Abstract
In this study the hydrocarbon generation potential of the coal and coaly shale samples collected from coal mines in Attock-Cherat Range of Pakistan is optically and analytically evaluated. These samples, representing the Paleocene Hangu Formation, are analyzed across a range of thermal maturity stages to understand their hydrocarbon generation potential. The visual examination of maceral type and values of vitrinite reflectance have been considered while interpreting the geochemical results for the coal and associated sediments from the Paleocene Hangu Formation. The maceral group is dominated by vitrinite, mainly collodetrinite, followed by inertinite and liptinite, and suggests Type III kerogen for the samples. The geochemical parameters suggest that the samples are post mature, however, the vitrinite reflectance measurements show late mature conditions for a gas-prone generation. The overall petrographical and geochemical data suggest that the coal and coaly shale appear to occupy the gas window and fall in the dry gas zone. Based on the maceral types and Rock–Eval data, an anoxic to terrestrial environment is inferred for the deposition of the coal and associated sediments. The vitrinite reflectance, Rock–Eval pyrolysis, and the type and frequency of macerals show that the coal is of good quality, i.e., medium to high volatile bituminous and hard brown coal, mature, and is lying in the gas window. Oxygen index is continuously low throughout the analyzed interval, which further supports that the coal is of good quality.
Highlights
The source rock maturity analysis is a set of organic geochemical analysis which is used in integration with geology to ascertain hydrocarbon source potential of any formation
Such a study is carried to identify the sources of organic matter (OM), depositional environments, burial history of the sediment and alteration of OM under thermal maturation which can lead to the formation of hydrocarbons (Maslen 2010)
The term maturation is widely adopted to describe the degree of diagenetic evolution of the organic matter leading to the generation of hydrocarbon and is characterized through measurements of vitrinite reflectance (Vandenbroucke and Largeau 2007)
Summary
The source rock maturity analysis is a set of organic geochemical analysis which is used in integration with geology to ascertain hydrocarbon source potential of any formation. Petroleum geochemistry deals with the applications of organic geochemistry to study the origin, Pakistan formation, migration, accumulation and alteration of hydrocarbons (Maslen 2010). Organic geochemistry describes the details of processes that happen to organisms from their burial to oil or gas generation; the information is used in the exploration and production of hydrocarbons (Tissot and Welte 1984). Such a study is carried to identify the sources of organic matter (OM), depositional environments, burial history of the sediment and alteration of OM under thermal maturation which can lead to the formation of hydrocarbons (Maslen 2010).
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