Hydrocarbon source rock characterization and thermal maturity of the Upper Triassic Baldonnel and Pardonet formations, northeastern British Columbia, Canada

Abstract The Patti Formation which consists of sandstone and shale offers the best potential source beds in the Bida Basin. This inland basin is one of the basins currently being tested for hydrocarbon prospectivity in Nigeria. Fresh samples of shale from Agbaja borehole, Ahoko quarry and Geheku road cut were analysed using organic geochemical and palynological techniques to unravel their age, paleoecology, palynofacies and source bed hydrocarbon potential. Palynological data suggest Maastrichtian age for the sediments based on the abundance of microfloral assemblage; Retidiporites magdalenensis, Echitriporites trianguliformis and Buttinia andreevi. Dinocysts belonging to the Spiniferites, Deflandrea and Dinogymnium genera from some of the analysed intervals are indicative of freshwater swamp and normal sea conditions. Palynological evidence further suggests mangrove paleovegetation and humid climate. Relatively high total organic carbon TOC (0.77–8.95 wt%) was obtained for the shales which implies substantial concentration of organic matter in the source beds. Hydrocarbon source rock potential ranges from 0.19 to 0.70 mgHC/g.rock except for a certain source rock interval in the Agbaja borehole with high yield of 25.18 mgHC/g.rock. This interval also presents exceptionally high HI of 274 mgHC/g.TOC and moderate amount of amorphous organic matter. The data suggests that in spite of the favourable organic matter quantity, the thermal maturity is low as indicated by vitrinite reflectance and Tmax (0.46 to 0.48 Ro% and 413 to 475 °C, respectively). The hydrocarbon extracts show abundance of odd number alkanes C27–C33, low sterane/hopane ratio and Pr/Ph > 2. We conclude that the source rocks were terrestrially derived under oxic condition and dominated by type III kerogen. Type II organic matter with oil and gas potential is a possibility in Agbaja area of Bida Basin. Thermal maturity is low and little, or no hydrocarbon has been generated from the source rocks.

Download Full-text

Regional Hydrocarbon Source Rock and Thermal Maturity Evaluation of Ogaden Basin, Ethiopia: ABSTRACT

AAPG Bulletin ◽

10.1306/c1ea57ab-16c9-11d7-8645000102c1865d ◽

1979 ◽

Vol 63 ◽

Author(s):

P. W. Cayce, Byrl D. Carey, Jr.

Keyword(s):

Source Rock ◽

Thermal Maturity ◽

Hydrocarbon Source Rock ◽

Maturity Evaluation

Download Full-text

Geochemical Evaluation of the Permian Series and Associated Oil Indices in the Jeffara Area: Source Rock Characterization, Origin of Hydrocrabon and 1D Thermal Maturity Modeling

10.46427/gold2020.2005 ◽

2020 ◽

Author(s):

Khawka Ouirghi ◽

Amina Mabrouk

Keyword(s):

Source Rock ◽

Thermal Maturity ◽

Area Source ◽

Geochemical Evaluation ◽

Rock Characterization

Download Full-text

Source Rock Characterization of Silurian Tanezzuft and Devonian Awaynat Wanin Formations the Northern Edge of the Murzuq Basin, South West Libya

Petroleum & Petrochemical Engineering Journal ◽

10.23880/ppej-16000216 ◽

2020 ◽

Vol 4 (1) ◽

pp. 1-13

Author(s):

Aboglila S

Keyword(s):

Organic Matter ◽

Source Rock ◽

Depositional Environments ◽

Source Rocks ◽

Thermal Maturity ◽

Maturity Level ◽

Geochemical Parameters ◽

Northern Edge ◽

Rock Characterization ◽

Tanezzuft Formation

Drill cutting samples (n = 92) from the Devonian Awaynat Wanin Formation and Silurian Tanezzuft Formation, sampled from three wells F1, G1 and H1, locate in the northern edge of the Murzuq basin (approximately 700 kilometers south of Tripoli). The studied samples were analyzed in the objective of their organic geochemical assessment such as the type of organic matter, depositional conditions and thermal maturity level. A bulk geochemical parameters and precise biomarkers were estimated, using chromatography-mass spectrometry (GC-MS) to reveal a diversity of their geochemical characterizations. The rock formations are having varied organic matter contents, ranged from fair to excellent. The total organic carbon (TOC) reached about 9.1 wt%, ranging from 0.6 to 2.93 wt% (Awaynat Wanin), 0.5 to 2.54 wt% (Tanezzuft) and 0.52 to 9.1 wt% (Hot Shale). The cutting samples are ranged oil-prone organic matter (OM) of hydrogen index (HI) ranged between 98 –396 mg HC/g TOC, related kerogen types are type II and II/III, with oxygen index (OI): 6 - 190 with one sample have value of 366 mg CO2/g. Thermal maturity of these source rocks is different, ranging from immature to mature and oil window in the most of Tanezzuft Formation and Hot Shale samples, as reflected from the production index data (PI: 0.08 - 034). Tmax and vitrinite reflectance Ro% data (Tmax: 435 – 454 & Ro%: 0.46 - 1.38) for the Awaynat Wanin. Biomarker ratios of specific hydrocarbons extracted from represented samples (n = 9), were moreover used to study thermal maturity level and depositional environments. Pristine/Phytane (Pr/Ph) ratios of 1.65 - 2.23 indicated anoxic to suboxic conditions of depositional marine shale and lacustrine source rock.

Download Full-text

The Gordondale Member: designation of a new member in the Fernie Formation to replace the informal “Nordegg Member” nomenclature of the subsurface of west-central Alberta

Bulletin of Canadian Petroleum Geology ◽

10.2113/52.3.201 ◽

2004 ◽

Vol 52 (3) ◽

pp. 201-214 ◽

Cited By ~ 14

Author(s):

M. Asgar-Deen ◽

C. Riediger ◽

R. Hall

Keyword(s):

British Columbia ◽

Source Rock ◽

Lower Jurassic ◽

Hydrocarbon Source Rock ◽

Fine Grained ◽

Maximum Thickness ◽

West Central ◽

Stratigraphic Nomenclature

Abstract New biostratigraphic data and revised lithostratigraphic correlations reveal that the current stratigraphic nomenclature for the Lower Jurassic portions of the Fernie Formation in the subsurface of west-central Alberta is inadequate. This paper introduces a new member, the Gordondale Member, for highly radioactive, fine-grained strata previously referred to as either the lower Fernie Formation, the Lower Fernie shelf limestone and clastics, the Nordegg Member, or the “Nordegg Member”. A new occurrence of a late Toarcian ammonite, which constrains the age of the top of the Gordondale Member, is also reported. The Hettangian to upper Toarcian Gordondale Member is an important hydrocarbon source rock and consists of dark brown, finely laminated, organic-rich, phosphatic and highly radioactive calcitic mudstones, calcilutites and fine-grained calcarenites. Fish fragments, pectinoid bivalves, Ostrea, belemnoids, ammonites, coccoliths and radiolarians are abundant. The Gordondale Member is laterally extensive and thins westward from a maximum thickness of approximately 50 m in the subsurface of west-central Alberta to 19 m at Pink Mountain in northeastern British Columbia.

Download Full-text

Project 'Nordolie': hydrocarbon source rock investigations in central North Greenland

Rapport Grønlands Geologiske Undersøgelse ◽

10.34194/rapggu.v125.7882 ◽

1985 ◽

Vol 125 ◽

pp. 17-21

Author(s):

F.G Christiansen ◽

F Rolle

Keyword(s):

Source Rock ◽

Research Programme ◽

Source Rocks ◽

Petroleum Geology ◽

General Knowledge ◽

Thermal Maturity ◽

Reservoir Properties ◽

Hydrocarbon Source Rock ◽

Lower Priority ◽

North Greenland

The project 'Nordolie' was initiated under the Danish Ministry of Energy's Research Programme 1983. The aim of the project is to obtain general knowledge about the source rock geology of central North Greenland. Similar investigations have previously been carried out in eastern North Greenland (Rolle, 1981; Rolle & Wrang, 1981). The main purpose of the project is to study the presence and distribution of potential hydrocarbon source rocks in the region and to evaluate the thermal maturity pattern. Studies of reservoir properties, trapping possibilities, and other aspects of petroleum geology will accordingly have a much lower priority.

Download Full-text