Adsorption equilibria and kinetics of CO2, CH4, CO, N2, O2, and H2 on silica-based adsorbents for H2 enhancement processes from steel off-gas for the direct reduced iron process

•Adsorption of H2, N2, CO, CO2, CH4 and O2 was studied up to 1000 kPa on silica gels.•Adsorption behaviors of 3 different silica gels were compared.•Adsorption kinetics were analyzed up to 76 kPa by a non-isothermal sorption model.•Potential effect of alumina was suggested by adsorption equilibria.•...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 479; p. 147678
Main Authors Jung, Jiwon, Do, Hongjoo, Chung, Kyounghee, Cho, Moonkyoung, Lee, Chang-Ha
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2024
Subjects
Adsorption equilibria
Adsorption kinetics
Carbon dioxide
Direct reduced iron
Hydrogen
Silica gel
Adsorption equilibria
Direct reduced iron
Silica gel
Adsorption kinetics
Hydrogen
Carbon dioxide
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Abstract •Adsorption of H2, N2, CO, CO2, CH4 and O2 was studied up to 1000 kPa on silica gels.•Adsorption behaviors of 3 different silica gels were compared.•Adsorption kinetics were analyzed up to 76 kPa by a non-isothermal sorption model.•Potential effect of alumina was suggested by adsorption equilibria.•Macropore diffusion affected to the overall adsorption kinetics. The direct reduced iron (DRI) process is highly advantageous for reducing carbon emissions in the steel mill industry. A well-designed adsorption technology can provide H2 mixtures from H2-containing off-gases for the DRI process and concentrate CO2 for a carbon capture process simultaneously. The adsorption behaviors of steel off-gas components, CO2, CH4, CO, N2, O2, and H2, were studied at 293, 308, and 323 K and at pressures of up to 1000 kPa on two different silica-based pellets. Their weak adsorption affinity and high CO2 selectivity enables relatively easy desorption without vacuum energy. The CO2 and CH4 isotherms were correlated with the dual-site Langmuir model, whereas the single-site Langmuir model adequately predicted the other isotherms. The order of adsorption capacities of both adsorbents was CO2≫CH4>CO>N2≈O2≫H2, and the heat of adsorption of CO2 was notably higher than those of the others. The silica gel with the higher Al content and lower surface area (SG1) showed slightly higher CO2 isotherms up to 100 kPa, whereas the other (SG2) exhibited a greater adsorption capacity at higher pressures. For the other adsorbates, higher isotherms were observed for SG2 at all pressures. In the adsorption kinetic analysis using a non-isothermal adsorption model, the diffusional time constants and kinetic parameters showed a consistent dependence on pressure and temperature. The adsorption rate followed the order of N2>CH4≥CO≫CO2. The isotherm and uptake curves for CO2 between the silica gel pellets and particles revealed that macropore diffusion affected the overall adsorption kinetics of CO2 owing to adsorption heat resistance.
AbstractList •Adsorption of H2, N2, CO, CO2, CH4 and O2 was studied up to 1000 kPa on silica gels.•Adsorption behaviors of 3 different silica gels were compared.•Adsorption kinetics were analyzed up to 76 kPa by a non-isothermal sorption model.•Potential effect of alumina was suggested by adsorption equilibria.•Macropore diffusion affected to the overall adsorption kinetics. The direct reduced iron (DRI) process is highly advantageous for reducing carbon emissions in the steel mill industry. A well-designed adsorption technology can provide H2 mixtures from H2-containing off-gases for the DRI process and concentrate CO2 for a carbon capture process simultaneously. The adsorption behaviors of steel off-gas components, CO2, CH4, CO, N2, O2, and H2, were studied at 293, 308, and 323 K and at pressures of up to 1000 kPa on two different silica-based pellets. Their weak adsorption affinity and high CO2 selectivity enables relatively easy desorption without vacuum energy. The CO2 and CH4 isotherms were correlated with the dual-site Langmuir model, whereas the single-site Langmuir model adequately predicted the other isotherms. The order of adsorption capacities of both adsorbents was CO2≫CH4>CO>N2≈O2≫H2, and the heat of adsorption of CO2 was notably higher than those of the others. The silica gel with the higher Al content and lower surface area (SG1) showed slightly higher CO2 isotherms up to 100 kPa, whereas the other (SG2) exhibited a greater adsorption capacity at higher pressures. For the other adsorbates, higher isotherms were observed for SG2 at all pressures. In the adsorption kinetic analysis using a non-isothermal adsorption model, the diffusional time constants and kinetic parameters showed a consistent dependence on pressure and temperature. The adsorption rate followed the order of N2>CH4≥CO≫CO2. The isotherm and uptake curves for CO2 between the silica gel pellets and particles revealed that macropore diffusion affected the overall adsorption kinetics of CO2 owing to adsorption heat resistance.
ArticleNumber 147678
Author Cho, Moonkyoung
Jung, Jiwon
Do, Hongjoo
Chung, Kyounghee
Lee, Chang-Ha
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Keywords Adsorption equilibria
Direct reduced iron
Silica gel
Adsorption kinetics
Hydrogen
Carbon dioxide
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Snippet •Adsorption of H2, N2, CO, CO2, CH4 and O2 was studied up to 1000 kPa on silica gels.•Adsorption behaviors of 3 different silica gels were compared.•Adsorption...
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StartPage 147678
SubjectTerms Adsorption equilibria
Adsorption kinetics
Carbon dioxide
Direct reduced iron
Hydrogen
Silica gel
Title Adsorption equilibria and kinetics of CO2, CH4, CO, N2, O2, and H2 on silica-based adsorbents for H2 enhancement processes from steel off-gas for the direct reduced iron process
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