Reservoir quality and K-Ar age dating of the pre-Khuff section of Kuwait

Strohmenger, Christian J.; Al-Anzi, Menahi; Pevear, David R.; Ylagan, Robert F.; Kosanke, Tobi; Ferguson, G. Scott; Cassiani, Daniel H.; Douban, Adel

doi:10.2113/geoarabia0804601

Cited by 10 publications

(3 citation statements)

References 11 publications

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“…The Permian-Early Triassic Khuff Formation in Kuwait occurs at greater depth in comparison to adjoining regions where it reaches more than 4572 m (15,000 ft.) deep (Strohmenger et al, 2003), and it is fully penetrated only in the wells located over the Kuwait Arch (Husain et al, 2011). The formation depth varies in values, and it tends to increase westward reaching a maximum depth of *6271.6 m (20,576 ft.) while decreasing gradually toward the NE and SE and reaching the minimum depth of *4727.8 m (15,511 ft.) as shown in Fig.…”

Section: Khuff Formationmentioning

confidence: 99%

“…This deep section contains mainly continental clastic deposits with intercalated shallow shelf carbonates with a maximum thickness of 2000 m (6562 ft) (Alsharhan et al, 2014). Although the primary depositional characteristics of the Paleozoic clastics such as coarse-grained sandstones, good sorting, and low matrix content suggest they had potentially good reservoir quality (e.g., Abdullah et al, 2017;Tanoli et al, 2008), the reservoir potential of the deep Paleozoic section is very poor (Strohmenger et al, 2003). Recent studies are focusing on the evaluation of the Paleozoic source rock, yet the reservoir quality of that deep section is still under exploration.…”

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confidence: 99%

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Petroleum Geology of Kuwait

Naqi

Alsalem

Qabazard

et al. 2022

Regional Geology Reviews

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Kuwait has proven conventional oil reserves of about 100 billion barrels which makes it one of the major oil-producing countries worldwide. Most of this reserve is found in Cretaceous and Jurassic with minor quantities in the Paleogene sedimentary successions. Most hydrocarbon production comes from the siliciclastic Burgan Formation which is the most important reservoir in Kuwait. The Jurassic and Lower Cretaceous exhibit good quality source rocks that charged most of the hydrocarbon reservoirs in Kuwait and entered the oil window in Late Cretaceous to Eocene. Most of the hydrocarbon is trapped in very gentle four-way closure structures that are related to the deep-seated fault system of the Arabian Peninsula such as Khurais-Burgan Anticline. Hydrocarbon reservoirs in Kuwait are sealed and capped mainly by shale rocks and to a less extent by evaporites. In the last 15 years, Kuwait Oil Company (KOC) displayed interest in commercially exploiting unconventional hydrocarbon reserves and started laying significant emphasis on the exploration and development of unconventional resources. The aim of this work is to summarize the different petroleum systems of Kuwait including the Paleozoic, Mesozoic, and Cenozoic systems.

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Section: Khuff Formationmentioning

confidence: 99%

mentioning

confidence: 99%

Petroleum Geology of Kuwait

Naqi

Alsalem

Qabazard

et al. 2022

Regional Geology Reviews

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“…The lower contact (base of AP6) of the Khuff Formation varies through different locations in Kuwait. In the Raudhatain Field, Khuff Formation lies unconformably on top of the Unayzah Formation, while it overlies a regional well-recognized unconformity consists of a clastic sequence of unknown age elsewhere in Kuwait (Al-Sharhan & Nairn, 2003;Husain et al, 2013;Strohmenger et al, 2003;Tanoli et al, 2008).…”

Section: Khuff Formationmentioning

confidence: 99%

Subsurface Stratigraphy of Kuwait

Al-Helal

AlRefai

AlKandari

et al. 2022

Regional Geology Reviews

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This chapter reviews the subsurface stratigraphy of Kuwait targeting geosciences educators. The lithostratigraphy and chronostratigraphy of the reviewed formations (association of rocks whose components are paragenetically related to each other, both vertically and laterally) followed the formal stratigraphic nomenclature in Kuwait. The exposed stratigraphic formations of the Miocene–Pleistocene epochs represented by the Dibdibba, Lower Fars, and Ghar clastic sediments (Kuwait Group) were reviewed in the previous chapter as part of near-surface geology. In this chapter, the description of these formations is based mainly on their subsurface presence. The description of the subsurface stratigraphic formations in Kuwait followed published academic papers and technical reports related to Kuwait’s geology or analog (GCC countries, Iraq and Iran) either from the oil and gas industry or from different research institutions in Kuwait and abroad. It is also true that studies related to groundwater aquifer systems also contribute to our understanding of the subsurface stratigraphy of Kuwait for the shallower formations. The majority of the published data were covered the onshore section of Kuwait. The subsurface stratigraphic nomenclature description is based on thickness, depositional environment, sequence stratigraphy, the nature of the sequence boundaries, biostratigraphy, and age. The sedimentary strata reflect the depositional environment in which the rocks were formed. Understanding the characteristics of the sedimentary rocks will help understand many geologic events in the past, such as sea-level fluctuation, global climatic changes, tectonic processes, geochemical cycles, and more, depending on the research question. The succession of changing lithological sequences is controlled by three main factors; sea-level change (eustatic sea level), sediment supply, and accommodation space controlled by regional and local tectonics influences. Several authors have developed theoretical methods, established conceptual models, and produced several paleofacies maps to interpret Kuwait’s stratigraphic sequence based on the data collected over time intervals from the Late Permian to Quaternary to reconstruct the depositional history of the Arabian Plate in general and of Kuwait to understand the characteristics of oil and gas reservoirs.

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