Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog

In the subsurface faults can act as both barriers and conduits for fluids or gases such as CO2, hydrocarbons, or water. It is often thought that faults in porous rocks such as sandstone are barriers to fluid flow. In this study we show that this is not always the case. In sandstones like the Cedar M...

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Main Author: Curtis, Daniel J.
Format: Others
Published: DigitalCommons@USU 2017
Subjects:
Online Access:https://digitalcommons.usu.edu/etd/6538
https://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=7751&context=etd
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spelling ndltd-UTAHS-oai-digitalcommons.usu.edu-etd-77512019-10-13T06:14:10Z Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog Curtis, Daniel J. In the subsurface faults can act as both barriers and conduits for fluids or gases such as CO2, hydrocarbons, or water. It is often thought that faults in porous rocks such as sandstone are barriers to fluid flow. In this study we show that this is not always the case. In sandstones like the Cedar Mesa Sandstone it is very important to understand the relationships between this history of fault slip and fluid flow. Better understanding of how fluids migrate through faults and the damaged areas surrounding these faults has strong significance to the oil and gas industry. In this study we examine a group of faults and their surrounding damage zones near Hite, Utah. We analyze three of these small-scale faults in more detail. In doing so we give insights into how these faults and their damage zones can effect fluid migration as well as the porosity and permeability in the Cedar Mesa Sandstone. Whole rock geochemistry, X-ray diffraction mineralogy, permeability data, petrography, ultraviolet photography, and outcrop observations were used to gain insights into cross-cutting relationships, past fluid compositions, and fault characteristics. From the data that was collected from these faults we have begun to describe a series of structural and fluid flow events. This series allows us to say that small-scale faults and fractures are features by which fluids can migrate preferentially. In this series of events we isolate two separate phases of movement. The first phase of movement being has a component of shear in which the edges of the fractures are not moving directly apart. This event is accompanied by a fluid flow event the emplaced iron oxide in the fractures and the surrounding formation. The second event is a phase when the faults become reactivated by a stress that created open mode fractures. This second is accompanied by a fluid flow event that has high calcium content and emplaces calcite in the fractures. Throughout this study we give evidence to support this series of movement and fluid events. 2017-08-01T07:00:00Z text application/pdf https://digitalcommons.usu.edu/etd/6538 https://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=7751&context=etd Copyright for this work is held by the author. Transmission or reproduction of materials protected by copyright beyond that allowed by fair use requires the written permission of the copyright owners. Works not in the public domain cannot be commercially exploited without permission of the copyright owner. Responsibility for any use rests exclusively with the user. For more information contact digitalcommons@usu.edu. All Graduate Theses and Dissertations DigitalCommons@USU Hite Fault Fluid Flow Normal Fault Geology
collection NDLTD
format Others
sources NDLTD
topic Hite
Fault
Fluid Flow
Normal Fault
Geology
spellingShingle Hite
Fault
Fluid Flow
Normal Fault
Geology
Curtis, Daniel J.
Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog
description In the subsurface faults can act as both barriers and conduits for fluids or gases such as CO2, hydrocarbons, or water. It is often thought that faults in porous rocks such as sandstone are barriers to fluid flow. In this study we show that this is not always the case. In sandstones like the Cedar Mesa Sandstone it is very important to understand the relationships between this history of fault slip and fluid flow. Better understanding of how fluids migrate through faults and the damaged areas surrounding these faults has strong significance to the oil and gas industry. In this study we examine a group of faults and their surrounding damage zones near Hite, Utah. We analyze three of these small-scale faults in more detail. In doing so we give insights into how these faults and their damage zones can effect fluid migration as well as the porosity and permeability in the Cedar Mesa Sandstone. Whole rock geochemistry, X-ray diffraction mineralogy, permeability data, petrography, ultraviolet photography, and outcrop observations were used to gain insights into cross-cutting relationships, past fluid compositions, and fault characteristics. From the data that was collected from these faults we have begun to describe a series of structural and fluid flow events. This series allows us to say that small-scale faults and fractures are features by which fluids can migrate preferentially. In this series of events we isolate two separate phases of movement. The first phase of movement being has a component of shear in which the edges of the fractures are not moving directly apart. This event is accompanied by a fluid flow event the emplaced iron oxide in the fractures and the surrounding formation. The second event is a phase when the faults become reactivated by a stress that created open mode fractures. This second is accompanied by a fluid flow event that has high calcium content and emplaces calcite in the fractures. Throughout this study we give evidence to support this series of movement and fluid events.
author Curtis, Daniel J.
author_facet Curtis, Daniel J.
author_sort Curtis, Daniel J.
title Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog
title_short Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog
title_full Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog
title_fullStr Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog
title_full_unstemmed Analysis of the Hite Fault Group, Southeast Utah: Insights into Fluid Flow Properties in a Reservoir Analog
title_sort analysis of the hite fault group, southeast utah: insights into fluid flow properties in a reservoir analog
publisher DigitalCommons@USU
publishDate 2017
url https://digitalcommons.usu.edu/etd/6538
https://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=7751&context=etd
work_keys_str_mv AT curtisdanielj analysisofthehitefaultgroupsoutheastutahinsightsintofluidflowpropertiesinareservoiranalog
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