A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran

A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran

<span style="font-size: medium; font-family: Calibri;">Formation micro imager (FMI) can directly reflect changes of wall stratums and rock structures. Conventionally, FMI images mainly are analyzed with manual processing, which is extremely inefficient and incurs a heavy workload for...

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Main Authors: mosayeb shafiezadeh, mansour ziaee, behzad tokhmechi
Format: Article
Language:English
Published: Reaserch Institute of Petroleum Industry 2015-07-01
Series:Journal of Petroleum Science and Technology
Subjects:
fmi
stratums
carbonate reservoirs
dip
azimuth
Online Access:https://jpst.ripi.ir/article_506_157a7ae607069aaaf6a078f5c49edc53.pdf
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spelling doaj-bed1a827d71d44ebabf15687452d0e6e2020-11-25T01:11:16ZengReaserch Institute of Petroleum IndustryJournal of Petroleum Science and Technology2251-659X2645-33122015-07-0152515810.22078/jpst.2015.506506A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iranmosayeb shafiezadeh0mansour ziaee1behzad tokhmechi2Refuling Unit, NIOPDC, Kermanshah Region, IranDepartment of Petroleum Engineering, University of Shahroud, Shahroud, IranDepartment of Petroleum Engineering, University of Shahroud, Shahroud, Iran<span style="font-size: medium; font-family: Calibri;">Formation micro imager (FMI) can directly reflect changes of wall stratums and rock structures. Conventionally, FMI images mainly are analyzed with manual processing, which is extremely inefficient and incurs a heavy workload for experts. Iranian reservoirs are mainly carbonate reservoirs, in which the fractures have an important effect on permeability and petroleum production. In this paper, an automatic planar feature recognition system using image processing was proposed. The dip and azimuth of these features are detected using this algorithm to identify more precise permeability and the career of fluid in reservoirs. The proposed algorithm includes three main steps; first, pixels representing fractures are extracted from projected FMI image into location matrices <em>x</em> and <em>y</em> and the corresponding value matrix <em>f</em>(<em>x</em>, <em>y</em>). Then, two vectors X and Y as the inputs of CFTOOL of MATLAB are produced by the combination of these three matrices. Finally, the optimum combination of sine function is fitted to the sine shape of pattern to identify the dip and azimuth of the planar feature. The system was tested with real interpretation FMI rock images. In the experiments, the average recognition error of the proposed system is about 0.9% for the azimuth detection and less than 3.5% for the dip detection and the correlations between the actual dip and azimuth with the determined cases are more than 90% and 97% respectively. Moreover, this automatic system can significantly reduce the complexity and difficulty in the planar feature detection analysis task for the oil and gas exploration.</span>https://jpst.ripi.ir/article_506_157a7ae607069aaaf6a078f5c49edc53.pdffmistratumscarbonate reservoirsdipazimuth
collection DOAJ
language English
format Article
sources DOAJ
author mosayeb shafiezadeh
mansour ziaee
behzad tokhmechi
spellingShingle mosayeb shafiezadeh
mansour ziaee
behzad tokhmechi
A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran
Journal of Petroleum Science and Technology
fmi
stratums
carbonate reservoirs
dip
azimuth
author_facet mosayeb shafiezadeh
mansour ziaee
behzad tokhmechi
author_sort mosayeb shafiezadeh
title A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran
title_short A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran
title_full A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran
title_fullStr A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran
title_full_unstemmed A New Approach towards Precise Planar Feature Characterization Using Image Analysis of FMI Image: Case Study of Gachsaran Oil Field Well No. 245, South West of Iran
title_sort new approach towards precise planar feature characterization using image analysis of fmi image: case study of gachsaran oil field well no. 245, south west of iran
publisher Reaserch Institute of Petroleum Industry
series Journal of Petroleum Science and Technology
issn 2251-659X
2645-3312
publishDate 2015-07-01
description <span style="font-size: medium; font-family: Calibri;">Formation micro imager (FMI) can directly reflect changes of wall stratums and rock structures. Conventionally, FMI images mainly are analyzed with manual processing, which is extremely inefficient and incurs a heavy workload for experts. Iranian reservoirs are mainly carbonate reservoirs, in which the fractures have an important effect on permeability and petroleum production. In this paper, an automatic planar feature recognition system using image processing was proposed. The dip and azimuth of these features are detected using this algorithm to identify more precise permeability and the career of fluid in reservoirs. The proposed algorithm includes three main steps; first, pixels representing fractures are extracted from projected FMI image into location matrices <em>x</em> and <em>y</em> and the corresponding value matrix <em>f</em>(<em>x</em>, <em>y</em>). Then, two vectors X and Y as the inputs of CFTOOL of MATLAB are produced by the combination of these three matrices. Finally, the optimum combination of sine function is fitted to the sine shape of pattern to identify the dip and azimuth of the planar feature. The system was tested with real interpretation FMI rock images. In the experiments, the average recognition error of the proposed system is about 0.9% for the azimuth detection and less than 3.5% for the dip detection and the correlations between the actual dip and azimuth with the determined cases are more than 90% and 97% respectively. Moreover, this automatic system can significantly reduce the complexity and difficulty in the planar feature detection analysis task for the oil and gas exploration.</span>
topic fmi
stratums
carbonate reservoirs
dip
azimuth
url https://jpst.ripi.ir/article_506_157a7ae607069aaaf6a078f5c49edc53.pdf
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