Coal combustion analysis using Rock-Eval: importance of S4-Tpeak

Coal combustion analysis using Rock-Eval: importance of S4-Tpeak

The Rock-Eval technique has been conventionally used for source-rock analysis. In this work we document the importance of Rock-Eval S4 oxidation graphics and S4- T peak as indicators for coal reactivity and thermal maturity. Two non-coking coals (lower maturity), one coking coal (higher maturity), a...

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Veröffentlicht in:Arabian journal of geosciences 2020, Vol.13 (12), Article 475
Hauptverfasser: Hazra, Bodhisatwa, Sarkar, Pinaki, Chakraborty, Prasenjeet, Mahato, Abhishek, Raghuvanshi, Gaurav, Singh, Pradeep K., Singh, Ashok K., Mukherjee, Ashis
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Schlagworte:
Analysis
Burnout
Coal
Coke
Coking
Combustion
Earth and Environmental Science
Earth science
Earth Sciences
Graphics
Maturity
Original Paper
Oxidation
Reactivity
Rocks
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container_issue 12
container_start_page
container_title Arabian journal of geosciences
container_volume 13
creator Hazra, Bodhisatwa
Sarkar, Pinaki
Chakraborty, Prasenjeet
Mahato, Abhishek
Raghuvanshi, Gaurav
Singh, Pradeep K.
Singh, Ashok K.
Mukherjee, Ashis
description The Rock-Eval technique has been conventionally used for source-rock analysis. In this work we document the importance of Rock-Eval S4 oxidation graphics and S4- T peak as indicators for coal reactivity and thermal maturity. Two non-coking coals (lower maturity), one coking coal (higher maturity), and one jhama (intrusion-induced metamorphosed coal), were collected and studied in terms of their reactivity and combustion properties. Our results indicate that Rock-Eval S4- T peak can be convincingly used to decipher the thermal maturity level of a coal sample. The two non-coking coals owing to their higher reactivity and corresponding lower activation energies, combusted at lower temperatures, almost entirely below 650 °C, and showed lower Rock-Eval S4- T peak . The coking coal sample on the other hand due to its higher thermal maturity level and lower reactivity, combusted at higher temperature, showing higher S4- T peak . While the S2 T max showed higher maturity for the coking coal than the jhama, the S4 oxidation graphics and S4- T peak clearly revealed higher thermal maturity of the jhama relative to the other samples. With increasing sample weights, the S4CO 2 curves were observed to be broader, and consequently the S4- T peak was observed to be higher and erroneous, the errors being more for the more-mature coking coal and jhama. With lowering sample weights, the curves became tighter and the S4- T peak became lower and more precise. Parameters calculated using TG-DTG-DSC were observed to complement the data from Rock-Eval oxidation-stage, and revealed higher maturity, less reactivity, higher temperatures of ignition and burn out for the jhama, followed by the coking coal. Our results also indicate the suitability of applying Rock-Eval for combustion-profiling of coals, beyond source-rock characterization and CBM reservoir analysis.
doi_str_mv 10.1007/s12517-020-05476-7
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While the S2 T max showed higher maturity for the coking coal than the jhama, the S4 oxidation graphics and S4- T peak clearly revealed higher thermal maturity of the jhama relative to the other samples. With increasing sample weights, the S4CO 2 curves were observed to be broader, and consequently the S4- T peak was observed to be higher and erroneous, the errors being more for the more-mature coking coal and jhama. With lowering sample weights, the curves became tighter and the S4- T peak became lower and more precise. Parameters calculated using TG-DTG-DSC were observed to complement the data from Rock-Eval oxidation-stage, and revealed higher maturity, less reactivity, higher temperatures of ignition and burn out for the jhama, followed by the coking coal. 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While the S2 T max showed higher maturity for the coking coal than the jhama, the S4 oxidation graphics and S4- T peak clearly revealed higher thermal maturity of the jhama relative to the other samples. With increasing sample weights, the S4CO 2 curves were observed to be broader, and consequently the S4- T peak was observed to be higher and erroneous, the errors being more for the more-mature coking coal and jhama. With lowering sample weights, the curves became tighter and the S4- T peak became lower and more precise. Parameters calculated using TG-DTG-DSC were observed to complement the data from Rock-Eval oxidation-stage, and revealed higher maturity, less reactivity, higher temperatures of ignition and burn out for the jhama, followed by the coking coal. 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In this work we document the importance of Rock-Eval S4 oxidation graphics and S4- T peak as indicators for coal reactivity and thermal maturity. Two non-coking coals (lower maturity), one coking coal (higher maturity), and one jhama (intrusion-induced metamorphosed coal), were collected and studied in terms of their reactivity and combustion properties. Our results indicate that Rock-Eval S4- T peak can be convincingly used to decipher the thermal maturity level of a coal sample. The two non-coking coals owing to their higher reactivity and corresponding lower activation energies, combusted at lower temperatures, almost entirely below 650 °C, and showed lower Rock-Eval S4- T peak . The coking coal sample on the other hand due to its higher thermal maturity level and lower reactivity, combusted at higher temperature, showing higher S4- T peak . While the S2 T max showed higher maturity for the coking coal than the jhama, the S4 oxidation graphics and S4- T peak clearly revealed higher thermal maturity of the jhama relative to the other samples. With increasing sample weights, the S4CO 2 curves were observed to be broader, and consequently the S4- T peak was observed to be higher and erroneous, the errors being more for the more-mature coking coal and jhama. With lowering sample weights, the curves became tighter and the S4- T peak became lower and more precise. Parameters calculated using TG-DTG-DSC were observed to complement the data from Rock-Eval oxidation-stage, and revealed higher maturity, less reactivity, higher temperatures of ignition and burn out for the jhama, followed by the coking coal. 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subjects Analysis
Burnout
Coal
Coke
Coking
Combustion
Earth and Environmental Science
Earth science
Earth Sciences
Graphics
Maturity
Original Paper
Oxidation
Reactivity
Rocks
title Coal combustion analysis using Rock-Eval: importance of S4-Tpeak
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