Optimization Of Hydraulic Fracture Stages And Sequencing In Unconventional Formations PDF Download
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| Author | : Ahmed Alzahabi |
| Publisher | : CRC Press |
| Total Pages | : 262 |
| Release | : 2018-07-03 |
| Genre | : Technology & Engineering |
| ISBN | : 1351618237 |
Download Optimization of Hydraulic Fracture Stages and Sequencing in Unconventional Formations Book in PDF, ePub and Kindle
Shale gas and/or oil play identification is subject to many screening processes for characteristics such as porosity, permeability, and brittleness. Evaluating shale gas and/or oil reservoirs and identifying potential sweet spots (portions of the reservoir rock that have high-quality kerogen content and brittle rock) requires taking into consideration multiple rock, reservoir, and geological parameters that govern production. The early determination of sweet spots for well site selection and fracturing in shale reservoirs is a challenge for many operators. With this limitation in mind, Optimization of Hydraulic Fracture Stages and Sequencing in Unconventional Formations develops an approach to improve the industry’s ability to evaluate shale gas and oil plays and is structured to lead the reader from general shale oil and gas characteristics to detailed sweet-spot classifications. The approach uses a new candidate selection and evaluation algorithm and screening criteria based on key geomechanical, petrophysical, and geochemical parameters and indices to obtain results consistent with existing shale plays and gain insights on the best development strategies going forward. The work introduces new criteria that accurately guide the development process in unconventional reservoirs in addition to reducing uncertainty and cost.
| Author | : Xiaodan Ma |
| Publisher | : |
| Total Pages | : |
| Release | : 2014 |
| Genre | : |
| ISBN | : |
Download Integrated Hydraulic Fracture Placement and Design Optimization in Unconventional Gas Reservoirs Book in PDF, ePub and Kindle
Unconventional reservoir such as tight and shale gas reservoirs has the potential of becoming the main source of cleaner energy in the 21th century. Production from these reservoirs is mainly accomplished through engineered hydraulic fracturing to generate fracture networks that provide the gas flow pathways from the rock matrix to the production wells. While hydraulic fracturing technology has progressed considerably in the last thirty years, designing the fracturing system primarily involves judgments from a team of engineers, geoscientists and geophysicists, without taking advantage of computational tools, such as numerical optimization techniques to improve short-term and long-term reservoir production. This thesis focuses on developing novel optimization algorithms that can be used to improve the design and implementation of hydraulic fracturing in a shale gas reservoir to increase production and the net present value of unconventional assets. In particular, we consider simultaneous perturbation stochastic approximation (SPSA) and Covariance Matrix Adaptation - Evolution Strategy (CMA-ES) algorithms, which are proven very efficient in finding nearly optimal solutions. We show that with a judicious choice of control variables (continuous or discrete) we can obtain efficient algorithms for performing hydraulic fracture optimization in unconventional reservoirs. To achieve this, the hydraulic fracture production optimization problem is divided into two aspects: fracture stages placement optimization with fix stage numbers and unknown stage numbers. After check the parameters of fracture model that could be used to simulate future reservoir behavior with a higher degree of confidence, the fracture stages optimization is scheduling the fracturing sequence, and adjusting the fracture stages intensity at different locations, which is similar to well placement problem. In addition to the detailed investigation of the new optimization technique, uncertainty quantification of reservoir properties and its implications on the optimization workflow is also considered in the shale gas reservoir model. Taking into account that shale gas reservoirs are highly heterogeneous systems, stochastic optimization methods are the most suitable framework for hydraulic fracture stages placement. The electronic version of this dissertation is accessible from http://hdl.handle.net/1969.1/151913
| Author | : Natalia Skomorowski |
| Publisher | : |
| Total Pages | : 167 |
| Release | : 2016 |
| Genre | : Hydraulic fracturing |
| ISBN | : |
Download Modelling of Multistage Hydraulic Fracture Operations in Unconventional Resources - the Application of Geomechanics and Field Data to the Optimization of Fracture Spacing and Production Book in PDF, ePub and Kindle
Massive multistage hydraulic fracturing using horizontal wells has been an integral part of the natural resource industry in Canada. The process uses long horizontal wells divided into many stages to access large volumes of oil and gas bearing formations. Each well is divided into fracture stages. Fluids are pumped down into each stage of the well to generate a fracture which increases the porosity and permeability of the formation to allow economic resource extraction. The in situ geomechanical stresses of the formation do not remain static during the fracturing of the rock. Each fracture creates a volume change within the formation which in turn leads to alteration of the stress and strain conditions within the rock mass. There is the possibility that the alteration of stress conditions will have an effect on the initiation and propagation of subsequent stages of the multi-stage hydraulic fracture operation. This phenomenon is known as 'stress shadowing'. Stress shadowing occurs when the minimum compressive stress in the formation is increased due to the fracturing of the rock. Increasing the minimum compressive horizontal stress can have several effects, including the rotation or diversion of fracture propagation, stages that do not initiate, thinner fractures, and reduced porosity and permeability within the fracture stage. Currently, many hydraulic fracture operations do not invest in advanced mathematical models of geomechanics. Some pressure monitoring is carried out during operations, but the data are inadequate to warrant advanced numerical methods to predict stress change and its effects. This thesis presents a semi-analytical solution for the stresses around an ellipsoid (the Eshelby Solution) for use in predicting fracture geometry and stress shadow effects. The program is quick to use and can be linked to field data. A study of field data from the Montney Formation is presented. The algorithm developed in this thesis is used to evaluate stress changes within the Montney Formation and the outputs are compared to the stress changes seen in the hydraulic fracture pressure data.
| Author | : Hoss Belyadi |
| Publisher | : Gulf Professional Publishing |
| Total Pages | : 632 |
| Release | : 2019-06-18 |
| Genre | : Technology & Engineering |
| ISBN | : 0128176660 |
Download Hydraulic Fracturing in Unconventional Reservoirs Book in PDF, ePub and Kindle
Hydraulic Fracturing in Unconventional Reservoirs: Theories, Operations, and Economic Analysis, Second Edition, presents the latest operations and applications in all facets of fracturing. Enhanced to include today’s newest technologies, such as machine learning and the monitoring of field performance using pressure and rate transient analysis, this reference gives engineers the full spectrum of information needed to run unconventional field developments. Covering key aspects, including fracture clean-up, expanded material on refracturing, and a discussion on economic analysis in unconventional reservoirs, this book keeps today's petroleum engineers updated on the critical aspects of unconventional activity. Helps readers understand drilling and production technology and operations in shale gas through real-field examples Covers various topics on fractured wells and the exploitation of unconventional hydrocarbons in one complete reference Presents the latest operations and applications in all facets of fracturing
| Author | : Emad Abbad Alabbad |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2014 |
| Genre | : |
| ISBN | : |
Download Experimental Investigation of Geomechanical Aspects of Hydraulic Fracturing Unconventional Formations Book in PDF, ePub and Kindle
Understanding the mechanisms that govern hydraulic fracturing applications in unconventional formations, such as gas-bearing shales, is of increasing interest to the petroleum upstream industry. Among such mechanisms, the geomechanical interactions between hydraulic fractures and pre-existing fractures on one hand, and simultaneous multiple hydraulic fractures on the other hand are seen of high importance. Although the petroleum engineering and related literature contains a number of studies that discusses such topics of hydraulic fracture interactions, there still remain some aspects that require answers, validations, or further supporting data. Particularly, experimental evidence is fairly scarce and keenly needed to solidify the understanding of such complex applications. In this work, the investigation methodology uses a series of hydraulic fracturing laboratory tests performed on synthetic rocks made of gypsum-based cements such as hydrostone and plaster in various experimental set ups. Those laboratory tests aim to closely investigate hydraulic fracture intersection with pre-existing fractures by assessing some factors that govern its outcomes. Specifically, the roles of the pre-existing fracture cementation, aperture, and relative height on the intersection mode are examined. The results show dominant effect of the cement-fill type relative to the host-rock matrix in determining whether hydraulic fracture crossing the pre-existing interface may occur. Similarly, hydraulic fracture height relative to the height of the pre-existing fracture may dictate the intersection results. However, the intersection mode seems to be insensitive of the pre-existing fracture aperture. Moreover, simultaneous multi-fracture propagation is examined and found to be impacted by the interference of the stresses induced from each fracturing source on neighboring fracturing sources. Such stress interference increases as the number of the propagating hydraulic fractures increase. While hydraulic fractures initiating from fracturing sources located in the middle of the fracturing stage seem to have inhibited propagation, outer hydraulic fractures may continue propagating with outward curvatures. Overall, the experimental results and analyses offer more insights for understanding hydraulic fracture complexity in unconventional formations.
| Author | : Mengting Li |
| Publisher | : Cuvillier Verlag |
| Total Pages | : 208 |
| Release | : 2018-12-17 |
| Genre | : Technology & Engineering |
| ISBN | : 3736989342 |
Download Optimization of Multistage Hydraulic Fracturing Treatment for Maximization of the Tight Gas Productivity Book in PDF, ePub and Kindle
Hydraulic fracturing is essential technology for the development of unconventional resources such as tight gas. So far, there are no numerical tools which can optimize the whole process from geological modeling, hydraulic fracturing until production simulation with the same 3D model with consideration of the thermo-hydro-mechanical coupling. In this dissertation, a workflow and a numerical tool chain were developed for design and optimization of multistage hydraulic fracturing in horizontal well regarding a maximum productivity of the tight gas wellbore. After the verification a full 3D reservoir model is generated based on a real tight gas field in the North German Basin. Through analysis of simulation results, a new calculation formula of FCD was proposed, which takes the proppant position and concentration into account and can predict the gas production rate more accurately. However, not only FCD but also proppant distribution and hydraulic connection of stimulated fractures to the well, geological structure and the interaction between fractures are determinant for the gas production volume. Through analysis the numerical results of sensitivity analysis and optimization variations, there is no unique criterion to determine the optimal number and spacing of the fractures, it should be analyzed firstly in detail to the actual situation and decided then from case to case.
| Author | : Xinpu Shen |
| Publisher | : CRC Press |
| Total Pages | : 192 |
| Release | : 2017-03-27 |
| Genre | : Science |
| ISBN | : 1351796291 |
Download Numerical Simulation in Hydraulic Fracturing: Multiphysics Theory and Applications Book in PDF, ePub and Kindle
The expansion of unconventional petroleum resources in the recent decade and the rapid development of computational technology have provided the opportunity to develop and apply 3D numerical modeling technology to simulate the hydraulic fracturing of shale and tight sand formations. This book presents 3D numerical modeling technologies for hydraulic fracturing developed in recent years, and introduces solutions to various 3D geomechanical problems related to hydraulic fracturing. In the solution processes of the case studies included in the book, fully coupled multi-physics modeling has been adopted, along with innovative computational techniques, such as submodeling. In practice, hydraulic fracturing is an essential project component in shale gas/oil development and tight sand oil, and provides an essential measure in the process of drilling cuttings reinjection (CRI). It is also an essential measure for widened mud weight window (MWW) when drilling through naturally fractured formations; the process of hydraulic plugging is a typical application of hydraulic fracturing. 3D modeling and numerical analysis of hydraulic fracturing is essential for the successful development of tight oil/gas formations: it provides accurate solutions for optimized stage intervals in a multistage fracking job. It also provides optimized well-spacing for the design of zipper-frac wells. Numerical estimation of casing integrity under stimulation injection in the hydraulic fracturing process is one of major concerns in the successful development of unconventional resources. This topic is also investigated numerically in this book. Numerical solutions to several other typical geomechanics problems related to hydraulic fracturing, such as fluid migration caused by fault reactivation and seismic activities, are also presented. This book can be used as a reference textbook to petroleum, geotechnical and geothermal engineers, to senior undergraduate, graduate and postgraduate students, and to geologists, hydrogeologists, geophysicists and applied mathematicians working in this field. This book is also a synthetic compendium of both the fundamentals and some of the most advanced aspects of hydraulic fracturing technology.
| Author | : Michael Berry Smith |
| Publisher | : CRC Press |
| Total Pages | : 793 |
| Release | : 2015-12-16 |
| Genre | : Science |
| ISBN | : 1466566922 |
Download Hydraulic Fracturing Book in PDF, ePub and Kindle
Hydraulic Fracturing effectively busts the myths associated with hydraulic fracturing. It explains how to properly engineer and optimize a hydraulically fractured well by selecting the right materials, evaluating the economic benefits of the project, and ensuring the safety and success of the people, environment, and equipment. From data estimation
| Author | : Yu-Shu Wu |
| Publisher | : Gulf Professional Publishing |
| Total Pages | : 568 |
| Release | : 2017-11-30 |
| Genre | : Technology & Engineering |
| ISBN | : 0128129999 |
Download Hydraulic Fracture Modeling Book in PDF, ePub and Kindle
Hydraulic Fracture Modeling delivers all the pertinent technology and solutions in one product to become the go-to source for petroleum and reservoir engineers. Providing tools and approaches, this multi-contributed reference presents current and upcoming developments for modeling rock fracturing including their limitations and problem-solving applications. Fractures are common in oil and gas reservoir formations, and with the ongoing increase in development of unconventional reservoirs, more petroleum engineers today need to know the latest technology surrounding hydraulic fracturing technology such as fracture rock modeling. There is tremendous research in the area but not all located in one place. Covering two types of modeling technologies, various effective fracturing approaches and model applications for fracturing, the book equips today’s petroleum engineer with an all-inclusive product to characterize and optimize today’s more complex reservoirs. Offers understanding of the details surrounding fracturing and fracture modeling technology, including theories and quantitative methods Provides academic and practical perspective from multiple contributors at the forefront of hydraulic fracturing and rock mechanics Provides today’s petroleum engineer with model validation tools backed by real-world case studies
| Author | : Ali Al-Shawaf |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2023 |
| Genre | : Hydraulic engineering |
| ISBN | : |
Download Hydraulic Fractures Spacing Optimization in Transverse Isotropic Formations Book in PDF, ePub and Kindle
Associated with their rich organic contents and laminated depositional environments, shales exhibit transverse isotropic (TI) characteristics. Ignoring TI nature of shale formations will lead to erroneous estimates of in-situ stresses and consequently to inefficient design of fracture geometry, which negatively affects the ultimate recovery. In this research, inclusion-based rock physics models were used to estimate the elastic properties of Tuwaiq Mountain Formation (TMF) using available petrophysical and XRD data. It was observed that the Young’s modulus and both mineral and elastic brittleness indices increase as the volume fraction of calcite increases while they reduce due to increased clay and kerogen volume. Following that, analytical modeling was performed to estimate fracture geometry and in-situ stresses in anisotropic medium. The results showed that the Young’s modulus anisotropy has a noticeable impact on fracture width, whereas the impact of Poisson’s ratio is minimal. The effect of stress anisotropy and other rock properties on stress shadow was also investigated and it was found that in presence of large stress anisotropy, the fractures can be placed close to each other, or theoretically, there is no concern regarding minimum fracture spacing. Finally, numerical modeling using ResFrac unconventional simulator was conducted to investigate the effect of shale TIV nature on hydraulic fracture development and spacing with a specific reference to Jafurah shale play. Results of numerical simulations show that larger anisotropic stiffness reduces the fracture width in TIV formations. It was found that stress anisotropy affects the development of fracture geometry and that tighter fracture spacing results in a higher magnitude of stress alteration around the fractures. This affects the geometry and propagation of the subsequent fractures where several fractures propagate asymmetrically in opposite directions which reduces the efficiency of hydraulic fracture treatments.
