Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, Italy
Geofluid reservoirs located in heterolithic successions (e.g., turbidites) can be affected by vertical and lateral compartmentalization due to interbedded fine-grained facies (i.e., shale, siltstones) and the presence of faults, respectively. A fault can behave as a conduit or barrier to fluid flow...
Saved in:
| Main Authors: | , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
Wiley
2019-01-01
|
| Series: | Geofluids |
| Online Access: | http://dx.doi.org/10.1155/2019/9582359 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1832561692973727744 |
|---|---|
| author | Hannah Riegel Miller Zambrano Fabrizio Balsamo Luca Mattioni Emanuele Tondi |
| author_facet | Hannah Riegel Miller Zambrano Fabrizio Balsamo Luca Mattioni Emanuele Tondi |
| author_sort | Hannah Riegel |
| collection | DOAJ |
| description | Geofluid reservoirs located in heterolithic successions (e.g., turbidites) can be affected by vertical and lateral compartmentalization due to interbedded fine-grained facies (i.e., shale, siltstones) and the presence of faults, respectively. A fault can behave as a conduit or barrier to fluid flow depending on its architecture and the individual hydraulic behavior of its components (i.e., fault core, damage zone). The fault core, normally composed by fault rock or smeared clay material, commonly acts as a flow inhibitor across the fault. Fault-related fractures (macro- and microscopic) in the damage zone generally increase the permeability parallel to the fault, except when they are cemented or filled with gouge material. Although macrofractures (which define the fracture porosity) dominate fluid flow, the matrix porosity (including microfractures) begins to have a more important role in fluid flow as the aperture of macrofractures is occluded, particularly at greater depth. This study investigates the variation in matrix permeability in fault zones hosted in heterolithic successions due to fault architecture and stratigraphy of host rock (i.e., sand-rich turbidites). Two key areas of well-exposed, faulted Miocene turbidites located in central and southern Italy were selected. For this study, six separate fault zones of varying offset were chosen. Each impacts heterolithic successions that formed under similar tectonic conditions and burial depths. Across the selected fault zones, an extensive petrophysical analysis was done in the field and laboratory, through air permeameter measurements, thin section, and synchrotron analysis in both host rock, damage zone, and fault core. Results suggest that the amount and distribution of clay layers in a heterolithic sequence affects fluid flow across the fault, regardless of fault offset. |
| format | Article |
| id | doaj-art-24cca4b87f6e4a9ca0e18ac2e6e6e226 |
| institution | Kabale University |
| issn | 1468-8115 1468-8123 |
| language | English |
| publishDate | 2019-01-01 |
| publisher | Wiley |
| record_format | Article |
| series | Geofluids |
| spelling | doaj-art-24cca4b87f6e4a9ca0e18ac2e6e6e2262025-02-03T01:24:24ZengWileyGeofluids1468-81151468-81232019-01-01201910.1155/2019/95823599582359Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, ItalyHannah Riegel0Miller Zambrano1Fabrizio Balsamo2Luca Mattioni3Emanuele Tondi4School of Science and Technology-Geology Division, University of Camerino, Via Gentile III da Varano, 7, Camerino 62032, ItalySchool of Science and Technology-Geology Division, University of Camerino, Via Gentile III da Varano, 7, Camerino 62032, ItalyDepartment of Chemistry, Life Sciences, and Environmental Sustainability, Parma University, Campus Universitario, Parco Area delle Scienze 157/A, I-43124 Parma, ItalyNeptune Energy International S.A. Faubourg de l'Arche, 1 Place Samuel de Champlain, La Défense, Paris 92930, FranceSchool of Science and Technology-Geology Division, University of Camerino, Via Gentile III da Varano, 7, Camerino 62032, ItalyGeofluid reservoirs located in heterolithic successions (e.g., turbidites) can be affected by vertical and lateral compartmentalization due to interbedded fine-grained facies (i.e., shale, siltstones) and the presence of faults, respectively. A fault can behave as a conduit or barrier to fluid flow depending on its architecture and the individual hydraulic behavior of its components (i.e., fault core, damage zone). The fault core, normally composed by fault rock or smeared clay material, commonly acts as a flow inhibitor across the fault. Fault-related fractures (macro- and microscopic) in the damage zone generally increase the permeability parallel to the fault, except when they are cemented or filled with gouge material. Although macrofractures (which define the fracture porosity) dominate fluid flow, the matrix porosity (including microfractures) begins to have a more important role in fluid flow as the aperture of macrofractures is occluded, particularly at greater depth. This study investigates the variation in matrix permeability in fault zones hosted in heterolithic successions due to fault architecture and stratigraphy of host rock (i.e., sand-rich turbidites). Two key areas of well-exposed, faulted Miocene turbidites located in central and southern Italy were selected. For this study, six separate fault zones of varying offset were chosen. Each impacts heterolithic successions that formed under similar tectonic conditions and burial depths. Across the selected fault zones, an extensive petrophysical analysis was done in the field and laboratory, through air permeameter measurements, thin section, and synchrotron analysis in both host rock, damage zone, and fault core. Results suggest that the amount and distribution of clay layers in a heterolithic sequence affects fluid flow across the fault, regardless of fault offset.http://dx.doi.org/10.1155/2019/9582359 |
| spellingShingle | Hannah Riegel Miller Zambrano Fabrizio Balsamo Luca Mattioni Emanuele Tondi Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, Italy Geofluids |
| title | Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, Italy |
| title_full | Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, Italy |
| title_fullStr | Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, Italy |
| title_full_unstemmed | Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, Italy |
| title_short | Petrophysical Properties and Microstructural Analysis of Faulted Heterolithic Packages: A Case Study from Miocene Turbidite Successions, Italy |
| title_sort | petrophysical properties and microstructural analysis of faulted heterolithic packages a case study from miocene turbidite successions italy |
| url | http://dx.doi.org/10.1155/2019/9582359 |
| work_keys_str_mv | AT hannahriegel petrophysicalpropertiesandmicrostructuralanalysisoffaultedheterolithicpackagesacasestudyfrommioceneturbiditesuccessionsitaly AT millerzambrano petrophysicalpropertiesandmicrostructuralanalysisoffaultedheterolithicpackagesacasestudyfrommioceneturbiditesuccessionsitaly AT fabriziobalsamo petrophysicalpropertiesandmicrostructuralanalysisoffaultedheterolithicpackagesacasestudyfrommioceneturbiditesuccessionsitaly AT lucamattioni petrophysicalpropertiesandmicrostructuralanalysisoffaultedheterolithicpackagesacasestudyfrommioceneturbiditesuccessionsitaly AT emanueletondi petrophysicalpropertiesandmicrostructuralanalysisoffaultedheterolithicpackagesacasestudyfrommioceneturbiditesuccessionsitaly |