The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield

The effect of stylolite caused by the pressure dissolution process on the reservoir petro-physical properties is still controversial. This study aims to reveal the effect of stylolite on the porosity and permeability of packstone and wackestone in the Mishrif Formation from the Ah oilfield in the Mi...

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Published in:Energies
Main Authors: Jiacheng Xu, Ya Deng, Meiyan Fu, Rui Guo, Pei Chen, Guanghui Duan, Ruicheng Ma
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2022
Subjects:
stylolite
pressure dissolution
anticline
permeability
Mishrif Formation
Planktonic foraminifera
Online Access:https://doi.org/10.3390/en15093032
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spelling ftmdpi:oai:mdpi.com:/1996-1073/15/9/3032/ 2023-08-20T04:09:21+02:00 The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield Jiacheng Xu Ya Deng Meiyan Fu Rui Guo Pei Chen Guanghui Duan Ruicheng Ma 2022-04-21 application/pdf https://doi.org/10.3390/en15093032 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/en15093032 https://creativecommons.org/licenses/by/4.0/ Energies; Volume 15; Issue 9; Pages: 3032 stylolite pressure dissolution anticline permeability Mishrif Formation Text 2022 ftmdpi https://doi.org/10.3390/en15093032 2023-08-01T04:49:19Z The effect of stylolite caused by the pressure dissolution process on the reservoir petro-physical properties is still controversial. This study aims to reveal the effect of stylolite on the porosity and permeability of packstone and wackestone in the Mishrif Formation from the Ah oilfield in the Middle East. Based on the observation of thin sections and cores, X-ray diffraction analysis and porosity and permeability measurement, the lithofacies, diagenesis and patterns of stylolites have been investigated. There are six lithofacies in the Mi4 member, including bivalve green algae packstone, green algae packstone, pelletoid green algae packstone, echinoderm packstone, rudist packstone, planktonic foraminifera wackestone and bioclastic wackestone. The mechanical compaction and pressure dissolution could be observed in these lithofacies, with the development of dissolution seams and stylolites. The density of stylolite has a relationship with the lithofacies and early cementation. The boundary between the echinoderm packstone and the green algae packstone mostly developed as stylolites. There are four types of stylolite on the cores. Type A is the wave-like stylolite developed at the boundary between the echinoderm packstones and green algae packstones. Type B is the zigzag stylolite with high amplitude in the green algae packstones. Type C is the stylolites with low amplitude in the bioclastic wackestones. Type D is the high-angle stylolite, which is oblique to the bedding plane. The permeability of reservoir rocks could be improved by dissolution along the type B stylolite, while the type A and type C stylolite have little effect on permeability. The permeability of green algae packstone and echinoderm packstone will decrease with the development of stylolites. The porosity and permeability of bivalve green algae packstone will decrease after stylolitization, resulting from the relatively high density of stylolite. The physical properties of bioclastic wackestone could be improved by the bioturbation and ... Text Planktonic foraminifera MDPI Open Access Publishing Energies 15 9 3032
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic stylolite
pressure dissolution
anticline
permeability
Mishrif Formation
spellingShingle stylolite
pressure dissolution
anticline
permeability
Mishrif Formation
Jiacheng Xu
Ya Deng
Meiyan Fu
Rui Guo
Pei Chen
Guanghui Duan
Ruicheng Ma
The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield
topic_facet stylolite
pressure dissolution
anticline
permeability
Mishrif Formation
description The effect of stylolite caused by the pressure dissolution process on the reservoir petro-physical properties is still controversial. This study aims to reveal the effect of stylolite on the porosity and permeability of packstone and wackestone in the Mishrif Formation from the Ah oilfield in the Middle East. Based on the observation of thin sections and cores, X-ray diffraction analysis and porosity and permeability measurement, the lithofacies, diagenesis and patterns of stylolites have been investigated. There are six lithofacies in the Mi4 member, including bivalve green algae packstone, green algae packstone, pelletoid green algae packstone, echinoderm packstone, rudist packstone, planktonic foraminifera wackestone and bioclastic wackestone. The mechanical compaction and pressure dissolution could be observed in these lithofacies, with the development of dissolution seams and stylolites. The density of stylolite has a relationship with the lithofacies and early cementation. The boundary between the echinoderm packstone and the green algae packstone mostly developed as stylolites. There are four types of stylolite on the cores. Type A is the wave-like stylolite developed at the boundary between the echinoderm packstones and green algae packstones. Type B is the zigzag stylolite with high amplitude in the green algae packstones. Type C is the stylolites with low amplitude in the bioclastic wackestones. Type D is the high-angle stylolite, which is oblique to the bedding plane. The permeability of reservoir rocks could be improved by dissolution along the type B stylolite, while the type A and type C stylolite have little effect on permeability. The permeability of green algae packstone and echinoderm packstone will decrease with the development of stylolites. The porosity and permeability of bivalve green algae packstone will decrease after stylolitization, resulting from the relatively high density of stylolite. The physical properties of bioclastic wackestone could be improved by the bioturbation and ...
format Text
author Jiacheng Xu
Ya Deng
Meiyan Fu
Rui Guo
Pei Chen
Guanghui Duan
Ruicheng Ma
author_facet Jiacheng Xu
Ya Deng
Meiyan Fu
Rui Guo
Pei Chen
Guanghui Duan
Ruicheng Ma
author_sort Jiacheng Xu
title The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield
title_short The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield
title_full The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield
title_fullStr The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield
title_full_unstemmed The Nonuniform Distribution of Stylolite in Bioclastic Limestones and Its Influence on Reservoir Petro-Physical Properties—A Case Study of the Mishrif Formation from the Ah Oilfield
title_sort nonuniform distribution of stylolite in bioclastic limestones and its influence on reservoir petro-physical properties—a case study of the mishrif formation from the ah oilfield
publisher Multidisciplinary Digital Publishing Institute
publishDate 2022
url https://doi.org/10.3390/en15093032
genre Planktonic foraminifera
genre_facet Planktonic foraminifera
op_source Energies; Volume 15; Issue 9; Pages: 3032
op_relation https://dx.doi.org/10.3390/en15093032
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/en15093032
container_title Energies
container_volume 15
container_issue 9
container_start_page 3032
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