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Author : David Crevillen Garcia
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (16 download)
Download or read book Uncertainty Quantification for Flow and Transport in Porous Media written by David Crevillen Garcia and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author :
Publisher :
ISBN 13 :
Total Pages : 135 pages
Book Rating : 4.:/5 (729 download)
Download or read book Uncertainty Quantification in Modeling Flow and Transport in Porous Media written by and published by . This book was released on 2010 with total page 135 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : David Crevillén García
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (125 download)
Download or read book Uncertainty Quantification for Flow and Transport in Porous Media written by David Crevillén García and published by . This book was released on 2016 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Paul Francis Dostert
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (61 download)
Download or read book Uncertainty Quantification Using Multiscale Methods for Porous Media Flows written by Paul Francis Dostert and published by . This book was released on 2010 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: In this dissertation we discuss numerical methods used for uncertainty quantification applications to flow in porous media. We consider stochastic flow equations that contain both a spatial and random component which must be resolved in our numerical models. When solving the flow and transport through heterogeneous porous media some type of upscaling or coarsening is needed due to scale disparity. We describe multiscale techniques used for solving the spatial component of the stochastic flow equations. These techniques allow us to simulate the flow and transport processes on the coarse grid and thus reduce the computational cost. Additionally, we discuss techniques to combine multiscale methods with stochastic solution techniques, specifically, polynomial chaos methods and sparse grid collocation methods. We apply the proposed methods to uncertainty quantification problems where the goal is to sample porous media properties given an integrated response. We propose several efficient sampling algorithms based on Langevin diffusion and the Markov chain Monte Carlo method. Analysis and detailed numerical results are presented for applications in multiscale immiscible flow and water infiltration into a porous medium.
Author : Hyung Jun Yang
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (13 download)
Download or read book Distribution-based Framework for Uncertainty Quantification of Flow in Porous Media written by Hyung Jun Yang and published by . This book was released on 2022 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Quantitative predictions of fluid flow and transport in porous media are often compromised by multi-scale heterogeneity and insufficient site characterization. These factors introduce uncertainty on the input and output of physical systems which are generally expressed as partial differential equations (PDEs). The characterization of this predictive uncertainty is typically done with forward propagation of input uncertainty as well as inverse modeling for the dynamic data integration. The main challenges of forward uncertainty propagation arise from the slow convergence of Monte Carlo Simulations (MCS) especially when the goal is to compute the probability distribution which is necessary for risk assessment and decision making under uncertainty. On the other hand, reliable inverse modeling is often hampered by the ill-posedness of the problem, thus the incorporation of geological constraints becomes increasingly important. In the thesis, four significant contributions are made to alleviate these outstanding issues on forward and inverse problems. First, the method of distributions for the steady-state flow problem is developed to yield a full probabilistic description of outputs via probability distribution function (PDF) or cumulative distribution (CDF). The derivation of deterministic equation for CDF relies on stochastic averaging techniques and self-consistent closure approximation which ensures the resulting CDF has the same mean and variance as those computed with moment equations or MCS. We conduct a series of numerical experiments dealing with steady-state two-dimensional flow driven by either a natural hydraulic head gradient or a pumping well. These experiments reveal that the proposed method remains accurate and robust for highly heterogeneous formations with the variance of log conductivity as large as five. For the same accuracy, it is also up to four orders of magnitude faster than MCS with a required degree of confidence. The second contribution of this work is the extension of the distribution-based method to account for uncertainty in the geologic makeup of a subsurface environment and non-stationary cases. Our CDF-RDD framework provides a probabilistic assessment of uncertainty in highly heterogeneous subsurface formations by combining the method of distributions and the random domain decomposition (RDD). Our numerical experiments reveal that the CDF-RDD remains accurate for two-dimensional flow in a porous material composed of two heterogeneous geo-facies, a setting in which the original distribution method fails. For the same accuracy, the CDF-RDD is an order of magnitude faster than MCS. Next, we develop a complete distribution-based method for the probabilistic forecast of two-phase flow in porous media. The CDF equation for travel time is derived within the efficient streamline-based framework to replace the MCS in the previous FROST method. For getting fast and stable results, we employ numerical techniques including pseudo-time integration, flux-limited scheme, and exponential grid spacing. Our CDF-FROST framework uses the results of the method of distributions for travel time as an input of FROST method. The proposed method provides a probability distribution of saturation without using any sampling-based methods. The numerical tests demonstrate that the CDF-FROST shows good accuracy in estimating the probability distributions of both saturation and travel time. For the same accuracy, it is about 5 and 10 times faster than the previous FROST method and naive MCS, respectively. Lastly, we propose a consensus equilibrium (CE) framework to reconstruct the realistic geological model by the inverse modeling of sparse dynamic data. The optimization-based inversion techniques are integrated with recent machine learning-based methods (e.g., variational auto-encoder and convolutional neural network) by the proposed CE algorithm to capture the complicated geological features. The numerical examples verify that the proposed method well preserves the geological realism, and it efficiently quantifies the uncertainty conditioned on dynamic information.
Author : Jia Wei
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (818 download)
Download or read book Reduced Order Model and Uncertainty Quantification for Stochastic Porous Media Flows written by Jia Wei and published by . This book was released on 2012 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: In this dissertation, we focus on the uncertainty quantification problems where the goal is to sample the porous media properties given integrated responses. We first introduce a reduced order model using the level set method to characterize the channelized features of permeability fields. The sampling process is completed under Bayesian framework. We hence study the regularity of posterior distributions with respect to the prior measures. The stochastic flow equations that contain both spatial and random components must be resolved in order to sample the porous media properties. Some type of upscaling or multiscale technique is needed when solving the flow and transport through heterogeneous porous media. We propose ensemble-level multiscale finite element method and ensemble-level preconditioner technique for solving the stochastic flow equations, when the permeability fields have certain topology features. These methods can be used to accelerate the forward computations in the sampling processes. Additionally, we develop analysis-of-variance-based mixed multiscale finite element method as well as a novel adaptive version. These methods are used to study the forward uncertainty propagation of input random fields. The computational cost is saved since the high dimensional problem is decomposed into lower dimensional problems. We also work on developing efficient advanced Markov Chain Monte Carlo methods. Algorithms are proposed based on the multi-stage Markov Chain Monte Carlo and Stochastic Approximation Monte Carlo methods. The new methods have the ability to search the whole sample space for optimizations. Analysis and detailed numerical results are presented for applications of all the above methods.
Author : Michael Presho
Publisher :
ISBN 13 : 9781124293486
Total Pages : 157 pages
Book Rating : 4.2/5 (934 download)
Download or read book Uncertainty Quantification in Porous Media Fluid Flow written by Michael Presho and published by . This book was released on 2010 with total page 157 pages. Available in PDF, EPUB and Kindle. Book excerpt: Reservoir fractures, deformation bands, and multiscale heterogeneities are capable of affecting porous media fluid flow in a variety of ways. In terms of fracture effects, we typically encounter an unchanged or increased permeability when considering flow parallel to a fracture, whereas we expect a reduced permeability when considering flow across a deformation band. In considering multiscale heterogeneities, it is important to capture both the fine scale behavior and general trends of related flow scenarios. For the first portion of this dissertation, we assess the effects that deformation bands have on multi-component fluid flow. Under the assumption that the width of a band is a random variable, Monte Carlo simulations can then be performed to obtain statistical representations of the transport quantity in relation to the nature of uncertainty. We introduce a stochastic perturbation model as an alternative to Monte Carlo simulations and compare the results with analytical solutions. For the next topic, we propose a method for efficient solution of pressure equations with multiscale features and randomly perturbed permeability coefficients. We use the multiscale finite element method (MsFEM) as a starting point and mention that the method is intended to be used within a Monte Carlo framework where solutions corresponding to samples of the randomly perturbed data need to be computed. We show that the proposed method converges to the MsFEM solution in the limit for each individual sample of the data. The method is then applied to a standard multi-phase flow problem where a number of permeability samples are constructed for Monte Carlo simulations. We focus our quantities of interest on the Darcy velocity and breakthrough time and quantify their uncertainty by constructing corresponding cumulative distribution functions. In the final portion of the dissertation, we introduce a dual porosity, dual permeability model which accounts for differences in matrix and fracture parameters. Fine scale benchmark solutions are obtained and we perform a comparison between corresponding dual porosity, dual permeability model solutions. In the context of subsurface characterization of fractured reservoirs, we apply the Markov chain Monte Carlo method to the dual porosity, dual permeability model. In doing so, we obtain matrix and fracture permeability fields resulting from a distribution conditioned to dynamic tracer cut data. In all chapters, a number of numerical examples are presented to illustrate the performance of the each approach.
Author : Proper K. Torsu
Publisher :
ISBN 13 : 9781369094176
Total Pages : 88 pages
Book Rating : 4.0/5 (941 download)
Download or read book Uncertainty Quantification and Models of Multi-phase Flow in Porous Media written by Proper K. Torsu and published by . This book was released on 2016 with total page 88 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation investigates models of multiphase flow in porous media with the goal of understanding the behavior of classical and novel descriptions of flow, the strengths and shortcoming of each, and establishing numerical solutions for various models to demonstrate their accuracy. Of particular interest are equilibrium and non-equilibrium imbibition models. Our studies have revealed new findings and results which open new avenues of research and applications in the future. With respect to non-equilibrium models, the contributions of this work to existing results include extension of a spontaneous countercurrent imbibition model studied by Silin and Patzek to second order and its capability to accommodate non-constant redistribution time. The study has demonstrated that late time asymptotic solutions do not depend on relaxation time. Moreover, an analysis of the extended model has revealed that recovery scales with square root of time; an important results established by Barenblatt, Ryzhik and Sinlin and Patzek. Another important study in this direction is a decomposition method for solving quasilinear initial boundary value problems, especially transport systems. This study was inspired by Adomian decomposition, a technique for solving nonlinear partial differential equations. One primary limitation of the Adomian decomposition is its inability to solve boundary value problems with zero or constant boundary conditions in general. In this work, the traditional Adomian decomposition method has been extended to quasilinear initial boundary value problems. The method has been applied to several standard problems in engineering and physics. In a slightly different direction, this dissertation also explored several aspects of Uncertainty Quantification of parameters in reservoir engineering. We studied a decomposition method for quantifying uncertainty associated with coefficients reservoir in modeling. This method has been applied to optimization of well placement problems; where it is integrated into a simulator for the transport system. If applicable, the method in general serves as a replacement for Monte Carlo simulations. It has been demonstrated in this dissertation that the decomposition method is substantially more efficient in comparison to the traditional Monte Carlo simulations. It also offers a variety of choices between computational resources, time and accuracy of the approximations.
Author :
Publisher :
ISBN 13 :
Total Pages : 10 pages
Book Rating : 4.:/5 (727 download)
Download or read book Uncertainty Quantification for Flow in Highly Heterogeneous Porous Media written by and published by . This book was released on 2004 with total page 10 pages. Available in PDF, EPUB and Kindle. Book excerpt: Natural porous media are highly heterogeneous and characterized by parameters that are often uncertain due to the lack of sufficient data. This uncertainty (randomness) occurs on a multiplicity of scales. We focus on geologic formations with the two dominant scales of uncertainty: a large-scale uncertainty in the spatial arrangement of geologic facies and a small-scale uncertainty in the parameters within each facies. We propose an approach that combines random domain decompositions (RDD) and polynomial chaos expansions (PCE) to account for the large- and small-scales of uncertainty, respectively. We present a general framework and use a one-dimensional flow example to demonstrate that our combined approach provides robust, non-perturbative approximations for the statistics of the system states.
Author : Philippe Renard
Publisher : Frontiers Media SA
ISBN 13 : 2889636747
Total Pages : 177 pages
Book Rating : 4.8/5 (896 download)
Download or read book Parameter Estimation and Uncertainty Quantification in Water Resources Modeling written by Philippe Renard and published by Frontiers Media SA. This book was released on 2020-04-22 with total page 177 pages. Available in PDF, EPUB and Kindle. Book excerpt: Numerical models of flow and transport processes are heavily employed in the fields of surface, soil, and groundwater hydrology. They are used to interpret field observations, analyze complex and coupled processes, or to support decision making related to large societal issues such as the water-energy nexus or sustainable water management and food production. Parameter estimation and uncertainty quantification are two key features of modern science-based predictions. When applied to water resources, these tasks must cope with many degrees of freedom and large datasets. Both are challenging and require novel theoretical and computational approaches to handle complex models with large number of unknown parameters.
Author : Veronika S. Vasylkivska
Publisher :
ISBN 13 :
Total Pages : 270 pages
Book Rating : 4.:/5 (81 download)
Download or read book Stochastic Analysis of Flow and Transport in Porous Media written by Veronika S. Vasylkivska and published by . This book was released on 2012 with total page 270 pages. Available in PDF, EPUB and Kindle. Book excerpt: Random fields are frequently used in computational simulations of real-life processes. In particular, in this work they are used in modeling of flow and transport in porous media. Porous media as they arise in geological formations are intrinsically deterministic but there is significant uncertainty involved in determination of their properties such as permeability, porosity and diffusivity. In many situations description of properties of the porous media is aided by a limited number of observations at fixed points. These observations constrain the randomness of the field and lead to conditional simulations. In this work we propose a method of simulating the random fields which respect the observed data. An advantage of our method is that in the case that additional data becomes available it can be easily incorporated into subsequent representations. The proposed method is based on infinite series representations of random fields. We provide truncation error estimates which bound the discrepancy between the truncated series and the random field. We additionally provide the expansions for some processes that have not yet appeared in the literature. There are several approaches to efficient numerical computations for partial differential equations with random parameters. In this work we compare the solutions of flow and transport equations obtained by conditional simulations with Monte Carlo (MC) and stochastic collocation (SC) methods. Due to its simplicity MC method is one of the most popular methods used for the solution of stochastic equations. However, it is computationally expensive. The SC method is functionally similar to the MC method but it provides the faster convergence of the statistical moments of the solutions through the use of the carefully chosen collocation points at which the flow and transport equations are solved. We show that for both methods the conditioning on measurements helps to reduce the uncertainty of the solutions of the flow and transport equations. This especially holds in the neighborhood of the conditioning points. Conditioning reduces the variances of solutions helping to quantify the uncertainty in the output of the flow and transport equations.
Author : Brian Howard Gilding
Publisher : World Scientific
ISBN 13 : 9814507334
Total Pages : 376 pages
Book Rating : 4.8/5 (145 download)
Download or read book Flow And Transport In Porous Media - Proceedings Of The Summer School written by Brian Howard Gilding and published by World Scientific. This book was released on 1992-09-16 with total page 376 pages. Available in PDF, EPUB and Kindle. Book excerpt: Contents:Mathematical Modelling of Saturated and Unsaturated Groundwater Flow (B H Gilding)Applications of the Homogenization Method to Flow and Transport in Porous Media (U Hornung)Finite-Element-Approximation of Solute Transport in Porous Media with General Adsorption Processes (P Knabner)Free Boundary Problems in Fresh-Salt Goundwater Flow (C J van Duijn) Readership: Applied mathematicians and engineers. Keywords:Porous Media Equation;Diffusion Equation;Transport Equation;Infiltration Equation;Partial Differential Equation(PDE);Degenerate Parabolic Equation;Nonlinear PDE;Multiphase Flow in Porous Media;Nonlinear Diffusion;Reactive Solutes;Adsorption;Fresh and Salt Groundwater Flow;Homogenisation;Nonlinear Partial Differential Equations
Author : Bradley W. McCaskill
Publisher :
ISBN 13 : 9780438592797
Total Pages : 139 pages
Book Rating : 4.5/5 (927 download)
Download or read book Numerical Methods for Porous Media Flow written by Bradley W. McCaskill and published by . This book was released on 2018 with total page 139 pages. Available in PDF, EPUB and Kindle. Book excerpt: The way in which we manage subsurface resources is directly determined by the availability and quality of information we have about the dynamical systems that govern them. Typically this information is obtained by solving mathematical models that are posed on the domain of interest. Unfortunately, both the construction and process of solving these models can be a nontrivial task. In this dissertation we explore solutions to several problems related to modeling fluid flow through porous media. One aspect of this dissertation is the development of a nonstandard multiscale finite element method for solving elliptic boundary value problems. The so-called multiscale Robin method can be viewed as a merger of traditional domain decomposition methods with the framework of multiscale finite element methods. The novelty of this method is that its efficiency and accuracy are governed by a geometric enrichment of the solution space. An application of the multiscale Robin method to uncertainty quantification through the use of a stochastic representation method is considered. To this end, the multiscale Robin methodology is adapted to the framework of coupled elliptic boundary value problems. A computationally cheap and efficient method for the simulation of two-phase flow through poroelastic media is also proposed. Specifically, through the use of a artificial stabilization term and an element based post processing reasonable estimates of solutions to the associated geomechanic subsystem can be obtained. Finally, we adapt a continuous data assimilation algorithm to a model for miscible flow through porous media. The existence of weak solutions and convergence properties of the resulting model solution are studied. In all chapters a variety of numerical examples are used to evaluate the performance of each proposed solution methodology.
Author : Joyce C. Rigelo
Publisher :
ISBN 13 : 9781303424311
Total Pages : 88 pages
Book Rating : 4.4/5 (243 download)
Download or read book A New Multiscale Mixed Method and an Uncertainty Quantification Technique for Porous Media Flows written by Joyce C. Rigelo and published by . This book was released on 2013 with total page 88 pages. Available in PDF, EPUB and Kindle. Book excerpt: There are several challenges associated with the investigation of subsurface flows. In this work we focus on the efficient numerical simulation of such flows in heterogeneous formations and on the characterization of subsurface properties. In this dissertation we present a new multiscale mixed method and an uncertainty quantification technique for porous media flows. This work can be divided as follows: A new multiscale mixed method (MuMM) is proposed to compute the velocity field for single and two-phase flows in porous media. In MuMM, a domain decomposition method based on Robin interface condition is implemented, and hybridized mixed finite elements are used for the spatial discretization of the equations. Local, multiscale mixed basis functions are defined to represent the discrete solutions in subdomains. Appropriate subspaces of the vector space spanned by these basis functions can be considered in the numerical approximations of heterogeneous porous media flow problems. To extend the MuMM for two-phase flows, we introduce computationally efficient algorithms that avoid the update of the mulstiscale mixed basis functions every time step of a simulation. We also propose a Huff'n Puff technique as a screening step in a two- and three-stage MCMC (Markov chain Monte Carlo) procedure for uncertainty quantification of porous media flows. Numerical results are presented indicating that the new procedure is very effective.
Author : J.M. Crolet
Publisher : Springer Science & Business Media
ISBN 13 : 9401728569
Total Pages : 272 pages
Book Rating : 4.4/5 (17 download)
Download or read book Recent Advances in Problems of Flow and Transport in Porous Media written by J.M. Crolet and published by Springer Science & Business Media. This book was released on 2013-06-29 with total page 272 pages. Available in PDF, EPUB and Kindle. Book excerpt: Porous media, and especially phenomena of transport in such materials, are an impor1ant field of interest for geologists, hydrogeologists, researchers in soil and fluid mechanics, petroleum and chemical engineers, physicists and scientists in many other disciplines. The development of better numerical simulation techniques in combination with the enormous expansion of computer tools, have enabled numerical simulation of transport phenomena (mass of phases and components, energy etc. ) in porous domains of interest. Before any practical application of the results of such simulations can be used, it is essential that the simulation models have been proven to be valid. In order to establish the greatest possible coherence between the models and the physical reality, frequent interaction between numericians, mathematicians and the previously quoted researchers, is necessary. Once this coherence is established, the numerical simulations could be used to predict various phenomena such as water management, propagation of pollutants etc. These simulations could be, in many cases, the only financially acceptable tool to carry out an investigation. Current studies within various fields of applications include not only physical comprehension aspects of flow and energy or solute transport in saturated or unsaturated media but also numerical aspects in deriving strong complex equations. Among the various fields of applications generally two types of problems can be observed. Those associated with the pollution of the environment and those linked to water management. The former are essentially a problem in industrialized countries, the latter are a major source of concern in North-Africa.
Author : Zhangxin Chen
Publisher : American Mathematical Soc.
ISBN 13 : 082182807X
Total Pages : 538 pages
Book Rating : 4.8/5 (218 download)
Download or read book Fluid Flow and Transport in Porous Media, Mathematical and Numerical Treatment written by Zhangxin Chen and published by American Mathematical Soc.. This book was released on 2002 with total page 538 pages. Available in PDF, EPUB and Kindle. Book excerpt: The June 2001 conference brought together mathematicians, computational scientists, and engineers working on the mathematical and numerical treatment of fluid flow and transport in porous media. This collection of 43 papers from that conference reports on recent advances in network flow modeling, parallel computation, optimization, upscaling, uncertainty reduction, media characterization, and chemically reactive phenomena. Topics include modeling horizontal wells using hybrid grids in reservoir simulation, a high order Lagrangian scheme for flow through unsaturated porous media, and a streamline front tracking method for two- and three- phase flow. No index. Annotation copyrighted by Book News, Inc., Portland, OR.
Author : Vallampati Ramachandra Prasad
Publisher : BoD – Books on Demand
ISBN 13 : 1839627115
Total Pages : 134 pages
Book Rating : 4.8/5 (396 download)
Download or read book Porous Fluids written by Vallampati Ramachandra Prasad and published by BoD – Books on Demand. This book was released on 2021-08-18 with total page 134 pages. Available in PDF, EPUB and Kindle. Book excerpt: Written by authoritative experts in the field, this book discusses fluid flow and transport phenomena in porous media. Portions of the book are devoted to interpretations of experimental results in this area and directions for future research. It is a useful reference for applied mathematicians and engineers, especially those working in the area of porous media.
