Quantitative analysis of experimental and synthetic microstructures for sedimentary rock

Biswal, B.; Manwart, C.; Hilfer, R.; Bakke, Stig; Øren, Pål‐Eric

doi:10.1016/s0378-4371(99)00248-4

Cited by 106 publications

(52 citation statements)

References 37 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The results are comparable to the previously published results from Monte Carlo simulations [9,10,11], so the method will not be discussed in detail.…”

Section: Simulated-annealing Methodssupporting

confidence: 69%

“…Taking statistics from original structures avoided the irreconcilable situation of attempting to create structures from unrealizable statistics: given a set of two-point statistics in two or three dimensions there is no assurance that they can be realized as a structure [10]. A recent evaluation of techniques for reconstructing porous materials from local porosity statistics revealed shortcomings in current algorithms [11]. This investigation is intended for insights into the control of two-point statistics over structure, and not an analysis of what structures are realizable.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

On the reconstruction of polycrystalline microstructures from two-point correlation statistics

Hansen

Adams

Lyon

et al. 2004

J Computer-Aided Mater Des

View full text Add to dashboard Cite

An exhaustive branching technique is introduced for reconstructing discrete microstructures from twopoint statistic occurrences. It is shown that two-point statistics control microstructure, to the extent that exact replicas of discrete microstructures are produced when sufficient two-point statistic occurrences are matched. Efficiency comparisons between simulated-annealing methods and the exhaustive branching method are made on polycrystalline structures and some discussion on advancing the exhaustive branching method is given.

show abstract

“…The results are comparable to the previously published results from Monte Carlo simulations [9,10,11], so the method will not be discussed in detail.…”

Section: Simulated-annealing Methodssupporting

confidence: 69%

Section: Introductionmentioning

confidence: 99%

On the reconstruction of polycrystalline microstructures from two-point correlation statistics

Hansen

Adams

Lyon

et al. 2004

J Computer-Aided Mater Des

View full text Add to dashboard Cite

show abstract

“…What is still missing, however, are robust multiscale descriptors of pore connectivity and associated transmission pathways, and their relationship to macroscopic transport [13,[37][38][39][40][41][42]. Although techniques employing local percolation probabilities [22], the Euler characteristic [43] and n-point correlation functions [12,[44][45][46] have helped to fill this knowledge gap, studies continue to highlight a critical need for explicit, higher-order, threedimensional topology and connectivity descriptors to be incorporated in predictions of permeability and thermal conductivity [13,[37][38][39][40][41][42].…”

Section: Introductionmentioning

confidence: 99%

Machine learning framework for analysis of transport through complex networks in porous, granular media: A focus on permeability

2016

View full text Add to dashboard Cite

We present a data-driven framework to study the relationship between fluid flow at the macroscale and the internal pore structure, across the micro-and meso-scales, in porous, granular media. Sphere packings with varying particle size distribution and confining pressure are generated using the discrete element method. For each sample, a finite element analysis of the fluid flow is performed to compute the permeability. We construct a pore network and a particle contact network to quantify the connectivity of the pores and particles across the mesoscopic spatial scales. Machine learning techniques for feature selection are employed to identify sets of microstructural properties and multiscale complex network features that optimally characterize permeability. We find a linear correlation (in log-log scale) between permeability and the average closeness centrality of the weighted pore network. With the pore network links weighted by the local conductance, the average closeness centrality represents a multiscale measure of efficiency of flow through the pore network in terms of the mean geodesic distance (or shortest path) between all pore bodies in the pore network. Specifically, this study objectively quantifies a hypothesized link between high permeability and efficient shortest paths that thread through relatively large pore bodies connected to each other by high conductance pore throats, embodying connectivity and pore structure.

show abstract

“…Random 3D models are then generated in such a manner that they match the measured statistical properties, such as two-point correlation functions. Recent quantitative comparisons of these models with tomographic images of sedimentary rocks have shown that statistical reconstructions may differ significantly from the original sample in their geometric connectivity (Hazlett, 1997;Biswal et al, 1999;Manswart et al, 2000;Øren and Bakke, 2003).…”

Section: Introductionmentioning

confidence: 99%

3D Stochastic Modelling of Heterogeneous Porous Media – Applications to Reservoir Rocks

et al. 2006

View full text Add to dashboard Cite

The creation of a 3D pore-scale model of a porous medium is often an essential step in quantitatively characterising the medium and predicting its transport properties. Here we describe a new stochastic pore space reconstruction approach that uses thin section images as its main input. The approach involves using a third-order Markov mesh where we introduce a new algorithm that creates the reconstruction in a single scan, thus overcoming the computational issues normally associated with Markov chain methods. The technique is capable of generating realistic pore architecture models (PAMs), and examples are presented for a range of fairly homogenous rock samples as well as for one heterogeneous soil sample. We then apply a Lattice-Boltzmann (LB) scheme to calculate the permeabilities of the PAMs, which in all cases closely match the measured values of the original samples. We also develop a set of software methods -referred to as pore analysis tools (PATs) -to quantitatively analyse the reconstructed pore systems. These tools reveal the pore connectivity and pore size distribution, from which we can simulate the mercury injection process, which in turn reproduces the measured curves very closely. Analysis of the topological descriptors reveals that a connectivity function based on the specific Euler number may serve as a simple predictor of the threshold pressure for geo-materials.

show abstract

Quantitative analysis of experimental and synthetic microstructures for sedimentary rock

Cited by 106 publications

References 37 publications

On the reconstruction of polycrystalline microstructures from two-point correlation statistics

On the reconstruction of polycrystalline microstructures from two-point correlation statistics

Machine learning framework for analysis of transport through complex networks in porous, granular media: A focus on permeability

3D Stochastic Modelling of Heterogeneous Porous Media – Applications to Reservoir Rocks

Contact Info

Product

Resources

About