Sorption Hysteresis of Light Hydrocarbons and Carbon Dioxide in Shale and Kerogen

We present adsorption and desorption isotherms of methane, ethane, propane, n -butane and iso -butane as well as carbon dioxide for two shales and isolated kerogens determined by a gravimetric method. The sorption measurements of two shales were performed at three different temperatures, 308.15, 323...

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Published in	Scientific reports Vol. 7; no. 1; pp. 16209 - 10
Main Authors	Zhao, Huangjing, Lai, Zhiping, Firoozabadi, Abbas
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 24.11.2017 Nature Publishing Group
Subjects	639/4077/4082/4090 704/2151/123 Adsorption Butane Carbon dioxide Ethane Humanities and Social Sciences Hysteresis Isotherms Kerogen Methane multidisciplinary Organic matter Propane Science Science (multidisciplinary) Shale Shales Sorption Vapor pressure
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Abstract	We present adsorption and desorption isotherms of methane, ethane, propane, n -butane and iso -butane as well as carbon dioxide for two shales and isolated kerogens determined by a gravimetric method. The sorption measurements of two shales were performed at three different temperatures, 308.15, 323.15, and 338.15 K. For the isolated kerogens, the measurements were conducted at 338.15 K. Methane and ethane sorption isotherms were measured to 35 bar. Carbon dioxide sorption isotherms were studied to 30 bar. Due to the low vapor pressure at room temperature, the sorption isotherms of propane, n -butane and iso -butane were measured to 8, 2, and 2 bar, respectively. The adsorptions of propane, n -butane, and iso -butane were much higher than methane at the highest pressures where the measurements were conducted. The adsorption of n -butane was 10 times higher than methane by mole at 2 bar, followed by iso -butane and propane. Our data show significant adsorption hysteresis in ethane, propane, n -butane and iso -butane. The most pronounced hysteresis was found in n -butane and iso -butane. Significant hysteresis is attributed to the reversible structural changes of kerogens. Dissolution of adsorbates into organic matter may also affect the hysteresis. This is the first report of propane and butane sorption isotherms in shales.
AbstractList	We present adsorption and desorption isotherms of methane, ethane, propane, n -butane and iso -butane as well as carbon dioxide for two shales and isolated kerogens determined by a gravimetric method. The sorption measurements of two shales were performed at three different temperatures, 308.15, 323.15, and 338.15 K. For the isolated kerogens, the measurements were conducted at 338.15 K. Methane and ethane sorption isotherms were measured to 35 bar. Carbon dioxide sorption isotherms were studied to 30 bar. Due to the low vapor pressure at room temperature, the sorption isotherms of propane, n -butane and iso -butane were measured to 8, 2, and 2 bar, respectively. The adsorptions of propane, n -butane, and iso -butane were much higher than methane at the highest pressures where the measurements were conducted. The adsorption of n -butane was 10 times higher than methane by mole at 2 bar, followed by iso -butane and propane. Our data show significant adsorption hysteresis in ethane, propane, n -butane and iso -butane. The most pronounced hysteresis was found in n -butane and iso -butane. Significant hysteresis is attributed to the reversible structural changes of kerogens. Dissolution of adsorbates into organic matter may also affect the hysteresis. This is the first report of propane and butane sorption isotherms in shales. We present adsorption and desorption isotherms of methane, ethane, propane, n-butane and iso-butane as well as carbon dioxide for two shales and isolated kerogens determined by a gravimetric method. The sorption measurements of two shales were performed at three different temperatures, 308.15, 323.15, and 338.15 K. For the isolated kerogens, the measurements were conducted at 338.15 K. Methane and ethane sorption isotherms were measured to 35 bar. Carbon dioxide sorption isotherms were studied to 30 bar. Due to the low vapor pressure at room temperature, the sorption isotherms of propane, n-butane and iso-butane were measured to 8, 2, and 2 bar, respectively. The adsorptions of propane, n-butane, and iso-butane were much higher than methane at the highest pressures where the measurements were conducted. The adsorption of n-butane was 10 times higher than methane by mole at 2 bar, followed by iso-butane and propane. Our data show significant adsorption hysteresis in ethane, propane, n-butane and iso-butane. The most pronounced hysteresis was found in n-butane and iso-butane. Significant hysteresis is attributed to the reversible structural changes of kerogens. Dissolution of adsorbates into organic matter may also affect the hysteresis. This is the first report of propane and butane sorption isotherms in shales.We present adsorption and desorption isotherms of methane, ethane, propane, n-butane and iso-butane as well as carbon dioxide for two shales and isolated kerogens determined by a gravimetric method. The sorption measurements of two shales were performed at three different temperatures, 308.15, 323.15, and 338.15 K. For the isolated kerogens, the measurements were conducted at 338.15 K. Methane and ethane sorption isotherms were measured to 35 bar. Carbon dioxide sorption isotherms were studied to 30 bar. Due to the low vapor pressure at room temperature, the sorption isotherms of propane, n-butane and iso-butane were measured to 8, 2, and 2 bar, respectively. The adsorptions of propane, n-butane, and iso-butane were much higher than methane at the highest pressures where the measurements were conducted. The adsorption of n-butane was 10 times higher than methane by mole at 2 bar, followed by iso-butane and propane. Our data show significant adsorption hysteresis in ethane, propane, n-butane and iso-butane. The most pronounced hysteresis was found in n-butane and iso-butane. Significant hysteresis is attributed to the reversible structural changes of kerogens. Dissolution of adsorbates into organic matter may also affect the hysteresis. This is the first report of propane and butane sorption isotherms in shales. We present adsorption and desorption isotherms of methane, ethane, propane, n-butane and iso-butane as well as carbon dioxide for two shales and isolated kerogens determined by a gravimetric method. The sorption measurements of two shales were performed at three different temperatures, 308.15, 323.15, and 338.15 K. For the isolated kerogens, the measurements were conducted at 338.15 K. Methane and ethane sorption isotherms were measured to 35 bar. Carbon dioxide sorption isotherms were studied to 30 bar. Due to the low vapor pressure at room temperature, the sorption isotherms of propane, n-butane and iso-butane were measured to 8, 2, and 2 bar, respectively. The adsorptions of propane, n-butane, and iso-butane were much higher than methane at the highest pressures where the measurements were conducted. The adsorption of n-butane was 10 times higher than methane by mole at 2 bar, followed by iso-butane and propane. Our data show significant adsorption hysteresis in ethane, propane, n-butane and iso-butane. The most pronounced hysteresis was found in n-butane and iso-butane. Significant hysteresis is attributed to the reversible structural changes of kerogens. Dissolution of adsorbates into organic matter may also affect the hysteresis. This is the first report of propane and butane sorption isotherms in shales.
ArticleNumber	16209
Author	Lai, Zhiping Zhao, Huangjing Firoozabadi, Abbas
Author_xml	– sequence: 1 givenname: Huangjing surname: Zhao fullname: Zhao, Huangjing organization: Reservoir Engineering Research Institute, 595 Lytton Avenue Suite B – sequence: 2 givenname: Zhiping orcidid: 0000-0001-9555-6009 surname: Lai fullname: Lai, Zhiping organization: Advanced Membranes & Porous Materials Center, King Abdullah University of Science and Technology – sequence: 3 givenname: Abbas surname: Firoozabadi fullname: Firoozabadi, Abbas email: af@rerinst.org organization: Reservoir Engineering Research Institute, 595 Lytton Avenue Suite B
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The Biomarker Guide: Interpreting Molecular Fossil in Petroleum, and, Ancient Sediments (Prentice Hall, New Jersey, 2013). – reference: HuHExperimental investigation of changes in methane adsorption of bitumen-free Woodford Shale with thermal maturation induced by hydrous pyrolysisMarine and Petroleum Geology2015591141281:CAS:528:DC%2BC2cXhtlCksr7P10.1016/j.marpetgeo.2014.07.029 – reference: KimHJShiYHeJLeeHLeeCAdsorption characteristics of CO2 and CH4 on dry and wet coal from subcritical to supercritical conditionsChemical Engineering Journal2011171145531:CAS:528:DC%2BC3MXmslejtrs%3D10.1016/j.cej.2011.03.035 – reference: OzdemirEMorsiBISchroederKImportance of Volume Effects to Adsorption Isotherms of Carbon Dioxide on CoalsLangmuir20031923976497731:CAS:528:DC%2BD3sXotVGhtrs%3D10.1021/la0258648 – reference: OzdemirEMorsiBISchroederKCO2 adsorption capacity of argonne premium coalsFuel2004837–8108510941:CAS:528:DC%2BD2cXhs1CrtLY%3D10.1016/j.fuel.2003.11.005 – reference: Horvath, Z. & Jackson, K. 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Snippet	We present adsorption and desorption isotherms of methane, ethane, propane, n -butane and iso -butane as well as carbon dioxide for two shales and isolated... We present adsorption and desorption isotherms of methane, ethane, propane, n-butane and iso-butane as well as carbon dioxide for two shales and isolated...
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SubjectTerms	639/4077/4082/4090 704/2151/123 Adsorption Butane Carbon dioxide Ethane Humanities and Social Sciences Hysteresis Isotherms Kerogen Methane multidisciplinary Organic matter Propane Science Science (multidisciplinary) Shale Shales Sorption Vapor pressure
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Title	Sorption Hysteresis of Light Hydrocarbons and Carbon Dioxide in Shale and Kerogen
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