Fast And Robust Phase Behavior Modeling For Compositional Reservoir Simulation

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Fast and Robust Phase Behavior Modeling for Compositional Reservoir Simulation

Author : Yinghui Li
Publisher :
ISBN 13 :
Total Pages : 203 pages
Book Rating : 4.:/5 (833 download)

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Book Synopsis Fast and Robust Phase Behavior Modeling for Compositional Reservoir Simulation by : Yinghui Li

Download or read book Fast and Robust Phase Behavior Modeling for Compositional Reservoir Simulation written by Yinghui Li and published by . This book was released on 2007 with total page 203 pages. Available in PDF, EPUB and Kindle. Book excerpt: A significant percentage of computational time in compositional simulations is spent performing flash calculations to determine the equilibrium compositions of hydrocarbon phases in situ. Flash calculations must be done at each time step for each grid block; thus billions of such calculations are possible. It would be very important to reduce the computational time of flash calculations significantly so that more grid blocks or components may be used. In this dissertation, three different methods are developed that yield fast, robust and accurate phase behavior calculations useful for compositional simulation and other applications. The first approach is to express the mixing rule in equations-of-state (EOS) so that a flash calculation is at most a function of six variables, often referred to as reduced parameters, regardless of the number of pseudocomponents. This is done without sacrificing accuracy and with improved robustness compared with the conventional method. This approach is extended for flash calculations with three or more phases. The reduced method is also derived for use in stability analysis, yielding significant speedup. The second approach improves flash calculations when K-values are assumed constant. We developed a new continuous objective function with improved linearity and specified a small window in which the equilibrium compositions must lie. The calculation speed and robustness of the constant K-value flash are significantly improved. This new approach replaces the Rachford-Rice procedure that is embedded in the conventional flash calculations. In the last approach, a limited compositional model for ternary systems is developed using a novel transformation method. In this method, all tie lines in ternary systems are first transformed to a new compositional space where all tie lines are made parallel. The binodal curves in the transformed space are regressed with any accurate function. Equilibrium phase behavior calculations are then done in this transformed space non-iteratively. The compositions in the transformed space are translated back to the actual compositional space. The new method is very fast and robust because no iteration is required and thus always converges even at the critical point because it is a direct method. The implementation of some of these approaches into compositional simulators, for example UTCOMP or GPAS, shows that they are faster than conventional flash calculations, without sacrificing simulation accuracy. For example, the implementation of the transformation method into UTCOMP shows that the new method is more than ten times faster than conventional flash calculations.

Physics and Deep Learning Based Methods for Compositional Reservoir Simulation

Author : Ruixiao Sun
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (122 download)

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Book Synopsis Physics and Deep Learning Based Methods for Compositional Reservoir Simulation by : Ruixiao Sun

Download or read book Physics and Deep Learning Based Methods for Compositional Reservoir Simulation written by Ruixiao Sun and published by . This book was released on 2020 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Gas injection processes for enhanced oil recovery are modeled using numerical compositional simulation. These complex displacement processes entail the mass transfer of large numbers of components among multiple fluid phases. The phase behavior is described using thermodynamic equilibrium constraints. The solution of these constraints yields the phase state and the composition of the different fluid phases that share the pore space. The accuracy and efficiency of the phase behavior computations are essential for using compositional simulation for problems of practical interest. We extend our in-house research simulator (AD-GPRS) to model general three-phase fluid mixtures. Therefore, this simulator can describe the three-phase gas injection process with water existence. In the three-phase compositional simulation, every component is allowed to exist and transfer among hydrocarbon and aqueous phases. We validate the compositional simulation by comparison with a commercial simulator's results and refinement studies. We demonstrate the robust performance of the three-phase compositional simulator by extensive test cases. Thermodynamic calculations require extensive computations, which will be significantly increased as more components involved in the reservoir fluids. Therefore, the acceleration of compositional simulation is crucial to explore after the robustness is preserved. We develop two deep-learning based models for stability analysis and flash calculation separately, to reduce the cost of thermodynamic calculations. We systematically present the process of data generation, training, and model optimization, which unravels some of the mysteries surrounding the theory and application of data-driven methods in reservoir simulation. Then the robustness and accuracy of two deep-learning-based models are verified by various case tests. Besides, incorrectly labeled phases could cause phase oscillations during simulation, further leading to the failure in numerical convergence. The main challenge for currently published methods is to keep a balance between computational costs and correctness in compositional simulation. Here, we propose a mixed methodology based on deep-learning techniques and straightforward geometrical principles. We use several case studies to show that this method can ensure accuracy and efficiency at the same time. What is more, we pioneer the application of deep-learning-based techniques in compositional simulations to accelerate computational speed. Notably, we present a strategy to batch mixtures together as one whole input vector for a deep-learning-based model, referred to as the vectorization. This technique allows the phase module to determine phase behaviors for abundant grid cells simultaneously, eliminating the iteration process in traditional compositional simulation. Improvements in computational speed are examined by a series of challenging cases on immiscible and miscible displacements. With in-depth analyses of performances, we demonstrate the robustness and strength of deep-learning-based techniques in accelerating compositional simulation computations.

Improvements in Phase Behavior Modeling for Compositional Simulation

Author : Mohsen Rezaveisi
Publisher :
ISBN 13 :
Total Pages : 690 pages
Book Rating : 4.:/5 (91 download)

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Book Synopsis Improvements in Phase Behavior Modeling for Compositional Simulation by : Mohsen Rezaveisi

Download or read book Improvements in Phase Behavior Modeling for Compositional Simulation written by Mohsen Rezaveisi and published by . This book was released on 2015 with total page 690 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Modeling of Multiphase Behavior for Gas Flooding Simulation

Author : Ryosuke Okuno
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (852 download)

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Book Synopsis Modeling of Multiphase Behavior for Gas Flooding Simulation by : Ryosuke Okuno

Download or read book Modeling of Multiphase Behavior for Gas Flooding Simulation written by Ryosuke Okuno and published by . This book was released on 2009 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Miscible gas flooding is a common method for enhanced oil recovery. Reliable design of miscible gas flooding requires compositional reservoir simulation that can accurately predict the fluid properties resulting from mass transfer between reservoir oil and injection gas. Drawbacks of compositional simulation are the efficiency and robustness of phase equilibrium calculations consisting of flash calculations and phase stability analysis. Simulation of multicontact miscible gas flooding involves a large number of phase equilibrium calculations in a near-critical region, where the calculations are time-consuming and difficult. Also, mixtures of reservoir oil and solvent such as CO2 and rich gas can exhibit complex phase behavior at temperatures typically below 120°F, where three hydrocarbon-phases can coexist. However, most compositional simulators do not attempt to solve for three hydrocarbon-phases because three-phase equilibrium calculations are more complicated, difficult, and time-consuming than traditional two-phase equilibrium calculations. Due to the lack of robust algorithms for three-phase equilibrium calculations, the effect of a third hydrocarbon-phase on low-temperature oil displacement is little known. We develop robust and efficient algorithms for phase equilibrium calculations for two and three phases. The algorithms are implemented in a compositional reservoir simulator. Simulation case studies show that our algorithms can significantly decrease the computational time without loss of accuracy. Speed-up of 40% is achieved for a reservoir simulation using 20 components, compared to standard algorithms. Speed-up occurs not only because of improved computational efficiency but also because of increased robustness resulting in longer time-step sizes. We demonstrate the importance of three-phase equilibrium calculations, where simulations with two-phase equilibrium approximations proposed in the literature can result in complete failure or erroneous simulation results. Using the robust phase equilibrium algorithms developed, the mechanism is investigated for high efficiency of low-temperature oil displacements by CO2 involving three hydrocarbon-phases. Results show that high displacement efficiency can be achieved when the composition path goes near the critical endpoint where the gaseous and CO2-rich liquid phases merge in the presence of the oleic phase. Complete miscibility may not be developed for three-phase flow without considering the existence of a tricritical point.

Equation of state phase behavior modeling for compositional simulation

Author : Douglas Roger Perschke
Publisher :
ISBN 13 :
Total Pages : 912 pages
Book Rating : 4.:/5 (212 download)

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Book Synopsis Equation of state phase behavior modeling for compositional simulation by : Douglas Roger Perschke

Download or read book Equation of state phase behavior modeling for compositional simulation written by Douglas Roger Perschke and published by . This book was released on 1988 with total page 912 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Phase Behavior of Petroleum Reservoir Fluids

Author : Karen Schou Pedersen
Publisher : CRC Press
ISBN 13 : 1439852278
Total Pages : 463 pages
Book Rating : 4.4/5 (398 download)

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Book Synopsis Phase Behavior of Petroleum Reservoir Fluids by : Karen Schou Pedersen

Download or read book Phase Behavior of Petroleum Reservoir Fluids written by Karen Schou Pedersen and published by CRC Press. This book was released on 2014-12-18 with total page 463 pages. Available in PDF, EPUB and Kindle. Book excerpt: Developed in conjunction with several oil companies using experimental data for real reservoir fluids, Phase Behavior of Petroleum Reservoir Fluids introduces industry standard methods for modeling the phase behavior of petroleum reservoir fluids at different stages in the process. Keeping mathematics to a minimum, this book discusses sampling, cha

Advanced Modeling with the MATLAB Reservoir Simulation Toolbox

Author : Knut-Andreas Lie
Publisher : Cambridge University Press
ISBN 13 : 1009022490
Total Pages : 625 pages
Book Rating : 4.0/5 (9 download)

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Book Synopsis Advanced Modeling with the MATLAB Reservoir Simulation Toolbox by : Knut-Andreas Lie

Download or read book Advanced Modeling with the MATLAB Reservoir Simulation Toolbox written by Knut-Andreas Lie and published by Cambridge University Press. This book was released on 2021-11-25 with total page 625 pages. Available in PDF, EPUB and Kindle. Book excerpt: Many leading experts contribute to this follow-up to An Introduction to Reservoir Simulation using MATLAB/GNU Octave: User Guide for the MATLAB Reservoir Simulation Toolbox (MRST). It introduces more advanced functionality that has been recently added to the open-source MRST software. It is however a self-contained introduction to a variety of modern numerical methods for simulating multiphase flow in porous media, with applications to geothermal energy, chemical enhanced oil recovery (EOR), flow in fractured and unconventional reservoirs, and in the unsaturated zone. The reader will learn how to implement new models and algorithms in a robust, efficient manner. A large number of numerical examples are included, all fully equipped with code and data so that the reader can reproduce the results and use them as a starting point for their own work. Like the original textbook, this book will prove invaluable for researchers, professionals and advanced students using reservoir simulation methods. This title is available as Open Access on Cambridge Core.

Petroleum Fluid Phase Behavior

Author : Raj Deo Tewari
Publisher : CRC Press
ISBN 13 : 1351857231
Total Pages : 412 pages
Book Rating : 4.3/5 (518 download)

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Book Synopsis Petroleum Fluid Phase Behavior by : Raj Deo Tewari

Download or read book Petroleum Fluid Phase Behavior written by Raj Deo Tewari and published by CRC Press. This book was released on 2018-12-14 with total page 412 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book deals with complex fluid characterization of oil and gas reservoirs, emphasizing the importance of PVT parameters for practical application in reservoir simulation and management. It covers modeling of PVT parameters, QA/QC of PVT data from lab studies, EOS modeling, PVT simulation and compositional grading and variation. It describes generation of data for reservoir engineering calculations in view of limited and unreliable data and techniques like downhole fluid analysis and photophysics of reservoir fluids. It discusses behavior of unconventional reservoirs, particularly for difficult resources like shale gas, shale oil, coalbed methane, reservoirs, heavy and extra heavy oils.

Phase Behavior Modelling and Compositional Simulation of Asphaltene Depositon in Reservoirs

Author : Long X. Nghiem
Publisher :
ISBN 13 :
Total Pages : 208 pages
Book Rating : 4.:/5 (75 download)

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Book Synopsis Phase Behavior Modelling and Compositional Simulation of Asphaltene Depositon in Reservoirs by : Long X. Nghiem

Download or read book Phase Behavior Modelling and Compositional Simulation of Asphaltene Depositon in Reservoirs written by Long X. Nghiem and published by . This book was released on 1999 with total page 208 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Dissertation Abstracts International

Author :
Publisher :
ISBN 13 :
Total Pages : 810 pages
Book Rating : 4.F/5 ( download)

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Book Synopsis Dissertation Abstracts International by :

Download or read book Dissertation Abstracts International written by and published by . This book was released on 2009 with total page 810 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Advanced Nonlinear Techniques for Compositional Reservoir Simulation

Author : Ouassim Khebzegga
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (12 download)

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Book Synopsis Advanced Nonlinear Techniques for Compositional Reservoir Simulation by : Ouassim Khebzegga

Download or read book Advanced Nonlinear Techniques for Compositional Reservoir Simulation written by Ouassim Khebzegga and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Reservoir simulation using high-fidelity fluid models is typically employed to study subsurface displacement processes that involve complex physics. Such processes are highly nonlinear and they occur at the interplay of phase thermodynamics (phase stability and split), and rock/fluid interaction (relative-permeability). Accurate modeling of these processes requires considerable storage and computational resources. In this work, we focus on improving the nonlinear behavior of compositional simulation using two approaches: (1) understanding the nonlinearities related to flow and transport of compositional models, and proposing a robust and efficient solver, and (2) improving the portrayal of the physics of compositional models by designing a consistent and robust relative permeability model. To better characterize the convergence failures of compositional nonlinear solvers, we study the analytical and discrete forms of the component flux functions for the transport problem. We focus on isothermal, two-hydrocarbon phase models in the presence of viscous forces. As described in the literature, our analysis shows that the component flux function exhibits both kinks and inflection points. We study the kinks due to the crossing of phase boundaries, and we show their impact on residual terms. We, then, investigate the location, direction, and evolution of the inflection loci inside the two phase region. Our findings suggest that these inflection loci may exhibit complex features, as a result of which an a priori determination of such loci is computationally prohibitive. We propose a nonlinear solver that detects phase boundaries and guides the Newton update to avoid crossing these boundaries. Our numerical results show that this phase change detection solver has superior performance in comparison with both standard Newton solver and Newton solver with Appleyard chop for a wide range of cases. Due to its nonlinearity, relative-permeability is an important constitutive of the conservation equations and has a significant impact on the performance of a simulation model. Dependence of the phase relative-permeability on fluid compositions, pressure, and temperature is well-documented. In compositional reservoir simulation, however, relative-permeability is typically modeled as a function of phase saturation. Such an approach may lead to serious discontinuities in relative-permeability. To alleviate this issue, several authors have proposed models based on phase state indicators (density, parachor, Gibbs Free Energy). However, such techniques cannot represent the complete degrees of freedom that are exhibited by compositional displacements. In this work, we present a relative-permeability model based on a parameterization of the compositional space. The model is independent of the hydrocarbon phase labeling as gas or oil. We show that our proposed model (1) applies regardless of the degrees-of-freedom of the compositional displacement problem, and (2) is guaranteed to yield a continuous relative-permeability function across the entire compositional space. We have implemented this model in our research simulator, and we present test cases using traditional relative-permeability models, as well as, numerical results that compare the nonlinear performance.

SPE Journal

Author :
Publisher :
ISBN 13 :
Total Pages : 448 pages
Book Rating : 4.F/5 ( download)

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Book Synopsis SPE Journal by :

Download or read book SPE Journal written by and published by . This book was released on 2009 with total page 448 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Multiphase Equilibria of Complex Reservoir Fluids

Author : Huazhou Li
Publisher : Springer Nature
ISBN 13 : 3030874400
Total Pages : 220 pages
Book Rating : 4.0/5 (38 download)

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Book Synopsis Multiphase Equilibria of Complex Reservoir Fluids by : Huazhou Li

Download or read book Multiphase Equilibria of Complex Reservoir Fluids written by Huazhou Li and published by Springer Nature. This book was released on 2021-10-30 with total page 220 pages. Available in PDF, EPUB and Kindle. Book excerpt: This short monograph focuses on the theoretical backgrounds and practical implementations concerning the thermodynamic modeling of multiphase equilibria of complex reservoir fluids using cubic equations of state. It aims to address the increasing needs of multiphase equilibrium calculations that arise in the compositional modeling of multiphase flow in reservoirs and wellbores. It provides a state-of-the-art coverage on the recent improvements of cubic equations of state. Considering that stability test and flash calculation are two basic tasks involved in any multiphase equilibrium calculations, it elaborates on the rigorous mathematical frameworks dedicated to stability test and flash calculation. A special treatment is given to the new algorithms that are recently developed to perform robust and efficient three-phase equilibrium calculations. This monograph will be of value to graduate students who conduct research in the field of phase behavior, as well as software engineers who work on the development of multiphase equilibrium calculation algorithms.

Development of a Compositional Reservoir Simulator for Asphaltene Precipitation Based on a Thermodynamically Consistent Model

Author : Karin G Gonzalez Abad
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (871 download)

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Book Synopsis Development of a Compositional Reservoir Simulator for Asphaltene Precipitation Based on a Thermodynamically Consistent Model by : Karin G Gonzalez Abad

Download or read book Development of a Compositional Reservoir Simulator for Asphaltene Precipitation Based on a Thermodynamically Consistent Model written by Karin G Gonzalez Abad and published by . This book was released on 2013 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: A rigorous three-phase asphaltene precipitation model was implemented into a compositional reservoir simulator to represent and estimate the reduction of porosity and permeability responsible for productivity impairment. Previous modeling techniques were computationally inefficient, showed thermodynamic inconsistencies, or required special laboratory experiments to characterize the fluid. The approach developed in this study uses a cubic equation of state to solve for vapor/liquid/liquid equilibrium (VLLE), where asphaltene is the denser liquid phase. Precipitation from the liquid mixture occurs as its solubility is reduced either by changes in pressure (natural depletion), or composition (i.e. mixing resulting from gas injection). The dynamic relationship between phase composition, pressure, and porosity/permeability is modeled with a finite differences reservoir simulator and solved using an implicit-pressure, explicit-saturations and explicit-compositions (IMPESC) direct sequential method. The robustness of this model is validated by the ability to reproduce experimental asphaltene precipitation data while predicting the expected phase behavior envelope and response to key thermodynamic variables (i.e. type of components and composition, pressure and, temperature). The three-phase VLLE flash provides superior thermodynamic predictions compared to existing commercial techniques. Computer performance analysis showed that the model has a comparable cost to existing asphaltene precipitation models, taking only 1.1 more time to calculate but requiring fewer tunable parameters. The VLLE flash was in average 4.47 times slower compared to a conventional two-phase vapor/liquid flash. This model has the speed of a flash calculation while maintaining thermodynamic consistency, enabling efficient optimization of reservoir development strategies to mitigate the detrimental effects of asphaltene precipitation on productivity. The electronic version of this dissertation is accessible from http://hdl.handle.net/1969.1/151068

A Collection of Papers on Chaos Theory and Its Applications

Author : Paul Bracken
Publisher : BoD – Books on Demand
ISBN 13 : 1839628588
Total Pages : 265 pages
Book Rating : 4.8/5 (396 download)

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Book Synopsis A Collection of Papers on Chaos Theory and Its Applications by : Paul Bracken

Download or read book A Collection of Papers on Chaos Theory and Its Applications written by Paul Bracken and published by BoD – Books on Demand. This book was released on 2021-04-14 with total page 265 pages. Available in PDF, EPUB and Kindle. Book excerpt: This current volume contains 12 new papers on the subject of chaos in the physical sciences, which was initiated with the publication of the book Research Advances in Chaos Theory. It is clear the subject continues to attract a great deal of attention among scientists in the scientific community. This volume looks at such problems as chaos in nonlinear systems, in dynamical systems, quantum chaos, biological applications, and a few new emerging areas as well.

Reduced-order Modeling for Oil-water and Compositional Systems, with Application to Data Assimilation and Production Optimization

Author : Jincong He
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (864 download)

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Book Synopsis Reduced-order Modeling for Oil-water and Compositional Systems, with Application to Data Assimilation and Production Optimization by : Jincong He

Download or read book Reduced-order Modeling for Oil-water and Compositional Systems, with Application to Data Assimilation and Production Optimization written by Jincong He and published by . This book was released on 2013 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Reservoir simulation of realistic systems can be computationally demanding because of the large number of system unknowns and the intrinsic nonlinearity of typical problems. Compositional simulation, in which multiple components and complex phase behavior are present, can be particularly challenging. The high computational cost of reservoir simulation represents a substantial issue for applications such as production optimization and history matching, in which hundreds or thousands of simulation runs must be performed. Reduced-order modeling represents a promising approach for accelerating the simulations required for these important applications. In this work, we focus on the development and application of a reduced-order modeling technique called POD-TPWL, which combines trajectory piecewise linearization (TPWL) and proper orthogonal decomposition (POD) to provide highly efficient surrogate models. The POD-TPWL method expresses new solutions in terms of linearizations around states generated (and saved) during previously simulated "training" runs. High-dimensional states (e.g., pressure and saturation in every grid block in an oil-water problem) are projected optimally into a low-dimensional subspace using POD. We first consider the application of POD-TPWL for data assimilation (or history matching) in oil-water systems. The POD-TPWL model developed for this application represents simulation results for new geological realizations in terms of a linearization around training cases. Geological models are expressed in reduced terms using a Karhunen-Loeve expansion of the log-transmissibility field. Thus, both the reservoir states (represented using POD) and geological parameters are described very concisely. The reduced-order representation of flow and geology is appropriate for use with ensemble-based data assimilation procedures, and here it is incorporated into an ensemble Kalman filter (EnKF) framework to enrich the ensemble at relatively low cost. The method is able to reconstruct full-order states, which are required by EnKF, whenever necessary. The combined technique enables EnKF to be applied using many fewer high-fidelity reservoir simulations than would otherwise be required to avoid ensemble collapse. For two and three-dimensional example cases, EnKF results using 50 high-fidelity simulations along with 150 POD-TPWL simulations are shown to be much better than those using only 50 high-fidelity simulations (for which ensemble collapse is observed) and are, in fact, generally comparable to the results achieved using 200 high-fidelity simulations. We next develop a POD-TPWL methodology for oil-gas compositional systems. This model is based on the molar formulation in Stanford's General Purpose Research Simulator with Automatic Differentiation, AD-GPRS, which uses pressure and overall component mole fractions as the primary unknowns. Several new features, including the application of a Petrov-Galerkin projection to reduce the number of equations (rather than the Galerkin projection, which was used previously), and a new procedure for determining which saved state to use for linearization, are incorporated into the method. Results are presented for heterogeneous three-dimensional reservoir models with up to six hydrocarbon components. Reasonably close agreement between full-order reference solutions and compositional POD-TPWL simulations is demonstrated for the cases considered. Construction of the POD-TPWL model requires preprocessing overhead computations equivalent to about three to four full-order runs. Runtime speedups using POD-TPWL are, however, very significant -- about a factor of 500-800 for the cases considered. The POD-TPWL model is thus well suited for use in computational optimization, in which many simulations must be performed, and we present examples demonstrating its application for such problems. Finally, we investigate the accuracy and stability of different constraint reduction treatments for POD-TPWL models. Following an error analysis of the general POD-TPWL representation, two projection methods, namely Galerkin projection and Petrov-Galerkin projection, are derived by minimizing the constraint reduction error under different norms. These projection methods are assessed computationally for oil-water and compositional systems. For oil-water systems, Galerkin projection combined with a stabilization procedure is generally more accurate than Petrov-Galerkin projection, though even with this stabilization Galerkin projection is not guaranteed to be stable at all time steps. For compositional systems, the POD-TPWL model with Galerkin projection exhibits poor stability, while Petrov-Galerkin provides a consistently stable and robust POD-TPWL model. A hybrid procedure for oil-water systems, which applies different projections at different time steps to achieve both accuracy and stability, is presented. Two other constraint reduction methods, referred to as inverse projection and weighted inverse projection, are also formulated and tested. These approaches are computationally more expensive but do offer some theoretical advantages, and may be useful in realistic problems following further development.

Phase Behavior of Petroleum Reservoir Fluids

Author : Karen Schou Pedersen
Publisher : CRC Press
ISBN 13 : 9780824706944
Total Pages : 0 pages
Book Rating : 4.7/5 (69 download)

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Book Synopsis Phase Behavior of Petroleum Reservoir Fluids by : Karen Schou Pedersen

Download or read book Phase Behavior of Petroleum Reservoir Fluids written by Karen Schou Pedersen and published by CRC Press. This book was released on 2006-11-01 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Understanding the phase behavior of the various fluids present in a petroleum reservoir is essential for achieving optimal design and cost-effective operations in a petroleum processing plant. Taking advantage of the authors’ experience in petroleum processing under challenging conditions, Phase Behavior of Petroleum Reservoir Fluids introduces industry-standard methods for modeling the phase behavior of petroleum reservoir fluids at various stages in the process. Keeping mathematics to a minimum, the book discusses sampling, characterization, compositional analyses, and equations of state used to simulate various pressure–volume–temperature (PVT) properties of reservoir fluids. The coverage of phase behavior at reservoir conditions includes simulating minimum miscibility pressures and compositional variations depending on depth and temperature gradients. Developed in conjunction with several oil companies using experimental data for real reservoir fluids, the authors present new models for the characterization of heavy undefined hydrocarbons, transport properties, and solids precipitation. An up-to-date overview of recently developed methods for modern petroleum processing, Phase Behavior of Petroleum Reservoir Fluids presents a streamlined approach for more accurate analyses and better predictions of fluid behavior under variable reservoir conditions.