Geological characterization of a lower Cambrian marine shale: implications for shale gas potential in North-Western Hunan, South China

Zhenghui Xiao; Jisong Liu; Jingqiang Tan; Rongfeng Yang; Jason Hilton; Ping Zhou; Zhaohui Wang; Yunjiang Cao

doi:10.1190/INT-2017-0117.1

Geological characterization of a lower Cambrian marine shale: implications for shale gas potential in North-Western Hunan, South China

Zhenghui Xiao, Jisong Liu, Jingqiang Tan, Rongfeng Yang, Jason Hilton, Ping Zhou, Zhaohui Wang, Yunjiang Cao

Earth and Environmental Sciences

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Abstract

In this study, geological features of the lower Cambrian-aged Niutitang Shale in
north-western Hunan province of South China are investigated. Results indicate that the Niutitang Shale has abundant and highly mature algal kerogen, with total organic carbon (TOC) content ranging from 0.6% to 18.2%. The equivalent vitrinite reflectance (equal-Ro) value is between 2.5% and 4.3%. Mineral constituents are dominated by quartz and clay. The average quartz content (62.8%) is much higher than that of clay minerals (26.1%) and suggests a high brittleness index. Organic-matter pores, inter-particle pores, intra-particle
pores, interlaminated fractures, and structural fractures are all well developed. Porosity ranges from 0.6% to 8.8%, with an average of 4.8%, while permeability varies from 0.0018 μD (microdarcy) to 0.0600 μD (averaging 0.0182 μD). The porosity of TOC- and clay-rich shale samples is generally higher than that of quartz-rich shale samples. The gas adsorption capacity of the Niutitang Shale varies from 2.26 cm3 /g to 4.53 cm3 /g, with a mean value of 3.11 cm3
/g. The TOC content appears to significantly influence gas adsorption capacity. In
general, TOC-rich samples exhibit much higher adsorption capacity than TOC-poor samples.

Original language	English
Pages (from-to)	T635-T647
Journal	Interpretation
Volume	6
Issue number	3
DOIs	https://doi.org/10.1190/INT-2017-0117.1
Publication status	Published - 29 Jun 2018

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Interpretation
This version accepted for publication in Interpretation. Final version of record available at: https://doi.org/10.1190/INT-2017-0117.1 Use is subject to SEG terms of use and conditions Checked for eligibility: 22/05/2018
Accepted author manuscript, 1.89 MBLicence: None: All rights reserved

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title = "Geological characterization of a lower Cambrian marine shale: implications for shale gas potential in North-Western Hunan, South China",

abstract = "In this study, geological features of the lower Cambrian-aged Niutitang Shale innorth-western Hunan province of South China are investigated. Results indicate that the Niutitang Shale has abundant and highly mature algal kerogen, with total organic carbon (TOC) content ranging from 0.6% to 18.2%. The equivalent vitrinite reflectance (equal-Ro) value is between 2.5% and 4.3%. Mineral constituents are dominated by quartz and clay. The average quartz content (62.8%) is much higher than that of clay minerals (26.1%) and suggests a high brittleness index. Organic-matter pores, inter-particle pores, intra-particlepores, interlaminated fractures, and structural fractures are all well developed. Porosity ranges from 0.6% to 8.8%, with an average of 4.8%, while permeability varies from 0.0018 μD (microdarcy) to 0.0600 μD (averaging 0.0182 μD). The porosity of TOC- and clay-rich shale samples is generally higher than that of quartz-rich shale samples. The gas adsorption capacity of the Niutitang Shale varies from 2.26 cm3 /g to 4.53 cm3 /g, with a mean value of 3.11 cm3/g. The TOC content appears to significantly influence gas adsorption capacity. Ingeneral, TOC-rich samples exhibit much higher adsorption capacity than TOC-poor samples. ",

author = "Zhenghui Xiao and Jisong Liu and Jingqiang Tan and Rongfeng Yang and Jason Hilton and Ping Zhou and Zhaohui Wang and Yunjiang Cao",

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T1 - Geological characterization of a lower Cambrian marine shale: implications for shale gas potential in North-Western Hunan, South China

AU - Xiao, Zhenghui

AU - Liu, Jisong

AU - Tan, Jingqiang

AU - Yang, Rongfeng

AU - Hilton, Jason

AU - Zhou, Ping

AU - Wang, Zhaohui

AU - Cao, Yunjiang

PY - 2018/6/29

Y1 - 2018/6/29

N2 - In this study, geological features of the lower Cambrian-aged Niutitang Shale innorth-western Hunan province of South China are investigated. Results indicate that the Niutitang Shale has abundant and highly mature algal kerogen, with total organic carbon (TOC) content ranging from 0.6% to 18.2%. The equivalent vitrinite reflectance (equal-Ro) value is between 2.5% and 4.3%. Mineral constituents are dominated by quartz and clay. The average quartz content (62.8%) is much higher than that of clay minerals (26.1%) and suggests a high brittleness index. Organic-matter pores, inter-particle pores, intra-particlepores, interlaminated fractures, and structural fractures are all well developed. Porosity ranges from 0.6% to 8.8%, with an average of 4.8%, while permeability varies from 0.0018 μD (microdarcy) to 0.0600 μD (averaging 0.0182 μD). The porosity of TOC- and clay-rich shale samples is generally higher than that of quartz-rich shale samples. The gas adsorption capacity of the Niutitang Shale varies from 2.26 cm3 /g to 4.53 cm3 /g, with a mean value of 3.11 cm3/g. The TOC content appears to significantly influence gas adsorption capacity. Ingeneral, TOC-rich samples exhibit much higher adsorption capacity than TOC-poor samples.

AB - In this study, geological features of the lower Cambrian-aged Niutitang Shale innorth-western Hunan province of South China are investigated. Results indicate that the Niutitang Shale has abundant and highly mature algal kerogen, with total organic carbon (TOC) content ranging from 0.6% to 18.2%. The equivalent vitrinite reflectance (equal-Ro) value is between 2.5% and 4.3%. Mineral constituents are dominated by quartz and clay. The average quartz content (62.8%) is much higher than that of clay minerals (26.1%) and suggests a high brittleness index. Organic-matter pores, inter-particle pores, intra-particlepores, interlaminated fractures, and structural fractures are all well developed. Porosity ranges from 0.6% to 8.8%, with an average of 4.8%, while permeability varies from 0.0018 μD (microdarcy) to 0.0600 μD (averaging 0.0182 μD). The porosity of TOC- and clay-rich shale samples is generally higher than that of quartz-rich shale samples. The gas adsorption capacity of the Niutitang Shale varies from 2.26 cm3 /g to 4.53 cm3 /g, with a mean value of 3.11 cm3/g. The TOC content appears to significantly influence gas adsorption capacity. Ingeneral, TOC-rich samples exhibit much higher adsorption capacity than TOC-poor samples.

U2 - 10.1190/INT-2017-0117.1

DO - 10.1190/INT-2017-0117.1

M3 - Article

SN - 2324-8858

VL - 6

SP - T635-T647

JO - Interpretation

JF - Interpretation

IS - 3

ER -

Geological characterization of a lower Cambrian marine shale: implications for shale gas potential in North-Western Hunan, South China

Abstract

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