Thermodynamic characteristics of CO2 adsorption on β-cyclodextrin based porous materials: Equilibrium capacity function with four variables

This work focuses on establishing a kind of extended adsorption model equation including four variables relevant to preparation conditions (activation temperature and heating rate) except adsorption situations (adsorption temperature and adsorption pressure). And the equation is used for thermodynam...

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Published inCase studies in thermal engineering Vol. 39; p. 102426
Main Authors Du, Yarong, Geng, Yuhan, Guo, Tianxiang, Zhang, Runan, Zhang, Yonghe, Wang, Xilai, Han, Zhonghe
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2022
Elsevier
Subjects
Adsorption model
CO2 adsorption
Thermal activation
Thermodynamic characteristics
β-cyclodextrin
Adsorption model
CO2 adsorption
β-cyclodextrin
Thermal activation
Thermodynamic characteristics
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Abstract This work focuses on establishing a kind of extended adsorption model equation including four variables relevant to preparation conditions (activation temperature and heating rate) except adsorption situations (adsorption temperature and adsorption pressure). And the equation is used for thermodynamic analysis of CO2 adsorption on a promising cyclodextrin based porous material. Novelty, those isotherms of CO2 adsorption on the porous materials prepared at different activation temperatures and heating rates are experimentally obtained to investigate the effects of activation temperature and heating rate on CO2 adsorption. Then the parameters of the model equation are quantified based on 589 data points from the isotherms by the least squares regression method combined with the steepest descent mode. Research results indicate that high performance for CO2 uptake appears on the porous material prepared at high activation temperature and low heating rate. Differently with the previous studies, the adsorption site energy distribution is found to exhibit an asymmetrical peak and the peak site energy increases with an increase of activation temperature but the decrease of heating rate. Moreover, a series of interesting phenomena of those thermodynamic state parameters via adsorption temperature and pressure are verified based on both extended Slip model and D-R model, which have not been reported before. [Display omitted] •A promising adsorbent of CO2 was prepared from β-cyclodextrin by thermal activation.•The capacity equations including four variables were newly found.•Mass and energy transfer during CO2 adsorption based on isothermal-isobaric conditions was completely revealed.•The thermodynamic characteristics of CO2 adsorption under isothermal-isobaric conditions were systematically investigated.•A series of interesting phenomena related to the effects of temperature and pressure were verified.
AbstractList This work focuses on establishing a kind of extended adsorption model equation including four variables relevant to preparation conditions (activation temperature and heating rate) except adsorption situations (adsorption temperature and adsorption pressure). And the equation is used for thermodynamic analysis of CO2 adsorption on a promising cyclodextrin based porous material. Novelty, those isotherms of CO2 adsorption on the porous materials prepared at different activation temperatures and heating rates are experimentally obtained to investigate the effects of activation temperature and heating rate on CO2 adsorption. Then the parameters of the model equation are quantified based on 589 data points from the isotherms by the least squares regression method combined with the steepest descent mode. Research results indicate that high performance for CO2 uptake appears on the porous material prepared at high activation temperature and low heating rate. Differently with the previous studies, the adsorption site energy distribution is found to exhibit an asymmetrical peak and the peak site energy increases with an increase of activation temperature but the decrease of heating rate. Moreover, a series of interesting phenomena of those thermodynamic state parameters via adsorption temperature and pressure are verified based on both extended Slip model and D-R model, which have not been reported before.
This work focuses on establishing a kind of extended adsorption model equation including four variables relevant to preparation conditions (activation temperature and heating rate) except adsorption situations (adsorption temperature and adsorption pressure). And the equation is used for thermodynamic analysis of CO2 adsorption on a promising cyclodextrin based porous material. Novelty, those isotherms of CO2 adsorption on the porous materials prepared at different activation temperatures and heating rates are experimentally obtained to investigate the effects of activation temperature and heating rate on CO2 adsorption. Then the parameters of the model equation are quantified based on 589 data points from the isotherms by the least squares regression method combined with the steepest descent mode. Research results indicate that high performance for CO2 uptake appears on the porous material prepared at high activation temperature and low heating rate. Differently with the previous studies, the adsorption site energy distribution is found to exhibit an asymmetrical peak and the peak site energy increases with an increase of activation temperature but the decrease of heating rate. Moreover, a series of interesting phenomena of those thermodynamic state parameters via adsorption temperature and pressure are verified based on both extended Slip model and D-R model, which have not been reported before. [Display omitted] •A promising adsorbent of CO2 was prepared from β-cyclodextrin by thermal activation.•The capacity equations including four variables were newly found.•Mass and energy transfer during CO2 adsorption based on isothermal-isobaric conditions was completely revealed.•The thermodynamic characteristics of CO2 adsorption under isothermal-isobaric conditions were systematically investigated.•A series of interesting phenomena related to the effects of temperature and pressure were verified.
ArticleNumber 102426
Author Han, Zhonghe
Zhang, Runan
Guo, Tianxiang
Zhang, Yonghe
Wang, Xilai
Du, Yarong
Geng, Yuhan
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Keywords Adsorption model
CO2 adsorption
β-cyclodextrin
Thermal activation
Thermodynamic characteristics
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Snippet This work focuses on establishing a kind of extended adsorption model equation including four variables relevant to preparation conditions (activation...
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SubjectTerms Adsorption model
CO2 adsorption
Thermal activation
Thermodynamic characteristics
β-cyclodextrin
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Title Thermodynamic characteristics of CO2 adsorption on β-cyclodextrin based porous materials: Equilibrium capacity function with four variables
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