Your search keyword '"EFFECTIVE FLOW PROPERTIES"' showing total 5 results

1. Effective Properties for Flow Calculations

Author

King, M. J., King, P. R., McGill, C. A., Williams, J. K., and Adler, Pierre M., editor

Published

1995

2. Sketch-based interface and modelling of stratigraphy and structure in three dimensions

Author

Dmytro Petrovskyy, Gary J. Hampson, Sicilia Ferreira Judice, Sebastian Geiger, Mario Costa Sousa, Margaret E. H. Pataki, Carl Jacquemyn, Matthew D. Jackson, Fazilatur Rahman, Julio Daniel Silva, Clarissa C. Marques, Rapid Reservoir Modelling Consortium, and Equinor ASA

Subjects

Engineering drawing, Source code, Interface (Java), IMPACT, media_common.quotation_subject, 0208 environmental biotechnology, INTERPOLATION, 02 engineering and technology, FLUID-FLOW, 0404 Geophysics, 010502 geochemistry & geophysics, 01 natural sciences, Software, HETEROGENEITY, Stratigraphy (archaeology), Geosciences, Multidisciplinary, 0105 earth and related environmental sciences, media_common, ComputingMethodologies_COMPUTERGRAPHICS, Structure (mathematical logic), Science & Technology, EFFECTIVE FLOW PROPERTIES, business.industry, Suite, GROUNDWATER-FLOW, Geology, computer.file_format, Sketch, 020801 environmental engineering, 0403 Geology, Physical Sciences, SIMULATION, Executable, GEOLOGICAL UNCERTAINTY, business, OUTCROP DATA, 0406 Physical Geography and Environmental Geoscience, computer, STORAGE

Abstract

Geological modelling is widely used to predict resource potential in subsurface reservoirs. However, modelling is often slow, requires use of mathematical methods that are unfamiliar to many geoscientists, and is implemented in expert software. We demonstrate here an alternative approach using sketch-based interface and modelling, which allows rapid creation of complex three-dimensional (3D) models from 2D sketches. Sketches, either on vertical cross-sections or in map-view, are converted to 3D surfaces that outline geological interpretations. We propose a suite of geological operators that handle interactions between the surfaces to form a geologically realistic 3D model. These operators deliver the flexibility to sketch a geological model in any order and provide an intuitive framework for geoscientists to rapidly create 3D models. Two case studies are presented, demonstrating scenarios in which different approaches to model sketching are used depending on the geological setting and available data. These case studies show the strengths of sketching with geological operators. Sketched 3D models can be queried visually or quantitatively to provide insights into heterogeneity distribution, facies connectivity or dynamic model behaviour; this information cannot be obtained by sketching in 2D or on paper. Supplementary material: Rapid Reservoir Modelling prototype (executable and source code) is available at: https://bitbucket.org/rapidreservoirmodelling/rrm. Supplementary screen recordings for the different case studies showing sketch-based modelling in action are available at https://doi.org/10.6084/m9.figshare.c.5084141 and supplementary figure S1-S4 are available at https://doi.org/10.6084/m9.figshare.c.5303043

Published

2021

3. Effects of erosional scours on reservoir properties of heterolithic, distal lower-shoreface sandstones

Author

Matthew D. Jackson, Peter Fitch, Gary J. Hampson, and God'spower I. Onyenanu

Subjects

LACUNARITY, Outcrop, 020209 energy, 02 engineering and technology, BLACKHAWK FORMATION, DEPOSITS, 010502 geochemistry & geophysics, 01 natural sciences, PARASEQUENCE, CONNECTIVITY, Geochemistry and Petrology, 0202 electrical engineering, electronic engineering, information engineering, Earth and Planetary Sciences (miscellaneous), BOOK CLIFFS, PERMEABILITY, Geosciences, Multidisciplinary, GRASSY MEMBER, Petrology, 0105 earth and related environmental sciences, Blackhawk Formation, Science & Technology, EFFECTIVE FLOW PROPERTIES, Energy, Lower shoreface, 0914 Resources Engineering and Extractive Metallurgy, Geology, Grid cell, Permeability (earth sciences), Fuel Technology, 0403 Geology, Physical Sciences, UTAH, Economic Geology

Abstract

Distal intervals of interbedded sandstones and mudstones in shallow-marine, wave-dominated shoreface and deltaic reservoirs may contain significant hydrocarbon resources, but their reservoir properties are difficult to predict. Relatively small-scale (200 × 100 × 20 m) three-dimensional object-based reservoir models, conditioned to outcrop analogue data, have been used to investigate the controls on the proportion of sandstone, the proportion of sandstone beds that are connected by sandstone-filled erosional scours and the effective vertical-to-horizontal permeability ratio (kv/kh) of such intervals. The proportion of sandstone is controlled by sandstone-bed and mudstone-interbed thickness, and by parameters that describe the geometry, dimensions and lateral-stacking density of sandstone-filled scours. Sandstone-bed connectivity is controlled by the interplay between the thickness of mudstone interbeds and sandstone-filled erosional scours. Effective kv/kh is controlled by the proportion of sandstone, which represents the effects of variable distributions and dimensions of mudstones produced by scour erosion, provided that scour thickness is greater than mudstone-interbed thickness. These modelling results provide a means of estimating the effective kv/kh at the scale of typical reservoir-model grid cells using values of mudstone-interbed thickness and the proportion of sandstone that can potentially be provided by core data.

Published

2018

4. Effective properties for flow calculations.

Author

King, M., King, P., McGill, C., and Williams, J.

Abstract

In this paper we discuss the background to the problems of finding effective flow properties when moving from a detailed representation of reservoir geology to a coarse gridded model required for reservoir performance simulation. In so doing we synthesize the pictures of permeability and transmissibility and show how they may be used to capture the effects of the boundary conditions on the upscaling. These same concepts are applied to the renormalization method of calculating permeability, to show its promise as an accurate, yet fast method. [ABSTRACT FROM AUTHOR]

Published

1995

5. Surface-based geological reservoir modelling using grid-free NURBS curves and surfaces

Author

Gary J. Hampson, Carl Jacquemyn, and Matthew D. Jackson

Subjects

Surface (mathematics), Mathematics, Interdisciplinary Applications, Geochemistry & Geophysics, Discretization, 0208 environmental biotechnology, Geometry, 02 engineering and technology, FLUID-FLOW, 010502 geochemistry & geophysics, 01 natural sciences, Surface-based modelling, DEGREE ELEVATION, Mathematics (miscellaneous), Bounding overwatch, SYSTEMS, CONNECTIVITY, ANALOG, 0102 Applied Mathematics, RECONSTRUCTION, Geosciences, Multidisciplinary, 0105 earth and related environmental sciences, Parametric statistics, Reservoir models, Hydrogeology, Science & Technology, EFFECTIVE FLOW PROPERTIES, Geology, 0914 Resources Engineering and Extractive Metallurgy, Grid, SHALLOW-MARINE RESERVOIRS, SANDSTONES, 020801 environmental engineering, Boundary representation, NURBS, 0403 Geology, Physical Sciences, SIMULATION, General Earth and Planetary Sciences, Grid-free, Wells, Level of detail, Mathematics

Abstract

Building geometrically realistic representations of geological heterogeneity in reservoir models is a challenging task that is limited by the inflexibility of pre-defined pillar or cornerpoint grids. The surface-based modelling workflow uses grid-free surfaces that allows efficient creation of geological models without the limitations of pre-defined grids. Surface-based reservoir modelling uses a boundary representation approach in which all heterogeneity of interest (structural, stratigraphic, sedimentological, diagenetic) is modelled by its bounding surfaces, independent of any grid. Volumes bounded by these surfaces are internally homogeneous and, thus, no additional facies or petrophysical modelling is performed within these geological domains and no grid or mesh discretisation is needed during modelling. Any heterogeneity to be modelled within such volumes is incorporated by adding surfaces. Surfaces and curves are modelled using a parametric non-uniform rational B-splines (NURBS) description. These surfaces are efficient to generate and manipulate, and allow fast creation of multiple realisations of geometrically realistic reservoir models. Multiple levels of surface hierarchy are introduced to allow modelling of all features of interest at the required level of detail; surfaces at one hierarchical level are constructed so as to truncate or conform to surfaces of a higher hierarchical level. This procedure requires the joining, terminating and stacking of surfaces to ensure that models contain “watertight” surface-bounded volumes. NURBS curves are used to represent well trajectories accurately, including multi-laterals or side-tracks. Once all surfaces and wells have been generated, they are combined into a reservoir model that takes into account geological relationships between surfaces and preserves realistic geometries.

Published

2018