TY - JOUR
T1 - Natural gas potential of Carboniferous and Permian transitional shales in central Hunan, South China
AU - Zhao, Zhenghui
AU - Tan, Jianqiang
AU - Ju, Yiwen
AU - Hilton, Jason
AU - Yang, Rongfeng
AU - Zhou, Ping
AU - Huang, Yanran
AU - Ning, Bowen
AU - Liu, Jisong
PY - 2018/7/1
Y1 - 2018/7/1
N2 - The Carboniferous Ceshui formation and Permian Longtan and Dalong formations were deposited in transitional settings preserved in what is now central Hunan Province, South China, as they are potential natural gas plays. In this study, we analysed the total organic carbon (TOC), vitrinite reflectance (Ro), kerogen type, mineralogy, porosity, permeability, and methane adsorption of representative shale samples from these rock units. Our results indicate that TOC content can be as high as 9.2%, with a mean (x̄) of 3.5%. The Permian shale formations were deposited in more strongly reducing environments than the Carboniferous Ceshui shale. The kerogen composition of the Carboniferous Ceshui shale is dominated by Type III, while both of the Permian shales contain primarily Type II kerogens; Ro values range from 1.1% to 2.4% (x̄=1.6%). The organic matter in all the studied shales is in the wet gas window of thermal maturity and is relatively less mature than Lower Palaeozoic marine shales in south China. Mineral compositions are dominated by quartz (x̄=53.8%) and clay (x̄=35.6%), suggesting a high brittleness index. Porosity ranges from 0.5% to 14% (x̄=6.4%), while permeability varies from 0.0026 micro Darcy (mD) to 0.0640 mD (x̄=0.0130 mD). The gas adsorption capacity varies from 1.24 to 4.53 cm3/g (x̄=2.40 cm3/g). Relatively less mature shale samples (Ro<1.5%) have low methane adsorption capacities, regardless of their TOC values. However, the methane adsorption capacity of more mature (Ro>1.5%) shales samples exhibit a positive correlation with TOC content.
AB - The Carboniferous Ceshui formation and Permian Longtan and Dalong formations were deposited in transitional settings preserved in what is now central Hunan Province, South China, as they are potential natural gas plays. In this study, we analysed the total organic carbon (TOC), vitrinite reflectance (Ro), kerogen type, mineralogy, porosity, permeability, and methane adsorption of representative shale samples from these rock units. Our results indicate that TOC content can be as high as 9.2%, with a mean (x̄) of 3.5%. The Permian shale formations were deposited in more strongly reducing environments than the Carboniferous Ceshui shale. The kerogen composition of the Carboniferous Ceshui shale is dominated by Type III, while both of the Permian shales contain primarily Type II kerogens; Ro values range from 1.1% to 2.4% (x̄=1.6%). The organic matter in all the studied shales is in the wet gas window of thermal maturity and is relatively less mature than Lower Palaeozoic marine shales in south China. Mineral compositions are dominated by quartz (x̄=53.8%) and clay (x̄=35.6%), suggesting a high brittleness index. Porosity ranges from 0.5% to 14% (x̄=6.4%), while permeability varies from 0.0026 micro Darcy (mD) to 0.0640 mD (x̄=0.0130 mD). The gas adsorption capacity varies from 1.24 to 4.53 cm3/g (x̄=2.40 cm3/g). Relatively less mature shale samples (Ro<1.5%) have low methane adsorption capacities, regardless of their TOC values. However, the methane adsorption capacity of more mature (Ro>1.5%) shales samples exhibit a positive correlation with TOC content.
KW - lower carboniferous
KW - upper Permian
KW - natural gas
KW - transitional shale
KW - unconventional reservoir
KW - Hunan province
U2 - 10.1016/j.jngse.2018.05.024
DO - 10.1016/j.jngse.2018.05.024
M3 - Article
SN - 1875-5100
VL - 55
SP - 520
EP - 533
JO - Journal of Natural Gas Science and Engineering
JF - Journal of Natural Gas Science and Engineering
ER -