Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea

The study focuses on reservoir characterization of the Triassic, Jurassic, and Cretaceous successions In the Loppa High and the Hammerfest Basin, Norwegian Barents Sea. Characterization of reservoirs is based on petrophysical analysis, rock physics diagnostics, and AVO modelling. Well log data from...

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Bibliographic Details
Main Author: Kizatbay, Alseit
Format: Master Thesis
Language:English
Published: 2021
Subjects:
Petroleum Geophysics
Kobbe Formation
AVO Modeling
Reservoir Characterization
Knurr Formation
Interactive Petrophysics
Tubåen Formation
Nordmela Formation
Langlitinden
Stø Formation
Tornerose
Rock Physics
Uplift
Fruholmen Formation
Barents Sea
Petroleum Geology
Petrophysics
AVO
Caurus
Snadd Formation
HampsonRussell
Loppa
Nordmela
Stø
Tubåen
Hammerfest
Hammerfest Basin
Online Access:http://hdl.handle.net/10852/88984
http://urn.nb.no/URN:NBN:no-91598
id ftoslouniv:oai:www.duo.uio.no:10852/88984
record_format openpolar
institution Open Polar
collection Universitet i Oslo: Digitale utgivelser ved UiO (DUO)
op_collection_id ftoslouniv
language English
topic Petroleum Geophysics
Kobbe Formation
AVO Modeling
Reservoir Characterization
Knurr Formation
Interactive Petrophysics
Tubåen Formation
Nordmela Formation
Langlitinden
Stø Formation
Tornerose
Rock Physics
Uplift
Fruholmen Formation
Barents Sea
Petroleum Geology
Petrophysics
AVO
Caurus
Snadd Formation
HampsonRussell
spellingShingle Petroleum Geophysics
Kobbe Formation
AVO Modeling
Reservoir Characterization
Knurr Formation
Interactive Petrophysics
Tubåen Formation
Nordmela Formation
Langlitinden
Stø Formation
Tornerose
Rock Physics
Uplift
Fruholmen Formation
Barents Sea
Petroleum Geology
Petrophysics
AVO
Caurus
Snadd Formation
HampsonRussell
Kizatbay, Alseit
Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea
topic_facet Petroleum Geophysics
Kobbe Formation
AVO Modeling
Reservoir Characterization
Knurr Formation
Interactive Petrophysics
Tubåen Formation
Nordmela Formation
Langlitinden
Stø Formation
Tornerose
Rock Physics
Uplift
Fruholmen Formation
Barents Sea
Petroleum Geology
Petrophysics
AVO
Caurus
Snadd Formation
HampsonRussell
description The study focuses on reservoir characterization of the Triassic, Jurassic, and Cretaceous successions In the Loppa High and the Hammerfest Basin, Norwegian Barents Sea. Characterization of reservoirs is based on petrophysical analysis, rock physics diagnostics, and AVO modelling. Well log data from seven exploration wells 7222/11-1 (Caurus), 7222/11- 2 (Langlitinden), 7122/2-1, 7122/6-1 (Tornerose), 7122/4-1, 7121/1-1 and 7120/2-2 are utilized. The potential sandstone reservoirs are Kobbe, Snadd, and Fruholmen Formations of Triassic age; Tubåen, Nordmela, and Stø Formation of Jurassic age and Knurr Formation of Cretaceous age. Kobbe and Snadd Formations comprise the main hydrocarbon reservoirs with the highest proven hydrocarbons in the study area. Therefore, this study has given particular focus on these two formations. Reservoir properties (e.g. porosity, permeability, shale volume, water saturation and net-togross ratio) are calculated for the seven formations utilizing petrophysical analysis techniques. Potential reservoir and pay zones are identified based on cutoff values (net reservoir: porosity≥0.06 and shale volume≤0.5; net pay: water saturation≤0.6). Rock physics diagnostics is performed by correlating elastic properties with the results obtained from the petrophysical analysis and crossplotting the data using rock physics templates. Furthermore, cement volume is estimated, and sensitivity of fluid saturation and lithology variations are evaluated. In addition, fluid sensitivity and lithology variations are also investigated using AVO modelling on selected reservoir units. The main reservoirs of Kobbe, Snadd, and Knurr Formations have been modelled and differentiated based on AVO classifications. The shallowest reservoir unit is the Cretaceous Knurr Formation which yields good reservoir properties. However, the formation is not rich in hydrocarbons. The Jurassic reservoir sandstones of Tubåen, Nordmela and Stø Formations, yield the best reservoir properties. Unfortunately, all three formations are dry in the studied wells. The Triassic sandstones of Kobbe, Snadd and Fruholmen Formations, show poorer reservoir quality compared to Jurassic and Cretaceous successions. Fruholmen Formation has better average reservoir properties compared to Snadd and Kobbe Formations. However, Snadd and Kobbe Formations are more abundant in hydrocarbons (e.g., Caurus, Langlitinden, and Tornerose discoveries) and have several pay zones. Based on published shale compaction trends, uplift has been estimated to be between 1046 and 1596 meters in the study area. Quartz cement is present in all formations, and as expected, the average cement volume increases from shallower formations to deeper formations. Rock physics crossplots such as Vp versus Vs, Vp/Vs versus AI, and LMR prove high sensitivity to fluids. Vp versus Vs, density versus Vp and Vp/Vs versus AI crossplots also proved to be good to discriminate lithology. The AVO modelling results demonstrate a clear separation between hydrocarbon and brine saturated reservoirs. In general, AVO modellings show high sensitivity to water saturation, porosity, shale volume wavelet, and block size. The reservoir of Knurr Formation from well 7120/2 2 produced Class I AVO signature. Reservoirs of Kobbe and Snadd Formations from well 7222/11-1 (Caurus) show Class III AVO signature. Reservoirs of Knurr Formation from well 7122/6-1 (Tornerose) and Snadd Formation from well 7222/11-2 show Class IV AVO signature. This study integrated only well log data and information from previous studies. Core analysis and seismic data can be integrated in future studies to support the results produced from well log data and enhance the understanding of potential prospectively in the study area.
format Master Thesis
author Kizatbay, Alseit
author_facet Kizatbay, Alseit
author_sort Kizatbay, Alseit
title Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea
title_short Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea
title_full Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea
title_fullStr Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea
title_full_unstemmed Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea
title_sort reservoir characterization of the mesozoic successions in the loppa high and the hammerfest basin, norwegian barents sea
publishDate 2021
url http://hdl.handle.net/10852/88984
http://urn.nb.no/URN:NBN:no-91598
long_lat ENVELOPE(22.351,22.351,70.240,70.240)
ENVELOPE(15.675,15.675,69.134,69.134)
ENVELOPE(15.124,15.124,69.019,69.019)
ENVELOPE(23.416,23.416,70.987,70.987)
geographic Barents Sea
Loppa
Nordmela
Stø
Tubåen
geographic_facet Barents Sea
Loppa
Nordmela
Stø
Tubåen
genre Barents Sea
Hammerfest
Hammerfest Basin
Langlitinden
Loppa
genre_facet Barents Sea
Hammerfest
Hammerfest Basin
Langlitinden
Loppa
op_relation http://urn.nb.no/URN:NBN:no-91598
Kizatbay, Alseit. Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea. Master thesis, University of Oslo, 2021
http://hdl.handle.net/10852/88984
URN:NBN:no-91598
Fulltext https://www.duo.uio.no/bitstream/handle/10852/88984/1/A_Kizatbay_Master_Thesis_2021.pdf
_version_ 1766370338925445120
spelling ftoslouniv:oai:www.duo.uio.no:10852/88984 2023-05-15T15:38:55+02:00 Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea Kizatbay, Alseit 2021 http://hdl.handle.net/10852/88984 http://urn.nb.no/URN:NBN:no-91598 eng eng http://urn.nb.no/URN:NBN:no-91598 Kizatbay, Alseit. Reservoir characterization of the Mesozoic successions in the Loppa High and the Hammerfest Basin, Norwegian Barents Sea. Master thesis, University of Oslo, 2021 http://hdl.handle.net/10852/88984 URN:NBN:no-91598 Fulltext https://www.duo.uio.no/bitstream/handle/10852/88984/1/A_Kizatbay_Master_Thesis_2021.pdf Petroleum Geophysics Kobbe Formation AVO Modeling Reservoir Characterization Knurr Formation Interactive Petrophysics Tubåen Formation Nordmela Formation Langlitinden Stø Formation Tornerose Rock Physics Uplift Fruholmen Formation Barents Sea Petroleum Geology Petrophysics AVO Caurus Snadd Formation HampsonRussell Master thesis Masteroppgave 2021 ftoslouniv 2021-10-20T22:31:56Z The study focuses on reservoir characterization of the Triassic, Jurassic, and Cretaceous successions In the Loppa High and the Hammerfest Basin, Norwegian Barents Sea. Characterization of reservoirs is based on petrophysical analysis, rock physics diagnostics, and AVO modelling. Well log data from seven exploration wells 7222/11-1 (Caurus), 7222/11- 2 (Langlitinden), 7122/2-1, 7122/6-1 (Tornerose), 7122/4-1, 7121/1-1 and 7120/2-2 are utilized. The potential sandstone reservoirs are Kobbe, Snadd, and Fruholmen Formations of Triassic age; Tubåen, Nordmela, and Stø Formation of Jurassic age and Knurr Formation of Cretaceous age. Kobbe and Snadd Formations comprise the main hydrocarbon reservoirs with the highest proven hydrocarbons in the study area. Therefore, this study has given particular focus on these two formations. Reservoir properties (e.g. porosity, permeability, shale volume, water saturation and net-togross ratio) are calculated for the seven formations utilizing petrophysical analysis techniques. Potential reservoir and pay zones are identified based on cutoff values (net reservoir: porosity≥0.06 and shale volume≤0.5; net pay: water saturation≤0.6). Rock physics diagnostics is performed by correlating elastic properties with the results obtained from the petrophysical analysis and crossplotting the data using rock physics templates. Furthermore, cement volume is estimated, and sensitivity of fluid saturation and lithology variations are evaluated. In addition, fluid sensitivity and lithology variations are also investigated using AVO modelling on selected reservoir units. The main reservoirs of Kobbe, Snadd, and Knurr Formations have been modelled and differentiated based on AVO classifications. The shallowest reservoir unit is the Cretaceous Knurr Formation which yields good reservoir properties. However, the formation is not rich in hydrocarbons. The Jurassic reservoir sandstones of Tubåen, Nordmela and Stø Formations, yield the best reservoir properties. Unfortunately, all three formations are dry in the studied wells. The Triassic sandstones of Kobbe, Snadd and Fruholmen Formations, show poorer reservoir quality compared to Jurassic and Cretaceous successions. Fruholmen Formation has better average reservoir properties compared to Snadd and Kobbe Formations. However, Snadd and Kobbe Formations are more abundant in hydrocarbons (e.g., Caurus, Langlitinden, and Tornerose discoveries) and have several pay zones. Based on published shale compaction trends, uplift has been estimated to be between 1046 and 1596 meters in the study area. Quartz cement is present in all formations, and as expected, the average cement volume increases from shallower formations to deeper formations. Rock physics crossplots such as Vp versus Vs, Vp/Vs versus AI, and LMR prove high sensitivity to fluids. Vp versus Vs, density versus Vp and Vp/Vs versus AI crossplots also proved to be good to discriminate lithology. The AVO modelling results demonstrate a clear separation between hydrocarbon and brine saturated reservoirs. In general, AVO modellings show high sensitivity to water saturation, porosity, shale volume wavelet, and block size. The reservoir of Knurr Formation from well 7120/2 2 produced Class I AVO signature. Reservoirs of Kobbe and Snadd Formations from well 7222/11-1 (Caurus) show Class III AVO signature. Reservoirs of Knurr Formation from well 7122/6-1 (Tornerose) and Snadd Formation from well 7222/11-2 show Class IV AVO signature. This study integrated only well log data and information from previous studies. Core analysis and seismic data can be integrated in future studies to support the results produced from well log data and enhance the understanding of potential prospectively in the study area. Master Thesis Barents Sea Hammerfest Hammerfest Basin Langlitinden Loppa Universitet i Oslo: Digitale utgivelser ved UiO (DUO) Barents Sea Loppa ENVELOPE(22.351,22.351,70.240,70.240) Nordmela ENVELOPE(15.675,15.675,69.134,69.134) Stø ENVELOPE(15.124,15.124,69.019,69.019) Tubåen ENVELOPE(23.416,23.416,70.987,70.987)

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