focuses on the drill-string torsional vibration and its stick-slip analysis. A finite element model of the drillstring with inclusion of both deterministic and random excitations is also developed. Simulation is carried out under certain parameters and it is shown that in deterministic case the torsional vibration may behave stick-slip. With change of some parameters, bifurcation and chaos of the system are observed. In the random case, Monte Carlo simulation and path integration method are used to capture the probabilistic information of the response. The results of path integration match well to those of deterministic cases. Although there are some limitations, this thesis will help the author better understand drill-string downhole behaviors and lay a foundation for further research work.
Download or read book Dynamic Analysis of a Drill-string Under Deterministic and Random Excitations written by Hongyuan Qiu and published by . This book was released on 2014 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Drill-strings are slender structures used to dig into the rock in search of oil and gas. Failures of drill-strings are time and money consuming and therefore the dynamics of drill-strings must be investigated and carefully controlled. In the thesis, a dynamic model of the drill-string that is suitable for predicting axial, torsional and lateral vibrations is built using Euler-Bernoulli beam theory. The drillstring is driven by a DC motor on the top and is subjected to distributed loads due to its own weight as well as bit/formation interaction. The model is axial-torsional, lateral-torsional coupled. Under deterministic excitations, the model captures stickslip behavior in drilling operation. Analysis on its negative effect on drilling performance is made, and potential mitigation measures are also discussed. In random model, the excitations to the drill-bit are modeled as combination of deterministic and random components. Monte Carlo (MC) simulation is employed to obtain the statistics of the response. Two cases of random excitation with different intensities are investigated. The results from MC simulation are compared against that from deterministic case. Secondly, the thesis focuses on the drill-string torsional vibration and its stick-slip analysis. A finite element model of the drillstring with inclusion of both deterministic and random excitations is also developed. Simulation is carried out under certain parameters and it is shown that in deterministic case the torsional vibration may behave stick-slip. With change of some parameters, bifurcation and chaos of the system are observed. In the random case, Monte Carlo simulation and path integration method are used to capture the probabilistic information of the response. The results of path integration match well to those of deterministic cases. Although there are some limitations, this thesis will help the author better understand drill-string downhole behaviors and lay a foundation for further research work.
Author: Jiahao Zheng
Publisher:
Published: 2015
Total Pages:
ISBN-13:
DOWNLOAD EBOOKDrill-strings are slender structures used to drill the oil-well in searching for oil and gas. Failures of drill-strings cause the loss of time and money and therefore predicting fatigue damage induced by vibrations is of benefit. In this thesis, fatigue calculation of drill-strings is conducted in both time domain and frequency domain, considering axial and torsional vibrations. In time domain analysis, the stress time histories at any specific location of the drillstring are obtained from a finite element model. Both deterministic and random excitations are taken into account. Then using a rainflow counting method, the damaging stress cycles are extracted. Based on the linear cumulative damage law, fatigue damage is then calculated and fatigue life of the drill-string is therefore predicted. Results under both deterministic and random excitations are compared against each other. Time domain fatigue analysis gives accurate predictions at the cost of long calculating time. For the sake of time-saving, a method in frequency domain is developed. The drill-string vibration model is built using continuous parameter method. Power spectral densities (PSD) of the random excitation are assumed. In the process to gain expected damage, equivalent stress spectra are calculated based on Mocha's random fatigue failure criterion. Then the expected fatigue damage and predicted life are estimated by a spectral method: Dirlik's method. Further, the drill-pipe threaded connection, which is used to connect numerous drillpipes collars to form a drill-string, is investigated. With the help of ANSYS workbench 15.0, a standard 4.5" API line pipe threaded connection model is built. Random excitation is considered mainly due to the unevenness of rock formation being drilled. Firstly, a static stress analysis is conducted considering "make-up" and "tensile load" steps. Then modal analysis and random vibration analysis are conducted, assuming acceleration PSD as input. Finally, based on three-band technique, the fatigue damage is calculated. Computer simulations are run and results are given by the above three fatigue damage calculation methods. Results show the critical positions of both the drill-string and the threaded connection, where attention should be paid to by the manufacturers and the drilling operators. Although some limitations exist, this thesis proposed two ways to evaluate fatigue damage of a drill-string. The threaded pipe connection, which is a complex structure, is also analyzed. Further research work will aim at the validation of the simulations.
Download or read book Fatigue Estimation of Drill-string and Drill-pipe Threaded Connection Subjected to Random Loadings written by Jiahao Zheng and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Drill-strings are slender structures used to drill the oil-well in searching for oil and gas. Failures of drill-strings cause the loss of time and money and therefore predicting fatigue damage induced by vibrations is of benefit. In this thesis, fatigue calculation of drill-strings is conducted in both time domain and frequency domain, considering axial and torsional vibrations. In time domain analysis, the stress time histories at any specific location of the drillstring are obtained from a finite element model. Both deterministic and random excitations are taken into account. Then using a rainflow counting method, the damaging stress cycles are extracted. Based on the linear cumulative damage law, fatigue damage is then calculated and fatigue life of the drill-string is therefore predicted. Results under both deterministic and random excitations are compared against each other. Time domain fatigue analysis gives accurate predictions at the cost of long calculating time. For the sake of time-saving, a method in frequency domain is developed. The drill-string vibration model is built using continuous parameter method. Power spectral densities (PSD) of the random excitation are assumed. In the process to gain expected damage, equivalent stress spectra are calculated based on Mocha's random fatigue failure criterion. Then the expected fatigue damage and predicted life are estimated by a spectral method: Dirlik's method. Further, the drill-pipe threaded connection, which is used to connect numerous drillpipes collars to form a drill-string, is investigated. With the help of ANSYS workbench 15.0, a standard 4.5" API line pipe threaded connection model is built. Random excitation is considered mainly due to the unevenness of rock formation being drilled. Firstly, a static stress analysis is conducted considering "make-up" and "tensile load" steps. Then modal analysis and random vibration analysis are conducted, assuming acceleration PSD as input. Finally, based on three-band technique, the fatigue damage is calculated. Computer simulations are run and results are given by the above three fatigue damage calculation methods. Results show the critical positions of both the drill-string and the threaded connection, where attention should be paid to by the manufacturers and the drilling operators. Although some limitations exist, this thesis proposed two ways to evaluate fatigue damage of a drill-string. The threaded pipe connection, which is a complex structure, is also analyzed. Further research work will aim at the validation of the simulations.
Download or read book The Shock and Vibration Digest written by and published by . This book was released on 2003 with total page 584 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author: Tianheng Feng
Publisher:
Published: 2019
Total Pages: 318
ISBN-13:
DOWNLOAD EBOOKDrill-string vibrations could cause fatigue failure to downhole tools, bring damage to the wellbore, and decrease drilling efficiency; therefore, it is important to understand the drill-string dynamics through accurately modeling of the drill-string and bottom-hole assembly (BHA) dynamics, and then develop controllers to suppress the vibrations. Modeling drill-string dynamics for directional drilling operation is highly challenging because the drill-string and BHA bend with large curvatures. In addition, the interaction between the drill-string and wellbore wall could occur along the entire well. This fact complicates the boundary condition of modeling of drill-string dynamics. This dissertation presents a finite element method (FEM) model to characterize the dynamics of a directional drill-string. Based on the principle of virtual work, the developed method linearizes the drill-string dynamics around the central axis of a directional well, which significantly reduced the computational cost. In addition, a six DOF curved beam element is derived to model a curved drill-string. It achieves higher accuracy than the widely used straight beam element in both static and dynamic analyses. As a result, fewer curved beam elements are used to achieve the same accuracy, which further reduces the computational cost. During this research, a comprehensive drill-string and wellbore interaction model is developed as the boundary condition to simulate realistic drilling scenarios. Both static and dynamic analyses are carried out using the developed modeling framework. The static simulation can generate drill-string internal force as well as the drilling torque and drag force. The dynamic simulation can provide an insight of the underlying mechanism of drilling vibrations. Top drive controllers are also incorporated as torsional boundary conditions. The guidelines for tuning the control parameters are obtained from dynamic simulations. Drill-string vibrations can be suppressed through BHA configuration optimization. Based on the developed modeling framework, the BHA dynamic performance is evaluated using vibration indices. With an objective to minimize these indices, a genetic algorithm is developed to optimize the BHA stabilizer location for vibration suppression. After optimization, the BHA strain energy and the stabilizer side force, two of the vibration indices, are significantly reduced compared to the original design, which proves the BHA optimization method can lead to a significant reduction of undesirable drilling dynamics. At the end of this dissertation, reduced order models are also discussed for fast simulation and control design for real time operation
Download or read book Modeling and Control of Drillstring Dynamics for Vibration Suppression written by Tianheng Feng and published by . This book was released on 2019 with total page 318 pages. Available in PDF, EPUB and Kindle. Book excerpt: Drill-string vibrations could cause fatigue failure to downhole tools, bring damage to the wellbore, and decrease drilling efficiency; therefore, it is important to understand the drill-string dynamics through accurately modeling of the drill-string and bottom-hole assembly (BHA) dynamics, and then develop controllers to suppress the vibrations. Modeling drill-string dynamics for directional drilling operation is highly challenging because the drill-string and BHA bend with large curvatures. In addition, the interaction between the drill-string and wellbore wall could occur along the entire well. This fact complicates the boundary condition of modeling of drill-string dynamics. This dissertation presents a finite element method (FEM) model to characterize the dynamics of a directional drill-string. Based on the principle of virtual work, the developed method linearizes the drill-string dynamics around the central axis of a directional well, which significantly reduced the computational cost. In addition, a six DOF curved beam element is derived to model a curved drill-string. It achieves higher accuracy than the widely used straight beam element in both static and dynamic analyses. As a result, fewer curved beam elements are used to achieve the same accuracy, which further reduces the computational cost. During this research, a comprehensive drill-string and wellbore interaction model is developed as the boundary condition to simulate realistic drilling scenarios. Both static and dynamic analyses are carried out using the developed modeling framework. The static simulation can generate drill-string internal force as well as the drilling torque and drag force. The dynamic simulation can provide an insight of the underlying mechanism of drilling vibrations. Top drive controllers are also incorporated as torsional boundary conditions. The guidelines for tuning the control parameters are obtained from dynamic simulations. Drill-string vibrations can be suppressed through BHA configuration optimization. Based on the developed modeling framework, the BHA dynamic performance is evaluated using vibration indices. With an objective to minimize these indices, a genetic algorithm is developed to optimize the BHA stabilizer location for vibration suppression. After optimization, the BHA strain energy and the stabilizer side force, two of the vibration indices, are significantly reduced compared to the original design, which proves the BHA optimization method can lead to a significant reduction of undesirable drilling dynamics. At the end of this dissertation, reduced order models are also discussed for fast simulation and control design for real time operation
Download or read book Drill String Axial Vibration and Sonic Head Analysis written by Kambiz Emtehani Jahromi and published by . This book was released on 2012 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author: Loren D. Lutes
Publisher:
Published: 1997
Total Pages: 509
ISBN-13: 9780136218890
DOWNLOAD EBOOKDownload or read book Stochastic Analysis of Structural and Mechanical Vibrations written by Loren D. Lutes and published by . This book was released on 1997 with total page 509 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author: Clayton V. Deutsch
Publisher: Oxford University Press, USA
Published: 1998
Total Pages: 369
ISBN-13: 9780195100150
DOWNLOAD EBOOKThis successful text has been extensively revised to cover new algorithms and applications.
Download or read book GSLIB written by Clayton V. Deutsch and published by Oxford University Press, USA. This book was released on 1998 with total page 369 pages. Available in PDF, EPUB and Kindle. Book excerpt: This successful text has been extensively revised to cover new algorithms and applications.
Author: Peter F. Pelz
Publisher: Springer Nature
Published: 2021-10-11
Total Pages: 483
ISBN-13: 3030783545
DOWNLOAD EBOOKThis open access book reports on innovative methods, technologies and strategies for mastering uncertainty in technical systems. Despite the fact that current research on uncertainty is mainly focusing on uncertainty quantification and analysis, this book gives emphasis to innovative ways to master uncertainty in engineering design, production and product usage alike. It gathers authoritative contributions by more than 30 scientists reporting on years of research in the areas of engineering, applied mathematics and law, thus offering a timely, comprehensive and multidisciplinary account of theories and methods for quantifying data, model and structural uncertainty, and of fundamental strategies for mastering uncertainty. It covers key concepts such as robustness, flexibility and resilience in detail. All the described methods, technologies and strategies have been validated with the help of three technical systems, i.e. the Modular Active Spring-Damper System, the Active Air Spring and the 3D Servo Press, which have been in turn developed and tested during more than ten years of cooperative research. Overall, this book offers a timely, practice-oriented reference guide to graduate students, researchers and professionals dealing with uncertainty in the broad field of mechanical engineering.
Download or read book Mastering Uncertainty in Mechanical Engineering written by Peter F. Pelz and published by Springer Nature. This book was released on 2021-10-11 with total page 483 pages. Available in PDF, EPUB and Kindle. Book excerpt: This open access book reports on innovative methods, technologies and strategies for mastering uncertainty in technical systems. Despite the fact that current research on uncertainty is mainly focusing on uncertainty quantification and analysis, this book gives emphasis to innovative ways to master uncertainty in engineering design, production and product usage alike. It gathers authoritative contributions by more than 30 scientists reporting on years of research in the areas of engineering, applied mathematics and law, thus offering a timely, comprehensive and multidisciplinary account of theories and methods for quantifying data, model and structural uncertainty, and of fundamental strategies for mastering uncertainty. It covers key concepts such as robustness, flexibility and resilience in detail. All the described methods, technologies and strategies have been validated with the help of three technical systems, i.e. the Modular Active Spring-Damper System, the Active Air Spring and the 3D Servo Press, which have been in turn developed and tested during more than ten years of cooperative research. Overall, this book offers a timely, practice-oriented reference guide to graduate students, researchers and professionals dealing with uncertainty in the broad field of mechanical engineering.
