Journal ArticleDOI
Organic matter–hosted pore system, Marcellus Formation (Devonian), Pennsylvania
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In this article, the pore volume detected by field-emission scanning electron microscopy (FE-SEM) is associated with organic matter (OM) instead of mineral matrix.Abstract:
The Marcellus Formation of Pennsylvania represents an outstanding example of an organic matter (OM)–hosted pore system; most pores detectable by field-emission scanning electron microscopy (FE-SEM) are associated with OM instead of mineral matrix. In the two wells studied here, total organic carbon (TOC) content is a stronger control on OM-hosted porosity than is thermal maturity. The two study wells span a maturity from late wet gas (vitrinite reflectance [Ro], 1.0%) to dry gas (Ro, 2.1%). Samples with a TOC less than 5.5 wt. % display a positive correlation between TOC and porosity, but samples with a TOC greater than 5.5 wt. % display little or no increase in porosity with a further increasing TOC. In a subset of samples (14) across a range of TOC (2.3–13.6 wt. %), the pore volume detectable by FE-SEM is a small fraction of total porosity, ranging from 2 to 32% of the helium porosity. Importantly, the FE-SEM–visible porosity in OM decreases significantly with increasing TOC, diminishing from 30% of OM volume to less than 1% of OM volume across the range of TOC. The morphology and size of OM-hosted pores also vary systematically with TOC. The interpretation of this anticorrelation between OM content and SEM-visible pores remains uncertain. Samples with the lowest OM porosity (higher TOC) may represent gas expulsion (pore collapse) that was more complete as a consequence of greater OM connectivity and framework compaction, whereas samples with higher OM porosity (lower TOC) correspond to rigid mineral frameworks that inhibited compactional expulsion of methane-filled bubbles. Alternatively, higher TOC samples may contain OM (low initial hydrogen index, relatively unreactive) that is less prone to development of FE-SEM–detectable pores. In this interpretation, OM type, controlled by sequence-stratigraphic position, is a factor in determining pore-size distribution.read more
Citations
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Journal ArticleDOI
Porosity of Devonian and Mississippian New Albany Shale across a maturation gradient: Insights from organic petrology, gas adsorption, and mercury intrusion
TL;DR: In this paper, the evolution of porosity in shales with increasing maturity was examined in a suite of five New Albany Shale samples spanning a maturity range from immature (vitrinite reflectance, Ro 0.35%) to postmature (Ro 1.41%).
Journal ArticleDOI
Geological controls on the methane storage capacity in organic-rich shales
Matus Gasparik,Pieter Bertier,Yves Gensterblum,Amin Ghanizadeh,Bernhard M. Krooss,Ralf Littke +5 more
TL;DR: In this paper, high-pressure methane sorption isotherms were measured on selected Paleozoic and Mesozoic organic-rich shales, considered as shale gas targets in Europe.
Journal ArticleDOI
A preliminary study on the pore characterization of Lower Silurian black shales in the Chuandong Thrust Fold Belt, southwestern China using low pressure N2 adsorption and FE-SEM methods
TL;DR: In this article, eight black shale core samples were collected from a well drilled recently in the Chuandong Thrust Fold Belt, southwestern China, and their geochemistry and pore structures were investigated using low pressure N2 adsorption analysis and field emission scanning electron microscopy (FE-SEM) observations.
Journal ArticleDOI
Nano-scale pore structure and fractal dimension of organic-rich Wufeng-Longmaxi shale from Jiaoshiba area, Sichuan Basin: Investigations using FE-SEM, gas adsorption and helium pycnometry
TL;DR: In this article, the pore structure and fractal dimension of the pores in O3w-S1l shale formation in the Jiaoshiba area were investigated using field emission scanning electron microscopy (FE-SEM).
Journal ArticleDOI
Application of organic petrography in North American shale petroleum systems: A review
Paul C. Hackley,Brian J. Cardott +1 more
TL;DR: In this article, a review of organic petrography applications in the North American shale plays through discussion of incident light photographic examples is presented. But, the work is limited to the use of high-resolution imaging techniques and in situ geochemical probing.
References
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TL;DR: The early transformation of organic matter from organisms to geochemical fossils and Kerogen has been studied in the literature as mentioned in this paper, with a focus on the migration and accumulation of oil and gas.
Journal ArticleDOI
Morphology, Genesis, and Distribution of Nanometer-Scale Pores in Siliceous Mudstones of the Mississippian Barnett Shale
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Journal ArticleDOI
Spectrum of pore types and networks in mudrocks and a descriptive classification for matrix-related mudrock pores
TL;DR: In this paper, a pore classification consisting of three major matrix-related pore types is presented that can be used to quantify matrix related pore and relate them to pore networks.
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Proceedings ArticleDOI
From Oil-Prone Source Rock to Gas-Producing Shale Reservoir - Geologic and Petrophysical Characterization of Unconventional Shale Gas Reservoirs
TL;DR: In this paper, total organic carbon (TOC), maturity level (vitrinite reflectance), mineralogy, thickness, and organic matter type are used to classify organic matter that ranges from oil-prone algal and herbaceous to gas-prone woody/coaly material.
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