Assessment of the source rock potential in the Sirka and Giddi collieries of South Karanapura coalfield, Jharkhand, India: Insights from megaflora, palynology, and geochemistry

•Floral assessments of the late Artinskian- Kungurian sediments.•Palyno-geochemical analysis to evaluate the hydrocarbon-generation potential.•The gradient of South Karanpura has a significant role for generating hydrocarbons.•Comparative analysis of two collieries from South Karanpura Coalfield. Pe...

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Published inJournal of Asian Earth Sciences: X Vol. 12; p. 100181
Main Authors Pradhan, Sanghamitra, Mishra, Divya, Aggarwal, Neha, Goswami, Shreerup
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2024
Elsevier
Subjects
charcoal
coal
energy
geochemistry
Hydrocarbon
Hydrogen Index (HI)
India
oils
organic matter
oxidation
Oxygen Index (OI)
Palaeoenvironment
Palynofacies
palynology
Permian period
Rock-Eval
swamps
Tmax
India
Hydrocarbon
Hydrogen Index (HI)
Palynofacies
Tmax
Rock-Eval
Oxygen Index (OI)
Palaeoenvironment
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Abstract •Floral assessments of the late Artinskian- Kungurian sediments.•Palyno-geochemical analysis to evaluate the hydrocarbon-generation potential.•The gradient of South Karanpura has a significant role for generating hydrocarbons.•Comparative analysis of two collieries from South Karanpura Coalfield. Permian deposits in the Indian Peninsula have long been a significant source of coal and have great potential for hydrocarbon exploration. Here we present results of megafloral, palynological, and geochemical analysis of the Late Artinskian-Kungurian sediments in the South Karanpura coalfield to assess hydrocarbon generation potential, kerogen types, depositional settings, and thermal maturation. The results suggest anoxic to oxic depositional environments with fluctuating water levels, influenced by terrestrial inputs. The Sirka colliery is considered to be most favorable for hydrocarbon generation due to the palaeodepositional setting dominated by flooded palaeomires. The dominance of degraded organic matter and the rarity of opaque phytoclasts suggest type II/III to type III kerogen material in the palaeomire of the Srika succession, characterized by low-energy dysoxic to anoxic conditions. The thermal maturation values (Tmax 429℃) and the production index (0.01–0.02) indicate that the Sirka area has immature kerogen, but the Giddi colliery has a relatively higher Tmax (average 435℃) placing the studied sample within the mature zone. However, due to deposition in the oxidized swamp, Giddi C has poor potential for hydrocarbon generation, showing that type III/IV material has charcoal input into the sediments. Our findings contribute to global knowledge of coal formations’ oil and gas storage capacity, which has implications for energy resource assessment and exploration strategies.
AbstractList Permian deposits in the Indian Peninsula have long been a significant source of coal and have great potential for hydrocarbon exploration. Here we present results of megafloral, palynological, and geochemical analysis of the Late Artinskian-Kungurian sediments in the South Karanpura coalfield to assess hydrocarbon generation potential, kerogen types, depositional settings, and thermal maturation. The results suggest anoxic to oxic depositional environments with fluctuating water levels, influenced by terrestrial inputs. The Sirka colliery is considered to be most favorable for hydrocarbon generation due to the palaeodepositional setting dominated by flooded palaeomires. The dominance of degraded organic matter and the rarity of opaque phytoclasts suggest type II/III to type III kerogen material in the palaeomire of the Srika succession, characterized by low-energy dysoxic to anoxic conditions. The thermal maturation values (Tmax 429℃) and the production index (0.01–0.02) indicate that the Sirka area has immature kerogen, but the Giddi colliery has a relatively higher Tmax (average 435℃) placing the studied sample within the mature zone. However, due to deposition in the oxidized swamp, Giddi C has poor potential for hydrocarbon generation, showing that type III/IV material has charcoal input into the sediments. Our findings contribute to global knowledge of coal formations’ oil and gas storage capacity, which has implications for energy resource assessment and exploration strategies.
•Floral assessments of the late Artinskian- Kungurian sediments.•Palyno-geochemical analysis to evaluate the hydrocarbon-generation potential.•The gradient of South Karanpura has a significant role for generating hydrocarbons.•Comparative analysis of two collieries from South Karanpura Coalfield. Permian deposits in the Indian Peninsula have long been a significant source of coal and have great potential for hydrocarbon exploration. Here we present results of megafloral, palynological, and geochemical analysis of the Late Artinskian-Kungurian sediments in the South Karanpura coalfield to assess hydrocarbon generation potential, kerogen types, depositional settings, and thermal maturation. The results suggest anoxic to oxic depositional environments with fluctuating water levels, influenced by terrestrial inputs. The Sirka colliery is considered to be most favorable for hydrocarbon generation due to the palaeodepositional setting dominated by flooded palaeomires. The dominance of degraded organic matter and the rarity of opaque phytoclasts suggest type II/III to type III kerogen material in the palaeomire of the Srika succession, characterized by low-energy dysoxic to anoxic conditions. The thermal maturation values (Tmax 429℃) and the production index (0.01–0.02) indicate that the Sirka area has immature kerogen, but the Giddi colliery has a relatively higher Tmax (average 435℃) placing the studied sample within the mature zone. However, due to deposition in the oxidized swamp, Giddi C has poor potential for hydrocarbon generation, showing that type III/IV material has charcoal input into the sediments. Our findings contribute to global knowledge of coal formations’ oil and gas storage capacity, which has implications for energy resource assessment and exploration strategies.
ArticleNumber 100181
Author Aggarwal, Neha
Pradhan, Sanghamitra
Goswami, Shreerup
Mishra, Divya
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crossref_primary_10_1002_gj_5029
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Keywords Hydrocarbon
Hydrogen Index (HI)
Palynofacies
Tmax
Rock-Eval
Oxygen Index (OI)
Palaeoenvironment
Language English
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Snippet •Floral assessments of the late Artinskian- Kungurian sediments.•Palyno-geochemical analysis to evaluate the hydrocarbon-generation potential.•The gradient of...
Permian deposits in the Indian Peninsula have long been a significant source of coal and have great potential for hydrocarbon exploration. Here we present...
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SubjectTerms charcoal
coal
energy
geochemistry
Hydrocarbon
Hydrogen Index (HI)
India
oils
organic matter
oxidation
Oxygen Index (OI)
Palaeoenvironment
Palynofacies
palynology
Permian period
Rock-Eval
swamps
Tmax
Title Assessment of the source rock potential in the Sirka and Giddi collieries of South Karanapura coalfield, Jharkhand, India: Insights from megaflora, palynology, and geochemistry
URI https://dx.doi.org/10.1016/j.jaesx.2024.100181
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