Hydrocarbon prospectivity of the miocene-pliocene clastic reservoirs, Northern Taranaki basin, New Zealand: integration of petrographic and geophysical studies

Radwan, Ahmed A.; Nabawy, Bassem S.

doi:10.1007/s13202-021-01451-4

Cited by 25 publications

(3 citation statements)

References 46 publications

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“…The evolution of the Taranaki Basin coincides with late Cretaceous syn-rift extensional faulting related to the break-up of eastern Gondwana coupled with the formation of faultbounded graben and half-graben structures (Figure 3) [15,16,[36][37][38][39][40][41][42][43]. The Taranaki Basin constitutes two main structural provinces: the Eastern Mobile Belt (Taranaki Graben) and the Western Stable Platform.…”

Section: Geologic Settingmentioning

confidence: 99%

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Lithofacies Controls on Hydrocarbon Generation Potentiality of the Syn-Rift Late Cretaceous Rakopi Deltaic Facies in the North-Eastern Offshore Part of Taranaki Basin, New Zealand

Leila,

Radwan,

Abdel-Fattah

2023

Minerals

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The Taranaki Basin in New Zealand presents the most promising territory for strategies of hydrocarbon exploration and development. This basin contains multiple source rock levels in its sedimentary successions formed during syn- and post-rift periods. The deepest source rocks, found in the Rakopi Formation, were deposited in deltaic to deep marine environments and consist of gas-prone coal and organic-rich mudstone lithofacies. However, questions remain about the preservation of their organic carbon. This study integrates various organic geochemical analyses (such as Rock Eval pyrolysis, kerogen petrography, and biomarkers) to assess the hydrocarbon potential of the Rakopi coal and mudstone lithofacies. The organic carbon in Rakopi coals and mudstones originated from oxygenated bottom water, but swift burial during the initial rifting phase facilitated the preservation of organic materials. Rakopi coals are less mature than the mudstone facies and contain a mixture of desmocollinite, suberinite, and resinite macerals. In contrast, the mudstone lithofacies are enriched in liptodetrinite. The maceral mixture in the coal led to its elevated hydrogen index and likely facilitated early expulsion of liquid hydrocarbon phases. Regular steranes, diasteranes, and C29 sterane isomers distribution in the coal and mudstone extracts highlighted a greater terrestrial input in the coals, whereas significant marine input is observed in the mudstone extracts. Biomarkers in the coal and mudstone extracts are similar to some nearby oils discoveries in the Taranaki Basin, thereby confirming oil generation from both coal and mudstone lithofacies in the Rakopi Formation. These findings underscore the potential of liptinite-rich coals to generate liquid hydrocarbon phases at marginal oil maturity levels.

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Section: Geologic Settingmentioning

confidence: 99%

“…Minerals 2023, 13, x FOR PEER REVIEW 3 of 22 of fault-bounded graben and half-graben structures (Figure 3) [15,16,[36][37][38][39][40][41][42][43]. The Taranaki Basin constitutes two main structural provinces: the Eastern Mobile Belt (Taranaki Graben) and the Western Stable Platform.…”

Section: Geologic Settingmentioning

confidence: 99%

Lithofacies Controls on Hydrocarbon Generation Potentiality of the Syn-Rift Late Cretaceous Rakopi Deltaic Facies in the North-Eastern Offshore Part of Taranaki Basin, New Zealand

Leila,

Radwan,

Abdel-Fattah

2023

Minerals

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“…Different methods were applied simultaneously to determine the lithology including the Density-Neutron, and the M-N lithology identification cross-plots which were recommended by many authors [24]. Estimating the M and N values are based on the apparent matrix density (Δma) and the apparent transit time of rock matrix (Δtma) as follows.…”

Section: Lithology Identificationmentioning

confidence: 99%

3D Static Reservoir Modeling of the Bahariya Reservoirs in parts of the Shushan Basin, North Western Desert, Egypt

Metwalli

Othman

Fathi

et al. 2023

Advances in Basic and Applied Sciences

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The Khalda Oil Field is one of the most productive in the Shushan basin; two dry wells were recently drilled in the study area's northern and southwest corners. The primary goal of this study is to assess the potential of the Bahariya reservoir in the Khalda Oil field and to express the geological, petrophysical, and structural features through maps and cross sections. The Upper and Lower Bahariya members were evaluated as hydrocarbon-bearing sandstone reservoirs using a complete set of well logs from eight wells and thirty 2D seismic lines. The NW-SE fault trend is clearly defined by the interpretation of the depth structure contour maps. The quantitative computerprocessed interpretation of petrophysical characteristics such as lithology, net pay, effective porosity (eff), the volume of shale (Vsh), water saturation (Sw), and hydrocarbon saturation (Sh) is obtained. All of these findings are represented in a 3D geological model. 3D static reservoir modelling of the Bahariya reservoirs using seismic and well data can be an important part of an overall strategy for oilfield development and locating a new drilling location. A 3D integrated reservoir model was run on eight wells to simulate the subsurface structural setting, petrophysical modelling, and facies distribution modelling of the Cretaceous Bahariya reservoir, which is the study's main oil-bearing reservoir. In the Late Albian (Lower Bahariya), Early Cenomanian, the various structural depth maps and structural cross-sections extracted from the 3D structural model show 11 dip-faults that are primarily normal faults with dominated NW-SE trends (Upper Bahariya), Facies and petrophysical cross-sections extracted from the 3D model show the lateral extension of these properties and their thickness variation through the reservoir zones. The combination of geological structures, accurate facies, and petrophysical evaluation provides an excellent framework for planning appropriate drilling campaigns for Khalda oil field exploration and development.

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A new approach for estimating water saturation in low-resistivity hydrocarbon-bearing reservoirs using artificial neural network (ANN)

Doghmane,

Ouadfeul,

Eladj

et al. 2024

Neural Comput & Applic

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Hydrocarbon prospectivity of the miocene-pliocene clastic reservoirs, Northern Taranaki basin, New Zealand: integration of petrographic and geophysical studies

Cited by 25 publications

References 46 publications

Lithofacies Controls on Hydrocarbon Generation Potentiality of the Syn-Rift Late Cretaceous Rakopi Deltaic Facies in the North-Eastern Offshore Part of Taranaki Basin, New Zealand

Lithofacies Controls on Hydrocarbon Generation Potentiality of the Syn-Rift Late Cretaceous Rakopi Deltaic Facies in the North-Eastern Offshore Part of Taranaki Basin, New Zealand

3D Static Reservoir Modeling of the Bahariya Reservoirs in parts of the Shushan Basin, North Western Desert, Egypt

A new approach for estimating water saturation in low-resistivity hydrocarbon-bearing reservoirs using artificial neural network (ANN)

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