Permeability prediction and construction of 3D geological model: application of neural networks and stochastic approaches in an Iranian gas reservoir

Determination of petrophysical parameters by using available data has a specific importance in exploration and production studies for oil and gas industries. Modeling of corrected permeability as a petrophysical parameter can help in decision making processes. The objective of this study is to const...

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Bibliographic Details
Published in:Neural computing & applications 2013-11, Vol.23 (6), p.1763-1770
Main Authors: Fegh, Asaad, Riahi, Mohammad Ali, Norouzi, Gholam Hosein
Format: Article
Language:English
Subjects:
Applied sciences
Artificial Intelligence
Characteristics of producing layers. Reservoir geology. In situ fluids
Computational Biology/Bioinformatics
Computational Science and Engineering
Computer Science
Computer science
control theory
systems
Connectionism. Neural networks
Crude oil, natural gas and petroleum products
Crude oil, natural gas, oil shales producing equipements and methods
Data Mining and Knowledge Discovery
Data processing. List processing. Character string processing
Energy
Exact sciences and technology
Fuels
Image Processing and Computer Vision
Memory organisation. Data processing
Original Article
Probability and Statistics in Computer Science
Prospecting and production of crude oil, natural gas, oil shales and tar sands
Software
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Summary:Determination of petrophysical parameters by using available data has a specific importance in exploration and production studies for oil and gas industries. Modeling of corrected permeability as a petrophysical parameter can help in decision making processes. The objective of this study is to construct a comprehensive and quantitative characterization of a carbonate gas reservoir in marine gas field. Artificial neural network is applied for prediction of permeability in accordance with other petrophysical parameters at well location. Correlation coefficient for this method is 84 %. In the study, the geological reservoir model is developed in two steps: First, the structure skeleton of the field is constructed, and then, reservoir property is distributed within it by applying new stochastic methods. Permeability is modeled by three techniques: kriging, sequential Gaussian simulation (SGS) and collocated co-simulation using modeled effective porosity as 3D secondary variable. This paper enhances the characterization of the reservoir by improving the modeling of permeability through a new algorithm called collocated co-simulation. Kriging is very simple in modeling the reservoir permeability, and also, original distribution of the data changes considerably in this model. In addition, the SGS model is noisy and heterogeneous, but it retains the original distribution of the data. However, the addition of a 3D secondary variable in third method resulted in a much more reliable model of permeability.
ISSN:0941-0643
1433-3058
DOI:10.1007/s00521-012-1142-8