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Sedimentological correlation of heterogeneous reservoir rocks: effects of lithology, differential compaction and diagenetic processes

Abstract

Correlation of reservoir rocks is a challenge in many types of reservoirs around the world today. In a time where the focus has slowly shifted away from the giant fields, towards development of smaller, more marginal fields, the importance of addressing these challenges is increasing. The purpose of the thesis is to investigate the effects of lithology, diagenesis and differential compaction on correlation of reservoir architecture in a fluviodeltaic reservoir. To be able to address these issues several types of data, including seismic, core sections and petrophysical wireline logs, have been subjected to measurements, calculations and interpretations to be able to construct a sedimentological and sequence stratigraphic framework based on a reservoir reconstruction work flow. First, the regional and local (field wide) geological evolution for the Aare Formation in the Heidrun Field, offshore Mid-Norway, is elucidated, including evolution of the palaeodepositional environment and the prevailing depositional controlling factors. These studies included a facies description of studied wells based on core and wireline log data, and description/ interpretation of the reservoir sequence stratigraphy. From these studies eight facies associations have been identified and described, indicating a fluvial-deltaic depositional environment. A sequence stratigraphic model based on these facies associations is suggested for  More>>
Authors:
Publication Date:
Dec 15, 2010
Product Type:
Thesis/Dissertation
Resource Relation:
Other Information: Doctoral theses at NTNU; ISSN 1503-8181; 2010:242; Numerical Data; Thesis or Dissertation; TH: Thesis (Ph.D); refs., figs., tabs
Subject:
02 PETROLEUM; 03 NATURAL GAS; RESERVOIR ROCK; NATURAL GAS FIELDS; OIL FIELDS; RESERVOIR ENGINEERING; CORRELATIONS; LITHOLOGY; DIAGENESIS; WELL LOGGING; DATA ANALYSIS; EVALUATED DATA; COMPARATIVE EVALUATIONS
OSTI ID:
1007306
Research Organizations:
Norges teknisk-naturvitenskapelige universitet, Trondheim (Norway)
Country of Origin:
Norway
Language:
English
Other Identifying Numbers:
Other: ISBN 978-82-471-2478-9; TRN: NO1105046
Availability:
Available at: http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-11785
Submitting Site:
NW
Size:
223 p. pages
Announcement Date:
Mar 07, 2011

Citation Formats

Hammer, Erik. Sedimentological correlation of heterogeneous reservoir rocks: effects of lithology, differential compaction and diagenetic processes. Norway: N. p., 2010. Web.
Hammer, Erik. Sedimentological correlation of heterogeneous reservoir rocks: effects of lithology, differential compaction and diagenetic processes. Norway.
Hammer, Erik. 2010. "Sedimentological correlation of heterogeneous reservoir rocks: effects of lithology, differential compaction and diagenetic processes." Norway.
@misc{etde_1007306,
title = {Sedimentological correlation of heterogeneous reservoir rocks: effects of lithology, differential compaction and diagenetic processes}
author = {Hammer, Erik}
abstractNote = {Correlation of reservoir rocks is a challenge in many types of reservoirs around the world today. In a time where the focus has slowly shifted away from the giant fields, towards development of smaller, more marginal fields, the importance of addressing these challenges is increasing. The purpose of the thesis is to investigate the effects of lithology, diagenesis and differential compaction on correlation of reservoir architecture in a fluviodeltaic reservoir. To be able to address these issues several types of data, including seismic, core sections and petrophysical wireline logs, have been subjected to measurements, calculations and interpretations to be able to construct a sedimentological and sequence stratigraphic framework based on a reservoir reconstruction work flow. First, the regional and local (field wide) geological evolution for the Aare Formation in the Heidrun Field, offshore Mid-Norway, is elucidated, including evolution of the palaeodepositional environment and the prevailing depositional controlling factors. These studies included a facies description of studied wells based on core and wireline log data, and description/ interpretation of the reservoir sequence stratigraphy. From these studies eight facies associations have been identified and described, indicating a fluvial-deltaic depositional environment. A sequence stratigraphic model based on these facies associations is suggested for the studied well data and includes five candidate sequence boundaries and eight flooding surfaces, including a marine flooding surface. Four of these surfaces are interpreted as allogeneic, suggesting regional base level change, whereas the remaining nine surfaces are suggested as resulting from local, autogenic factors. Next, the compact ability of the identified facies associations was quantified in a diagenesis study using optical microscopy, SEM micro-probe measurements and XRD analyses. The para genetic sequence proposed suggests that abundant early siderite cement has influenced the compact ability of fine-grained deltaic siltstones. Eogenetic meteoric flushing led to leaching of detrital feldspar and precipitation of authigenic kaolinite in the fluvial part of the succession. Other cements include calcite, ankerite and Fe-dolomite which are interpreted as predominantly mesogenetic and of less importance regarding compaction. However, a persistent calcite cemented interval is suggested to be related to a flooding regional event and may therefore have sequence stratigraphic significance. In a reservoir reconstruction study, data on lithofacies compact ability and sequence stratigraphic surfaces (i.e. flooding surfaces) were combined to perform differential de compaction of the reservoir in a sequential re-burial exercise. A methodology for reservoir reconstruction is proposed based on porosity reduction vs burial for identified lithofacies classes and the application of flooding surfaces as back stripping surfaces. Based on correlation on de compacted sediment cross-sections, new horizons are identified within the lower part of the Aare Fm. (Aare 1-3.3), an interval suggested to have been subjected to large differential compaction effects due to abundant coals. These surfaces includes several local flooding surfaces related to coals, in addition to laterally correlatable channel sandstone units. The method is flexible and performed for each depth interval (15cm resolution) throughout the well. As the proposed method is applied on real wireline log data, some sources of error are related to the manual interpretation of lithofacies classes, constituting the building blocks for the proposed model. An attempt is therefore made to interpret within lithological heterogeneities based on multivariate statistical techniques. Unstructured and structured principal component analysis has been applied to five wireline log variables (GR, NPHI, RHOB, RT, DT). The results indicate a clear beneficial potential of improving the differentiation between different lithological and depositional units by extracting small scale heterogeneities. (Author)}
place = {Norway}
year = {2010}
month = {Dec}
}