Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field

There is ongoing debate as to whether or not oil emplacement in a reservoir rock impedes or stops diagenetic process. The Ben Nevis reservoir in the Hebron Field, offshore Newfoundland has a short transition zone and a clearly identified oil-water contact (OWC). Rock samples from above and below the...

Full description

Bibliographic Details
Main Author: Mujica, Francis
Format: Text
Language:English
Published: Memorial University of Newofundland 2019
Subjects:
Ben Nevis
Hebron
Newfoundland
Online Access:https://dx.doi.org/10.48336/n96c-n694
https://research.library.mun.ca/14321/
id ftdatacite:10.48336/n96c-n694
record_format openpolar
spelling ftdatacite:10.48336/n96c-n694 2023-05-15T17:22:40+02:00 Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field Mujica, Francis 2019 https://dx.doi.org/10.48336/n96c-n694 https://research.library.mun.ca/14321/ en eng Memorial University of Newofundland Text article-journal ScholarlyArticle 2019 ftdatacite https://doi.org/10.48336/n96c-n694 2021-11-05T12:55:41Z There is ongoing debate as to whether or not oil emplacement in a reservoir rock impedes or stops diagenetic process. The Ben Nevis reservoir in the Hebron Field, offshore Newfoundland has a short transition zone and a clearly identified oil-water contact (OWC). Rock samples from above and below the OWC were used to analyse the role of oil emplacement in the diagenetic processes, with the main focus on quartz overgrowth and its impact on transport properties. The main contributions of this work is that we challenge the debate on whether or not oil emplacement impacts diagenesis for the Hebron Field, a relatively shallow, low temperature reservoir (< 2 km depth, 50-70 °C) using pore size distribution instead of a singular porosity value, and digital rock analysis for the transport properties. Core analysis includes scanning electron microscopy, mineral liberation analysis, cathode-luminescence, mercury injection capillary pressure (MICP), microcomputed tomography scans, and digital rock analysis and simulations. Our results suggest that quartz cement tends to be more abundant towards the water leg. This observation is in agreement with the “oil emplacement retards diagenesis” theory discussed in the literature. Despite differences in quartz overgrowth, the pore size distributions (MICP results) and digital rock images do not reveal any significant differences in the pore structures above and below the OWC. This could indicate that the differences in quartz overgrowth is not substantial enough to cause a significant reduction of the pore size, and thereby impact transport properties. Text Newfoundland DataCite Metadata Store (German National Library of Science and Technology) Ben Nevis ENVELOPE(12.417,12.417,79.650,79.650) Hebron ENVELOPE(-62.631,-62.631,58.200,58.200)
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
description There is ongoing debate as to whether or not oil emplacement in a reservoir rock impedes or stops diagenetic process. The Ben Nevis reservoir in the Hebron Field, offshore Newfoundland has a short transition zone and a clearly identified oil-water contact (OWC). Rock samples from above and below the OWC were used to analyse the role of oil emplacement in the diagenetic processes, with the main focus on quartz overgrowth and its impact on transport properties. The main contributions of this work is that we challenge the debate on whether or not oil emplacement impacts diagenesis for the Hebron Field, a relatively shallow, low temperature reservoir (< 2 km depth, 50-70 °C) using pore size distribution instead of a singular porosity value, and digital rock analysis for the transport properties. Core analysis includes scanning electron microscopy, mineral liberation analysis, cathode-luminescence, mercury injection capillary pressure (MICP), microcomputed tomography scans, and digital rock analysis and simulations. Our results suggest that quartz cement tends to be more abundant towards the water leg. This observation is in agreement with the “oil emplacement retards diagenesis” theory discussed in the literature. Despite differences in quartz overgrowth, the pore size distributions (MICP results) and digital rock images do not reveal any significant differences in the pore structures above and below the OWC. This could indicate that the differences in quartz overgrowth is not substantial enough to cause a significant reduction of the pore size, and thereby impact transport properties.
format Text
author Mujica, Francis
spellingShingle Mujica, Francis
Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field
author_facet Mujica, Francis
author_sort Mujica, Francis
title Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field
title_short Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field
title_full Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field
title_fullStr Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field
title_full_unstemmed Developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, Ben Nevis formation, Hebron field
title_sort developing a fundamental understanding of how oil impacts diagenesis and the effect in transport properties by investigating rock samples from close to the oil-water contact, ben nevis formation, hebron field
publisher Memorial University of Newofundland
publishDate 2019
url https://dx.doi.org/10.48336/n96c-n694
https://research.library.mun.ca/14321/
long_lat ENVELOPE(12.417,12.417,79.650,79.650)
ENVELOPE(-62.631,-62.631,58.200,58.200)
geographic Ben Nevis
Hebron
geographic_facet Ben Nevis
Hebron
genre Newfoundland
genre_facet Newfoundland
op_doi https://doi.org/10.48336/n96c-n694
_version_ 1766109465426264064

Similar Items