Unstructured Cut-Cell Grids for Modeling Complex Reservoirs

Mallison, Bradley T.; Sword, Charles H.; Viard, Thomas; Milliken, William J.; Cheng, Amy

doi:10.2118/163642-pa

Cited by 60 publications

(8 citation statements)

References 52 publications

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“…As a result, coarser model is developed to be used for dynamic simulation. In line with the above, various techniques have been proposed for calculating average grid value to be used for simulation grid (Aavatsmark et al 2010;Mallison et al 2014;Wu and Parashkevov 2010). Having obtained the grid ready for numerical simulation, the formulation of the reservoir dynamics begins.…”

Section: Literature Review Static and Dynamic Reservoir Modelingmentioning

confidence: 99%

Optimizing oil and gas field management through a fractal reservoir study model

Habib

Yao

Xie

et al. 2016

J Petrol Explor Prod Technol

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Integration among geophysics, geology, reservoir engineering, geochemists, geomechanics and management is truly essential, but needs some specific approaches and methodologies for developing and calibrating a study model capable of dealing with all and each of these aspects. The ability for a multitask project team to easily search, modify, visualize and/or analyze a multidisciplinary study results in a quick, responsive and easily comprehendible manner is still a problem of the petroleum industry. In this work, various modeling workflows were examined so as to highlight unavoidable interdependencies between these multidisciplinary specialists in the process of oil and/or gas reservoir studies. The traditional multidisciplinary working methods which were hitherto available are examined and some lapses identified. An optimized integrated study approach was further proposed. The optimized integrated approach is expected to have tremendous advantages in terms of improving the quality as well as flexibility of oil and gas reservoir studies, a working time reduction, and is expected to serve as a single final approach that can be adapted or used to tackle reservoir study problems.

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Section: Literature Review Static and Dynamic Reservoir Modelingmentioning

confidence: 99%

Optimizing oil and gas field management through a fractal reservoir study model

Habib

Yao

Xie

et al. 2016

J Petrol Explor Prod Technol

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“…Many so-called 'next-generation' simulators, developed commercially or academically, have successfully implemented fully unstructured grids that can be adapted to complex geological structures using the appropriate discretization technique, such as finite-element or multipoint flux methods (e.g. Lee et al 2002;Karimi-Fard et al 2004;Matthäi et al 2007;Flemisch et al 2011;Kolditz et al 2012;Lie et al 2012;Jackson et al 2013a, b;Moog 2013;Mallison et al 2014). These simulators have been applied to reservoirs, either as a standalone simulator or to augment the upscaling of heterogeneous and fractured carbonate reservoirs (e.g.…”

Section: Selected Advancesmentioning

confidence: 99%

Fundamental controls on fluid flow in carbonates: current workflows to emerging technologies

Agar

Geiger

2014

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The introduction reviews topics relevant to the fundamental controls on fluid flow in carbonate reservoirs and to the prediction of reservoir performance. The review provides research and industry contexts for papers in this volume only. A discussion of global context and frameworks emphasizes the value yet to be captured from compare and contrast studies. Multidisciplinary efforts highlight the importance of greater integration of sedimentology, diagenesis and structural geology. Developments in analytical and experimental methods, stimulated by advances in the materials sciences, support new insights into fundamental (pore-scale) processes in carbonate rocks. Subsurface imaging methods relevant to the delineation of heterogeneities in carbonates highlight techniques that serve to decrease the gap between seismically resolvable features and well-scale measurements. Methods to fuse geological information across scales are advancing through multiscale integration and proxies. A surge in computational power over the last two decades has been accompanied by developments in computational methods and algorithms. Developments related to visualization and data interaction support stronger geoscience-engineering collaborations. High-resolution and real-time monitoring of the subsurface are driving novel sensing capabilities and growing interest in data mining and analytics. Together, these offer an exciting opportunity to learn more about the fundamental fluid-flow processes in carbonate reservoirs at the interwell scale.

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“…General reservoir geometries are comprised of various features such as faults, fractures, pinch-outs and layered media, with a wide range of variations in porosity and permeability across different layers, e.g., [80,54,55,56,41,5,43,75,76,9] where a range of gridding strategies are presented. In addition reservoirs can have a complex spatial distribution of wells in place [5,28].…”

Section: Introductionmentioning

confidence: 99%