Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals

Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals

The aim of the study is to estimate the theoretical capacity of coal deposits in terms of carbon dioxide storage and methane recovery estimate during the injection of carbon dioxide. The Multiple Sorption Model was used for this purpose. The range of sorption measurement data on which the simulation...

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Main Authors: Jodłowski Grzegorz, Florencka Natalia, Vogt Elżbieta, Wójcik Marta, Ziółkowska Magda
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20171402028
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spelling doaj-767f873c9002426e9ca1be2027dcebae2021-02-02T05:46:20ZengEDP SciencesE3S Web of Conferences2267-12422017-01-01140202810.1051/e3sconf/20171402028e3sconf_ef2017_02028Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coalsJodłowski Grzegorz0Florencka Natalia1Vogt Elżbieta2Wójcik Marta3Ziółkowska Magda4AGH University of Science and Technology, Faculty of Fuels and TechnologyAGH University of Science and Technology, Faculty of Fuels and TechnologyAGH University of Science and Technology, Faculty of Fuels and TechnologyAGH University of Science and Technology, Faculty of Fuels and TechnologyAGH University of Science and Technology, Faculty of Fuels and TechnologyThe aim of the study is to estimate the theoretical capacity of coal deposits in terms of carbon dioxide storage and methane recovery estimate during the injection of carbon dioxide. The Multiple Sorption Model was used for this purpose. The range of sorption measurement data on which the simulations were based does not exceed the critical point for both methane and carbon dioxide. The model allows to calculate absorption, adsorption, expansion and total theoretical sorption. For further consideration absorption was used as the process of the percolation of the gas in the bulk of the coal matter as well as the total theoretical sorption, the occurrence of which is possible due to the presence of fractures in the coal seam. Calculated levels of absorption and the total theoretical adsorption were applied to estimate the possible storage capacity of carbon dioxide based on the data associated with the content of coal in the mining fields of individual Polish coal mines. Moreover, MSM development for the gas mixture sorption can be used to roughly assess the recovery of methane naturally occurring in coal deposits during such a process.https://doi.org/10.1051/e3sconf/20171402028
collection DOAJ
language English
format Article
sources DOAJ
author Jodłowski Grzegorz
Florencka Natalia
Vogt Elżbieta
Wójcik Marta
Ziółkowska Magda
spellingShingle Jodłowski Grzegorz
Florencka Natalia
Vogt Elżbieta
Wójcik Marta
Ziółkowska Magda
Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals
E3S Web of Conferences
author_facet Jodłowski Grzegorz
Florencka Natalia
Vogt Elżbieta
Wójcik Marta
Ziółkowska Magda
author_sort Jodłowski Grzegorz
title Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals
title_short Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals
title_full Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals
title_fullStr Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals
title_full_unstemmed Application of multiple sorption model to estimation of CO2 sequestration capacity or CH4 recovery in polish hard coals
title_sort application of multiple sorption model to estimation of co2 sequestration capacity or ch4 recovery in polish hard coals
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2017-01-01
description The aim of the study is to estimate the theoretical capacity of coal deposits in terms of carbon dioxide storage and methane recovery estimate during the injection of carbon dioxide. The Multiple Sorption Model was used for this purpose. The range of sorption measurement data on which the simulations were based does not exceed the critical point for both methane and carbon dioxide. The model allows to calculate absorption, adsorption, expansion and total theoretical sorption. For further consideration absorption was used as the process of the percolation of the gas in the bulk of the coal matter as well as the total theoretical sorption, the occurrence of which is possible due to the presence of fractures in the coal seam. Calculated levels of absorption and the total theoretical adsorption were applied to estimate the possible storage capacity of carbon dioxide based on the data associated with the content of coal in the mining fields of individual Polish coal mines. Moreover, MSM development for the gas mixture sorption can be used to roughly assess the recovery of methane naturally occurring in coal deposits during such a process.
url https://doi.org/10.1051/e3sconf/20171402028
work_keys_str_mv AT jodłowskigrzegorz applicationofmultiplesorptionmodeltoestimationofco2sequestrationcapacityorch4recoveryinpolishhardcoals
AT florenckanatalia applicationofmultiplesorptionmodeltoestimationofco2sequestrationcapacityorch4recoveryinpolishhardcoals
AT vogtelzbieta applicationofmultiplesorptionmodeltoestimationofco2sequestrationcapacityorch4recoveryinpolishhardcoals
AT wojcikmarta applicationofmultiplesorptionmodeltoestimationofco2sequestrationcapacityorch4recoveryinpolishhardcoals
AT ziołkowskamagda applicationofmultiplesorptionmodeltoestimationofco2sequestrationcapacityorch4recoveryinpolishhardcoals
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