Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation:

Recent progress in 4D seismic history matching benefits greatly from the use of 4D seismic timelapse data. Several methods for inversion of 4D seismic timelapse data for reservoir pressure and saturation have been developed with mixed success. Most of these methods work well on synthetic data or rea...

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Main Authors: Carpentier, S.F.A., Steeghs, T.P.H., Zhang, Y., Leeuwenburgh, O.
Format: Article in Journal/Newspaper
Language:English
Published: European Association of Geoscientists and Engineers, EAGE 2017
Subjects:
Geosciences
Edge detection
Image denoising
Offshore oil wells
Oil well flooding
Petroleum reservoir evaluation
Petroleum reservoirs
Direct inversion
Geological Survey Netherlands
2015 Energy
2017 Geo
AG - Applied Geosciences
ELSS - Earth
Life and Social Sciences
Norway
Norne field
Online Access:http://resolver.tudelft.nl/uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8
id fttno:oai:tudelft.nl:uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8
record_format openpolar
spelling fttno:oai:tudelft.nl:uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8 2023-05-15T17:25:06+02:00 Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation: Carpentier, S.F.A. Steeghs, T.P.H. Zhang, Y. Leeuwenburgh, O. 2017-01-01 http://resolver.tudelft.nl/uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8 en eng European Association of Geoscientists and Engineers, EAGE uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8 777348 http://resolver.tudelft.nl/uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8 ISBN:9789462822092 19th European Symposium on Improved Oil Recovery: Sustainable IOR in a Low Oil Price World, IOR NORWAY 2017. 24 April 2017 through 27 April 2017, 1-11 Geosciences Edge detection Image denoising Offshore oil wells Oil well flooding Petroleum reservoir evaluation Petroleum reservoirs Direct inversion Geological Survey Netherlands 2015 Energy 2017 Geo AG - Applied Geosciences ELSS - Earth Life and Social Sciences article 2017 fttno 2022-04-10T16:50:54Z Recent progress in 4D seismic history matching benefits greatly from the use of 4D seismic timelapse data. Several methods for inversion of 4D seismic timelapse data for reservoir pressure and saturation have been developed with mixed success. Most of these methods work well on synthetic data or real data with low noise levels, but degrade in performance using data with high noise levels or artefacts. Improvements on the algorithmic side as well as on the data side are necessary to enforce further progress in 4D seismic timelapse inversion and 4D seismic history matching. A seismic timelapse inversion method specifically aimed at direct inversion for reservoir pressure and saturation from AVO timelapse data is investigated on performance. This method performs robust on noisy timelapse data from which timelapse AV O intercepts and gradients are inverted to changes in pressure and saturation. Considerable uncertainties and ambiguities remain however in the inversion results in terms of interpretation of pressure and saturation fronts, fault transmissibility and reservoir compartmentalisation. Next-generation image-denoising and edge-preserving algorithms are employed to condition the seismic timelapse data prior to AVO computation, timelapse differences and inversion thereof. Two algorithms in particular are used: the Non Local Means (NLM) algorithm and the Alternating Guided Filter (AGF). These two algorithms have been shown to perform exceptionally well on both image-denoising and edge-preservation, two key properties of successful data conditioning of timelapse data ultimately for 4D seismic history matching. To create stable and smooth pressure and saturation fronts while preserving sharp boundaries in these fronts, the AGF algorithm is found to be most effective. In this study, we demonstrate this by application of our technique to the 4D seismic data in the Norne field in offshore Norway. Inversion for reservoir pressure and saturation from Norne AVO timelapse data is performed with data conditioning by the two algorithms applied in several stages of the inversion. It is found that data conditioning with the AGF algorithm posterior to the AVO timelapse differences gives best results. Reservoir pressure and saturation fronts are obtained with great detail, honoring reservoir compartments and fault boundaries. These results are of much use for subsequent 4D seismic history matching. bp; Hunting; Shell; Statoil; Wintershall Article in Journal/Newspaper Norne field TU Delft: Institutional Repository (Delft University of Technology) Norway
institution Open Polar
collection TU Delft: Institutional Repository (Delft University of Technology)
op_collection_id fttno
language English
topic Geosciences
Edge detection
Image denoising
Offshore oil wells
Oil well flooding
Petroleum reservoir evaluation
Petroleum reservoirs
Direct inversion
Geological Survey Netherlands
2015 Energy
2017 Geo
AG - Applied Geosciences
ELSS - Earth
Life and Social Sciences
spellingShingle Geosciences
Edge detection
Image denoising
Offshore oil wells
Oil well flooding
Petroleum reservoir evaluation
Petroleum reservoirs
Direct inversion
Geological Survey Netherlands
2015 Energy
2017 Geo
AG - Applied Geosciences
ELSS - Earth
Life and Social Sciences
Carpentier, S.F.A.
Steeghs, T.P.H.
Zhang, Y.
Leeuwenburgh, O.
Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation:
topic_facet Geosciences
Edge detection
Image denoising
Offshore oil wells
Oil well flooding
Petroleum reservoir evaluation
Petroleum reservoirs
Direct inversion
Geological Survey Netherlands
2015 Energy
2017 Geo
AG - Applied Geosciences
ELSS - Earth
Life and Social Sciences
description Recent progress in 4D seismic history matching benefits greatly from the use of 4D seismic timelapse data. Several methods for inversion of 4D seismic timelapse data for reservoir pressure and saturation have been developed with mixed success. Most of these methods work well on synthetic data or real data with low noise levels, but degrade in performance using data with high noise levels or artefacts. Improvements on the algorithmic side as well as on the data side are necessary to enforce further progress in 4D seismic timelapse inversion and 4D seismic history matching. A seismic timelapse inversion method specifically aimed at direct inversion for reservoir pressure and saturation from AVO timelapse data is investigated on performance. This method performs robust on noisy timelapse data from which timelapse AV O intercepts and gradients are inverted to changes in pressure and saturation. Considerable uncertainties and ambiguities remain however in the inversion results in terms of interpretation of pressure and saturation fronts, fault transmissibility and reservoir compartmentalisation. Next-generation image-denoising and edge-preserving algorithms are employed to condition the seismic timelapse data prior to AVO computation, timelapse differences and inversion thereof. Two algorithms in particular are used: the Non Local Means (NLM) algorithm and the Alternating Guided Filter (AGF). These two algorithms have been shown to perform exceptionally well on both image-denoising and edge-preservation, two key properties of successful data conditioning of timelapse data ultimately for 4D seismic history matching. To create stable and smooth pressure and saturation fronts while preserving sharp boundaries in these fronts, the AGF algorithm is found to be most effective. In this study, we demonstrate this by application of our technique to the 4D seismic data in the Norne field in offshore Norway. Inversion for reservoir pressure and saturation from Norne AVO timelapse data is performed with data conditioning by the two algorithms applied in several stages of the inversion. It is found that data conditioning with the AGF algorithm posterior to the AVO timelapse differences gives best results. Reservoir pressure and saturation fronts are obtained with great detail, honoring reservoir compartments and fault boundaries. These results are of much use for subsequent 4D seismic history matching. bp; Hunting; Shell; Statoil; Wintershall
format Article in Journal/Newspaper
author Carpentier, S.F.A.
Steeghs, T.P.H.
Zhang, Y.
Leeuwenburgh, O.
author_facet Carpentier, S.F.A.
Steeghs, T.P.H.
Zhang, Y.
Leeuwenburgh, O.
author_sort Carpentier, S.F.A.
title Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation:
title_short Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation:
title_full Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation:
title_fullStr Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation:
title_full_unstemmed Data conditioning of 4D seismic timelapse data for improved inversion of reservoir pressure and saturation:
title_sort data conditioning of 4d seismic timelapse data for improved inversion of reservoir pressure and saturation:
publisher European Association of Geoscientists and Engineers, EAGE
publishDate 2017
url http://resolver.tudelft.nl/uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8
geographic Norway
geographic_facet Norway
genre Norne field
genre_facet Norne field
op_source 19th European Symposium on Improved Oil Recovery: Sustainable IOR in a Low Oil Price World, IOR NORWAY 2017. 24 April 2017 through 27 April 2017, 1-11
op_relation uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8
777348
http://resolver.tudelft.nl/uuid:ca8f4d88-a1d4-4e7a-8d5b-6e42181a8ef8
ISBN:9789462822092
_version_ 1766116400443686912

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