Multi Scale Modeling Tools For Coupled Reaction Phase Equilibrium And Two Phase Mixing Phenomena With Application To Supercritical Water Heavy Oil Upgrading Process

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Multi-scale Modeling Tools for Coupled Reaction, Phase Equilibrium and Two-phase Mixing Phenomena with Application to Supercritical Water Heavy Oil Upgrading Process

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Author : Ashwin Raghavan (Ph. D.)
Publisher :
ISBN 13 :
Total Pages : 261 pages
Book Rating : 4.:/5 (11 download)

Book Synopsis Multi-scale Modeling Tools for Coupled Reaction, Phase Equilibrium and Two-phase Mixing Phenomena with Application to Supercritical Water Heavy Oil Upgrading Process by : Ashwin Raghavan (Ph. D.)

Download or read book Multi-scale Modeling Tools for Coupled Reaction, Phase Equilibrium and Two-phase Mixing Phenomena with Application to Supercritical Water Heavy Oil Upgrading Process written by Ashwin Raghavan (Ph. D.) and published by . This book was released on 2019 with total page 261 pages. Available in PDF, EPUB and Kindle. Book excerpt: Supercritical water heavy oil upgrading, which has the potential for high distillate liquid yields with lower coke formation, is a complex process involving coupled reactions, phase equilibrium and two-phase mixing phenomena. This thesis presents the development of a range of models and tools to simulate such processes at different scales with varying levels of fidelity in describing the underlying physical phenomena. Over the past decade, a number of experiments have been performed in batch reactors to study the upgrading of various heavy oils and crude oil vacuum residua through both oil-phase pyrolysis and reaction in the presence of supercritical water (SCW). While these studies indicate that the presence of SCW can significantly affect the outcomes of the upgrading process, there remains a lack of clarity on whether thermolytic processing in the presence of SCW is indeed significantly beneficial as opposed to pure oil phase pyrolysis and if so, at what operating conditions. In addition, modeling tools coupling the reaction kinetics and phase equilibrium, which can provide deeper insight into the process and the underlying phenomena have been lacking. The first part of this thesis describes the development and application of a two-phase stirred reactor (TPSR) model which couples sub-models for the phase-specific reaction kinetics and multi-component hydrocarbon-water phase equilibrium. Using this model, separate lumped kinetics rate parameters for the oil and SCW phases were inferred that best fit batch reactor experimental data. Analysis of the obtained kinetics parameters reveal the following crucial insights on the chemical pathways involved in the SCW upgrading process (i) the primary coke precursor formation pathway is not suppressed in the SCW phase and (ii) only the secondary pathway towards coke precursors from product distillate species is suppressed in the SCW phase, especially at higher operating temperatures. The TPSR model was then applied to evaluate the performance of heavy oil upgrading using SCW in an oil-water co-flow (visbreaking) Next, an extractive upgrading reactor design was hypothesized to improve high-value distillate liquid product yields and reduce undesirable extrinsic coke formation by removing the distillate products safely out of the reactor in a SCW up-flow thereby preventing their further participation in secondary retrograde combination reactions towards more aromatic coke precursors and low-value gas. The TPSR model was used to evaluate the performance of the SCW extractive upgrading process in terms of distillate liquid yields and coke formation rates for heavy oil vacuum residue over a range of operating temperatures and water flow rates. The predictions demonstrate the significant potential of the extractive upgrading process to achieve the aforementioned objectives. The effect of the extraction rate governed by the interphase mixing time-scale on the product yields and oil-inflow rate for steady-state operation was then quantified. The second part of the thesis describes the development of a computational fluid dynamics (CFD) framework and modeling tool for simulating the coupled two-phase flow and multi-component interphase mass transfer at near-critical/supercritical conditions in applications like SCW heavy oil upgrading. The CFD tool accounts for interface tracking in 2-D/3-D, intra-phase species diffusion, phase-equilibrium limited interphase species transfer and non-ideal thermodynamics. In this tool, the interface is tracked with a conservative sharp interface capturing Volume of Fluid (VoF) scheme using (i) a Piece-wise Linear Interface Reconstruction (PLIC) algorithm (ii) an unsplit geometrical advective flux calculation and (iii) a flux-polyhedron correction. The intra-phase species diffusion is handled using a corrected face-normal gradient calculation accounting for the arbitrary shape and size of phase-specific sub-cells. The interphase mass transfer is computed as a source term consistent with the local phase equilibrium and transport flux constraints at the interface. Finally, the phase-volume change is rigorously accounted for in the discrete pressure equation. The tool was implemented on an open-source CFD platform ensuring compatibility with unstructured mesh information and parallel processing constraints. Finally, the developed CFD tool was applied to determine the two-phase mixing rates in an extractive upgrading configuration for water flow rates of interest. The predictions suggest that the earlier assumption of instantaneous phase-equilibration with respect to the time-scale of reactions relevant in the SCW heavy-oil upgrading process is a reasonable approximation for centimeter-scale reactors. Furthermore, the scaling of the total oil-water interfacial area in the reactor and the average Sherwood number with the water inlet velocity and oil-water interfacial tension were established, providing insight into ways to manipulate the two-phase mixing rate to enable control of the extractive upgrading process at higher operating temperatures.

An Introduction to Multiscale Modeling with Applications

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Author : Pietro Asinari
Publisher : Società Editrice Esculapio
ISBN 13 : 8874885873
Total Pages : 372 pages
Book Rating : 4.8/5 (748 download)

Book Synopsis An Introduction to Multiscale Modeling with Applications by : Pietro Asinari

Download or read book An Introduction to Multiscale Modeling with Applications written by Pietro Asinari and published by Società Editrice Esculapio. This book was released on 2013-09-01 with total page 372 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book collects the slides prepared for the course of Advanced Engineering Thermodynamics (Master of Science in Mechanical Engineering) and those for the course of Multiscale Modelling and Simulation of Molecular and Mesoscopic Dynamics (PhD Program in Energetics), taught in English at Turin Polytechnic. Here, we provide a broad overview on the different topics taught in our classes. Even though not all topics are presented in the same class, students should be able to more easily reconstruct the connections among different phenomena (and scales), build their own mind map and, eventually, find their own way of deepening the subjects they are more interested in. Several engineering applications have been included. This helps in stressing that very different phenomena are described by transport theory and obey the same underlying fundamental laws of engineering thermodynamics. Detailed tutorials are reported, based on open-source codes for the laboratories (Gromacs, Palabos, OpenFoam and Cantera).

Phase Equilibrium Engineering

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Author : Esteban Brignole
Publisher : Elsevier Inc. Chapters
ISBN 13 : 0128082607
Total Pages : 42 pages
Book Rating : 4.1/5 (28 download)

Book Synopsis Phase Equilibrium Engineering by : Esteban Brignole

Download or read book Phase Equilibrium Engineering written by Esteban Brignole and published by Elsevier Inc. Chapters. This book was released on 2013-04-02 with total page 42 pages. Available in PDF, EPUB and Kindle. Book excerpt: In this chapter, the basic methodologies of phase equilibrium engineering are introduced through the systematic analysis of several case studies. Some of the thermodynamic tools that have been presented in the previous chapters are applied to illustrate how the phase and conceptual process design of complex engineering problems can be tackled from a phase equilibrium engineering approach. In all the case studies, the first step is to consider in great detail the properties of the process feed, the components, their physical properties, concentrations, and molecular interactions. This information is then used for the selection of thermodynamic models, a suitable technology, pressure, temperature, and compositional operating boundaries. It is shown how the mixture composition and the process goals and specifications determine the process scheme and the unit thermodynamic sensitivity. In addition, the importance of the mixture composition is highlighted in combination with the energy and material balance in the case study for the selection of the desirable natural gas cryogenic technologies. The use of a pressure versus temperature drawing board is used to plot the process trajectory and the mixture phase envelopes from the initial conditions to the key phase engineering design problem. Moreover, the phase design provides also a sound basis for the process initial specification and computer simulation. As another example of phase equilibrium engineering, the heat integration in a complex process is solved by the application of the Gibbs phase rule to the LLV equilibria of a ternary mixture.

Phase Equilibrium Engineering

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Author : Esteban Alberto Brignole
Publisher : Newnes
ISBN 13 : 044459471X
Total Pages : 347 pages
Book Rating : 4.4/5 (445 download)

Book Synopsis Phase Equilibrium Engineering by : Esteban Alberto Brignole

Download or read book Phase Equilibrium Engineering written by Esteban Alberto Brignole and published by Newnes. This book was released on 2013-04-02 with total page 347 pages. Available in PDF, EPUB and Kindle. Book excerpt: Traditionally, the teaching of phase equilibria emphasizes the relationships between the thermodynamic variables of each phase in equilibrium rather than its engineering applications. This book changes the focus from the use of thermodynamics relationships to compute phase equilibria to the design and control of the phase conditions that a process needs. Phase Equilibrium Engineering presents a systematic study and application of phase equilibrium tools to the development of chemical processes. The thermodynamic modeling of mixtures for process development, synthesis, simulation, design and optimization is analyzed. The relation between the mixture molecular properties, the selection of the thermodynamic model and the process technology that could be applied are discussed. A classification of mixtures, separation process, thermodynamic models and technologies is presented to guide the engineer in the world of separation processes. The phase condition required for a given reacting system is studied at subcritical and supercritical conditions. The four cardinal points of phase equilibrium engineering are: the chemical plant or process, the laboratory, the modeling of phase equilibria and the simulator. The harmonization of all these components to obtain a better design or operation is the ultimate goal of phase equilibrium engineering. Methodologies are discussed using relevant industrial examples The molecular nature and composition of the process mixture is given a key role in process decisions Phase equilibrium diagrams are used as a drawing board for process implementation

Phase Equilibrium Engineering

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Author : Esteban Brignole
Publisher : Elsevier Inc. Chapters
ISBN 13 : 0128082585
Total Pages : 50 pages
Book Rating : 4.1/5 (28 download)

Book Synopsis Phase Equilibrium Engineering by : Esteban Brignole

Download or read book Phase Equilibrium Engineering written by Esteban Brignole and published by Elsevier Inc. Chapters. This book was released on 2013-04-02 with total page 50 pages. Available in PDF, EPUB and Kindle. Book excerpt: In previous chapters, we have seen the fundamental criteria for phase equilibria and how the phenomenological phase behavior and separation technology of real mixtures are determined by their constituent molecular interactions. Our purpose in this chapter is to present the properties of fluids and the models for the prediction of thermodynamic properties and phase equilibria. These models are classified as predictive models using only pure component properties and semiempirical models based on a molecular thermodynamic approach. Finally, the chapter highlights the importance of the class of mixture and molecular interactions of its components in the selection of thermodynamic models for phase equilibrium calculations.

Phase Equilibria

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Author : Andre Muhlbauer
Publisher : CRC Press
ISBN 13 : 9781560325505
Total Pages : 490 pages
Book Rating : 4.3/5 (255 download)

Book Synopsis Phase Equilibria by : Andre Muhlbauer

Download or read book Phase Equilibria written by Andre Muhlbauer and published by CRC Press. This book was released on 1997-09-01 with total page 490 pages. Available in PDF, EPUB and Kindle. Book excerpt: This new book provides, for the first time, a thorough survey of the techniques and equipment for both high- and low-pressure phase equilibrium measurement and addresses the equally challenging task of accurately modeling or predicting the equilibria. The book is unique because it combines in depth and authoritative coverage of both experimental and theoretical procedures in a single volume. Written as a reference for practicing engineers and scientists in the chemical engineering field, this book will also be useful as an advanced graduate-level text.

Directory of Graduate Research

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Author : American Chemical Society. Committee on Professional Training
Publisher :
ISBN 13 :
Total Pages : 1932 pages
Book Rating : 4.:/5 (318 download)

Book Synopsis Directory of Graduate Research by : American Chemical Society. Committee on Professional Training

Download or read book Directory of Graduate Research written by American Chemical Society. Committee on Professional Training and published by . This book was released on 2005 with total page 1932 pages. Available in PDF, EPUB and Kindle. Book excerpt: Faculties, publications and doctoral theses in departments or divisions of chemistry, chemical engineering, biochemistry and pharmaceutical and/or medicinal chemistry at universities in the United States and Canada.

Phase Equilibrium Engineering

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Author : Esteban Brignole
Publisher : Elsevier Inc. Chapters
ISBN 13 : 0128082658
Total Pages : 57 pages
Book Rating : 4.1/5 (28 download)

Book Synopsis Phase Equilibrium Engineering by : Esteban Brignole

Download or read book Phase Equilibrium Engineering written by Esteban Brignole and published by Elsevier Inc. Chapters. This book was released on 2013-04-02 with total page 57 pages. Available in PDF, EPUB and Kindle. Book excerpt: The benefits of using SCF as reaction media have promoted an intense research and development activity in this field. In this chapter, several case studies demonstrate the advantages of working under supercritical conditions. In particular, gas–liquid catalyzed reactions are one of the areas where the use of supercritical fluids is very attractive. In general, these reactions are diffusion-controlled and the use of supercritical fluids increases the reaction rate by eliminating the gas–liquid interface. In this chapter also, the interesting properties of operation under near-critical conditions are analyzed: higher solubility of reactants and products in the supercritical phase, reduced deposition of reacting components on the catalyst pores, diffusion coefficients higher than in liquids, independent control of the concentration of permanent gases like H2, O2, or CO in the reaction mixture, higher thermal capacity, and low interfacial tension The hydrogenation of low volatile liquids, using solid–fluid heterogeneous catalysts, is presented to show the advantages of working under supercritical conditions. In this case study, the selection of the process conditions that guarantees operation under a supercritical single-phase state is discussed as a typical phase equilibrium engineering problem. Finally, for reactions in which the SCF plays a role not only as solvent but also as a reactant, the problem of phase condition design and cosolvent selection is addressed.

A Coupled, Two-phase Fluid-sediment Material Model and Mixture Theory Implemented Using the Material Point Method

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Author : Aaron S. Baumgarten
Publisher :
ISBN 13 :
Total Pages : 118 pages
Book Rating : 4.:/5 (15 download)

Book Synopsis A Coupled, Two-phase Fluid-sediment Material Model and Mixture Theory Implemented Using the Material Point Method by : Aaron S. Baumgarten

Download or read book A Coupled, Two-phase Fluid-sediment Material Model and Mixture Theory Implemented Using the Material Point Method written by Aaron S. Baumgarten and published by . This book was released on 2018 with total page 118 pages. Available in PDF, EPUB and Kindle. Book excerpt: A thermodynamically consistent constitutive model for fluid-saturated sediments, spanning dense to dilute regimes is developed from the integral form of the basic balance laws for two-phase mixtures. This model is formulated to capture the (i) viscous inertial rheology of wet grains under steady shear, (ii) the critical state behavior of granular materials under shear, (iii) the viscous thickening of fluid due to the presence of suspended grains, and (iv) the Darcy-like drag interaction for both dense and dilute mixtures. The full constitutive model is combined with the basic equations of motion for each mixture phase and implemented in the material point method (MPM) to accurately model the coupled dynamics of the combined system. Qualitative results show the breadth of problems, which this model can address. Quantitative results demonstrate the accuracy of this model as compared with analytical models and experimental observations.

Geochemical Self-organization

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Author : Peter J. Ortoleva
Publisher :
ISBN 13 :
Total Pages : 440 pages
Book Rating : 4.:/5 (318 download)

Book Synopsis Geochemical Self-organization by : Peter J. Ortoleva

Download or read book Geochemical Self-organization written by Peter J. Ortoleva and published by . This book was released on 1994 with total page 440 pages. Available in PDF, EPUB and Kindle. Book excerpt: This monograph offers an interdisciplinary approach to the analysis of geological systems which become spatially organized through the mediation of chemical processes. The treatment is based on a mathematical approach. The intended readership includes researchers and advanced undergraduate and graduate students in all branches of geology as well as scientists and mathematicians concerned with nonlinear dynamics, numerical analysis, self-organization, nonlinear waves and dynamics, and phase transition phenomena. The work could also serve as a basis for a special topics course in mathematics, chemistry or physics.

Guide to Modeling of Phase Change Phenomena in Chemical and Materials Engineering

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Author : Petr A. Nikrityuk
Publisher : VCH
ISBN 13 : 9783527349678
Total Pages : 0 pages
Book Rating : 4.3/5 (496 download)

Book Synopsis Guide to Modeling of Phase Change Phenomena in Chemical and Materials Engineering by : Petr A. Nikrityuk

Download or read book Guide to Modeling of Phase Change Phenomena in Chemical and Materials Engineering written by Petr A. Nikrityuk and published by VCH. This book was released on 2025-02-26 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Multiscale Simulation Framework for Coupled Fluid Flow and Mechanical Deformation

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Author :
Publisher :
ISBN 13 :
Total Pages : 9 pages
Book Rating : 4.:/5 (953 download)

Book Synopsis Multiscale Simulation Framework for Coupled Fluid Flow and Mechanical Deformation by :

Download or read book Multiscale Simulation Framework for Coupled Fluid Flow and Mechanical Deformation written by and published by . This book was released on 2016 with total page 9 pages. Available in PDF, EPUB and Kindle. Book excerpt: Our work in this project is aimed at making fundamental advances in multiscale methods for flow and transport in highly heterogeneous porous media. The main thrust of this research is to develop a systematic multiscale analysis and efficient coarse-scale models that can capture global effects and extend existing multiscale approaches to problems with additional physics and uncertainties. A key emphasis is on problems without an apparent scale separation. Multiscale solution methods are currently under active investigation for the simulation of subsurface flow in heterogeneous formations. These procedures capture the effects of fine-scale permeability variations through the calculation of specialized coarse-scale basis functions. Most of the multiscale techniques presented to date employ localization approximations in the calculation of these basis functions. For some highly correlated (e.g., channelized) formations, however, global effects are important and these may need to be incorporated into the multiscale basis functions. Other challenging issues facing multiscale simulations are the extension of existing multiscale techniques to problems with additional physics, such as compressibility, capillary effects, etc. In our project, we explore the improvement of multiscale methods through the incorporation of additional (single-phase flow) information and the development of a general multiscale framework for flows in the presence of uncertainties, compressible flow and heterogeneous transport, and geomechanics. We have considered (1) adaptive local-global multiscale methods, (2) multiscale methods for the transport equation, (3) operator-based multiscale methods and solvers, (4) multiscale methods in the presence of uncertainties and applications, (5) multiscale finite element methods for high contrast porous media and their generalizations, and (6) multiscale methods for geomechanics.

Modelling and Simulation of Phase Transformation-mechanics Coupling Using a Phase Field Method

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Author : Kais Ammar
Publisher :
ISBN 13 :
Total Pages : 159 pages
Book Rating : 4.:/5 (8 download)

Book Synopsis Modelling and Simulation of Phase Transformation-mechanics Coupling Using a Phase Field Method by : Kais Ammar

Download or read book Modelling and Simulation of Phase Transformation-mechanics Coupling Using a Phase Field Method written by Kais Ammar and published by . This book was released on 2010 with total page 159 pages. Available in PDF, EPUB and Kindle. Book excerpt: A general constitutive framework is proposed to incorporate linear and nonlinear mechanical behaviour laws (i.g. elastoviscoplasticity) into a standard phase field model. A finite element formulation of a coupled phase field/diffusion/mechanical problem for alloys is proposed within the general framework of continuum thermodynamics. This formulation is based on the concept of generalized stresses as proposed by Gurtin, where an additional balance equation for generalized stresses, called microforces, associated with the order parameter and its first gradient, is postulated. The formulation is used to simulate the complex morphological evolutions of the heterogeneous microstructures and to describe the diffuse interface between two phases in the presence of the stresses induced by phase transformation. Using the principles of the thermodynamics of irreversible processes, the balance and constitutive equations are clearly separated in the formulation. Also, boundary and initial conditions for the displacement, concentration and order parameter and their dual quantities are clearly stated within the formulation. The theory is shown to be well-suited for a finite element formulation of the initial boundary value problems on nite size specimens with arbitrary geometries and for very general non-periodic or periodic boundary conditions. In the diffuse interface region where both phases coexist, mixture rules taken from homogenization theory are introduced into the formulation. The consequences of the choice of a specific interface behaviour is investigated, with regard to the mechanical effect on phase equilibria (equilibrium compositions and volume fractions of the coexisting phases), as well as on the transformation kinetics. The set of coupled evolution equations, which are the local static equilibrium, the balance of generalized stresses and the balance of mass, is solved using a finite element method for the space discretization and a finite difference method for the temporal discretization. To validate the numerical finite element implementation and to illustrate the ability of the proposed model to handle precipitation together with mechanical contribution effect, some elementary initial boundary value problem in coupled diusion-elasto-plasticity on finite size specimens has been solved and validated against corresponding sharp interface analytical solutions.

Parallel Simulation of Coupled Flow and Geomechanics in Porous Media

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Author : Bin Wang
Publisher :
ISBN 13 :
Total Pages : 386 pages
Book Rating : 4.:/5 (9 download)

Book Synopsis Parallel Simulation of Coupled Flow and Geomechanics in Porous Media by : Bin Wang

Download or read book Parallel Simulation of Coupled Flow and Geomechanics in Porous Media written by Bin Wang and published by . This book was released on 2015 with total page 386 pages. Available in PDF, EPUB and Kindle. Book excerpt: In this research we consider developing a reservoir simulator capable of simulating complex coupled poromechanical processes on massively parallel computers. A variety of problems arising from petroleum and environmental engineering inherently necessitate the understanding of interactions between fluid flow and solid mechanics. Examples in petroleum engineering include reservoir compaction, wellbore collapse, sand production, and hydraulic fracturing. In environmental engineering, surface subsidence, carbon sequestration, and waste disposal are also coupled poromechanical processes. These economically and environmentally important problems motivate the active pursuit of robust, efficient, and accurate simulation tools for coupled poromechanical problems. Three coupling approaches are currently employed in the reservoir simulation community to solve the poromechanics system, namely, the fully implicit coupling (FIM), the explicit coupling, and the iterative coupling. The choice of the coupling scheme significantly affects the efficiency of the simulator and the accuracy of the solution. We adopt the fixed-stress iterative coupling scheme to solve the coupled system due to its advantages over the other two. Unlike the explicit coupling, the fixed-stress split has been theoretically proven to converge to the FIM for linear poroelasticity model. In addition, it is more efficient and easier to implement than the FIM. Our computational results indicate that this approach is also valid for multiphase flow. We discretize the quasi-static linear elasticity model for geomechanics in space using the continuous Galerkin (CG) finite element method (FEM) on general hexahedral grids. Fluid flow models are discretized by locally mass conservative schemes, specifically, the mixed finite element method (MFE) for the equation of state compositional flow on Cartesian grids and the multipoint flux mixed finite element method (MFMFE) for the single phase and two-phase flows on general hexahedral grids. While both the MFE and the MFMFE generate cell-centered stencils for pressure, the MFMFE has advantages in handling full tensor permeabilities and general geometry and boundary conditions. The MFMFE also obtains accurate fluxes at cell interfaces. These characteristics enable the simulation of more practical problems. For many reservoir simulation applications, for instance, the carbon sequestration simulation, we need to account for thermal effects on the compositional flow phase behavior and the solid structure stress evolution. We explicitly couple the poromechanics equations to a simplified energy conservation equation. A time-split scheme is used to solve heat convection and conduction successively. For the convection equation, a higher order Godunov method is employed to capture the sharp temperature front; for the conduction equation, the MFE is utilized. Simulations of coupled poromechanical or thermoporomechanical processes in field scales with high resolution usually require parallel computing capabilities. The flow models, the geomechanics model, and the thermodynamics model are modularized in the Integrated Parallel Accurate Reservoir Simulator (IPARS) which has been developed at the Center for Subsurface Modeling at the University of Texas at Austin. The IPARS framework handles structured (logically rectangular) grids and was originally designed for element-based data communication, such as the pressure data in the flow models. To parallelize the node-based geomechanics model, we enhance the capabilities of the IPARS framework for node-based data communication. Because the geomechanics linear system is more costly to solve than those of flow and thermodynamics models, the performance of linear solvers for the geomechanics model largely dictates the speed and scalability of the coupled simulator. We use the generalized minimal residual (GMRES) solver with the BoomerAMG preconditioner from the hypre library and the geometric multigrid (GMG) solver from the UG4 software toolbox to solve the geomechanics linear system. Additionally, the multilevel k-way mesh partitioning algorithm from METIS is used to generate high quality mesh partitioning to improve solver performance. Numerical examples of coupled poromechanics and thermoporomechanics simulations are presented to show the capabilities of the coupled simulator in solving practical problems accurately and efficiently. These examples include a real carbon sequestration field case with stress-dependent permeability, a synthetic thermoporoelastic reservoir simulation, poroelasticity simulations on highly distorted hexahedral grids, and parallel scalability tests on a massively parallel computer.

Phase Behavior

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Author : Curtis H. Whitson
Publisher : Society of Petroleum Engineers
ISBN 13 :
Total Pages : 248 pages
Book Rating : 4.0/5 ( download)

Book Synopsis Phase Behavior by : Curtis H. Whitson

Download or read book Phase Behavior written by Curtis H. Whitson and published by Society of Petroleum Engineers. This book was released on 2000 with total page 248 pages. Available in PDF, EPUB and Kindle. Book excerpt: Phase Behavior provides the reader with the tools needed to solve problems requiring a description of phase behavior and specific pressure/volume/temperature (PVT) properties.

Numerical Simulations of Supercritical Water-hydrocarbon Mixing in a 3-D Cylindrical Tee Mixer

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Author : Ashwin Raghavan (S.M.)
Publisher :
ISBN 13 :
Total Pages : 171 pages
Book Rating : 4.:/5 (88 download)

Book Synopsis Numerical Simulations of Supercritical Water-hydrocarbon Mixing in a 3-D Cylindrical Tee Mixer by : Ashwin Raghavan (S.M.)

Download or read book Numerical Simulations of Supercritical Water-hydrocarbon Mixing in a 3-D Cylindrical Tee Mixer written by Ashwin Raghavan (S.M.) and published by . This book was released on 2014 with total page 171 pages. Available in PDF, EPUB and Kindle. Book excerpt: Supercritical water upgrading and desulfurization (SCWUDS) is a new concept in the oil refining industry wherein, crude oil is mixed with supercritical water in a reactor leading to chemical breakdown of the sulfur containing compounds (desulfurization) and cracking of long chain hydrocarbons to shorter chain compounds closer to commercial fuel components (upgrading). The focus of the present work is the development of a numerical tool to investigate the mixing of water and hydrocarbons under supercritical fully-miscible conditions (water and hydrocarbon forming a single phase) in a realistic 3-D cylindrical tee mixer geometry so as to develop an understanding of the effects of geometry, flow rates and fluid properties on the mixing dynamics which in turn will influence the rate of thermal cracking reactions of hydrocarbons and organosulfur compounds as well as the final product distributions. This work includes a consistent treatment of near-critical thermodynamics and transport property variations of real fluid mixtures. A Peng-Robinson EoS with simple van der Waals mixing rules is employed to model the near-critical thermodynamic behavior, with the mixture binary interaction parameter obtained from a Predictive Peng-Robinson approach using a group contribution method (PPR78). A 2nd order accurate finite-volume methodology is used for the numerical solution of the conservation equations. The developed numerical tool was used to investigate the mixing of supercritical water and a model hydrocarbon (n-decane) in a small-scale cylindrical tee mixer (pipe ID = 2.4mm) under fully miscible conditions. For a Reynolds number at the water inlet of 500 and a [delta]T between the two streams of l00K (Tw,in = 800K, Td,in= 700K), the flow downstream of the mixing joint remained laminar. Most of the mixing and heat transport occurs due to the circulating action of a counter-rotating vortex pair (CVP) in the hydrocarbon jet formed due to the reorientation of the vorticity preexisting in the hydrocarbon stream flowing through the vertical pipe. This CVP gets progressively weaker as it is advected downstream, due to vorticity diffusion and species and heat transport is dominated by molecular diffusion over small length scales in the far downstream region. Consequently, the mixing rate plateaus in the far downstream region of the tee mixer. Near-critical property variations were found to have a negligible impact on the flow field and mixing behavior under these conditions. However, for a 300K temperature difference between the two streams (Tw,in = 1000K, Td,in = 700K), the water-HC shear layer becomes unstable and rolls up downstream of 5 diameter lengths from the mixing joint. The onset of instability in the shear layer also triggers the stretching and breakdown of the hydrocarbon jet CVP leading to a significant enhancement in mixing manifested as a jump in the mixing rate and a thickening of the mean mixing layer. However, water n-decane mixing under identical inlet conditions but with constant physical properties, showed a stable shear layer with the flow reaching steady state. For a large [delta]T between the streams of 300K, the strong density increase (due to cooling of the water component) and the strong viscosity decrease (due to heating of the n-decane component) leads to a local increase in the Re within the mixing layer, resulting in the instability of the shear layer. SCW n-decane mixing with [delta]T = l00K was also simulated for increasingly higher Reynolds numbers up to the transition to turbulence. When the Reynolds number at the water inlet is increased to 700, the shear layer between the water and n-decane streams is found to become unstable near x = 6D downstream of the mixing joint followed by the subsequent roll up of the shear layer. The local increase of Re within the mixing layer due to mechanisms similar to the [delta]T = 300K case was found to be the cause of the shear layer instability. At Rew,in = 800 the unsteady small scale flow structures in the mixing layer and the consequent flow field fluctuations due to them are much stronger. The stretching and breakdown of the CVP in this case, is accompanied by stronger streamwise vorticity enhancement resulting in much faster mixing compared to the case of Rew,in = 700.

Stochastic Subsurface Hydrology

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Author : L. W. Gelhar
Publisher : Prentice Hall
ISBN 13 :
Total Pages : 408 pages
Book Rating : 4.F/5 ( download)

Book Synopsis Stochastic Subsurface Hydrology by : L. W. Gelhar

Download or read book Stochastic Subsurface Hydrology written by L. W. Gelhar and published by Prentice Hall. This book was released on 1993 with total page 408 pages. Available in PDF, EPUB and Kindle. Book excerpt: This volume describes new stochastic subsurface hydrology techniques and results and examines the basic stochastic methods used to treat flow and contaminant transport in naturally heterogeneous permeable earth materials.