Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain
Carbon dioxide (CO2) release from fossil polyvinyl alcoholindustries into the atmosphere has contribute to the global warming effect and climate change. Therefore, the development of CO2 separation process technologies such as membrane technology had been introduced to capture CO2 from the flue gas....
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Electrochemistry. Electrolysis Chemical engineering Che Husain, Nursyuhani Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain |
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Carbon dioxide (CO2) release from fossil polyvinyl alcoholindustries into the atmosphere has contribute to the global warming effect and climate change. Therefore, the development of CO2 separation process technologies such as membrane technology had been introduced to capture CO2 from the flue gas. In a previous study, membrane technology had come together with the biological approach using Carbonic anhydrase (CA) enzyme to enhance this carbon capture technology. However, because of the pH and temperature changes, the long-term stability of the CA enzyme has reduced to 6 months lifetime and causes the enzyme activity to be a permanently loss. Thus, this present study chose a combination of membrane separation technique with biological approach with the used of mimic enzyme-Zn-cyclen for CO2 separation and focused on polyethersulfone (PES) membrane as support materials. Zn-cyclen as mimic enzyme was used to resemble the active site of CA enzymes and mimic the bio-catalytic process of CA. PVA thin film act as a receive layer so that the membrane could operate in high water swollen in order to achieve the best separation performance. This study was conducted to develop and characterize the polyvinyl alcohol (PVA) thin film integrated with Zn-cyclen and cast over PES membrane for CO2 separation performance. The catalytic activity and stability of Zn-cyclen on the different pH (6, 7, 8, 9, 10, 11) and temperature (30 ºC, 40 ºC, 50 ºC, 60 ºC, 70 ºC, 80 ºC, 90 ºC) were determined. The optimum pH for Zn-cyclen to perform higher catalytic stability was at pH 9, while, the optimum temperature for higher Zn-cyclen activity was at 70 ºC. However, as the Zn-cyclen integrated onto the PES membrane, the Zn-cyclen pH and temperature stability had shifted at higher range which were at pH 10 and temperature 80 ºC due to indirect contact of pH and temperature on the Zn-cyclen. The pH and temperature stability of CA were at pH 7.5 and temperature 37 ºC. From the kinetics study, the kinetics parameters of Km, Vmax, and Kcat value for Zn-cyclen was 1.5491 mmol/L, 2.088 µmol/min, and 0.348 min-1 respectively. Meanwhile, the kinetics parameters of Km, Vmax, and Kcat value for CA enzyme was 1.594 mmol/L, 1.307 µmol/min, and 0.330 min-1 respectively. In comparison with CA, the Zn-cyclen had possess higher pH and temperature stability, and better value of enzyme kinetics parameters. Therefore, Zn-cyclen can be used to replace CA for better achievement in CO2 hydration reaction and separation performance. The integrated PES+PVA+Zn-cyclen membrane was developed through dip-coating method. The integrated PVA+Zn-cyclen thin film had improved the swelling behaviour and hydrophilicity of the PES membrane. Higher swelling percentage contributed into faster CO2 hydration rate. In the separation reaction of CO2 using integrated Zn-cyclen based membrane, the time taken for a complete carbonation reaction was 9.75 min, which was longer compared to free Zn-cyclen with 2.58 min at enzyme optimum temperature and flowrate of 80 ˚C, and 200 mL/min respectively. For CO2 separation experiment, CO2 feed flowrate was conducted by manipulating at (200, 500, 800, 1000 mL/min) and temperature at (30 ºC - 90 ºC). This finding showed that the integrated PES+PVA+Zn-cyclen membrane had better CO2 separation performance because the longer the carbonation reaction time, the higher the amount of CO2 adsorbed onto the membrane. In conclusion, Zn-cyclen is suitable to replace CA enzyme because it gives a better value of kinetics parameter and catalytic stability, and the use of integrated Zn-cyclen membrane is recommend due to better performances of CO2 separation. |
| format |
Thesis |
| author |
Che Husain, Nursyuhani |
| author_facet |
Che Husain, Nursyuhani |
| author_sort |
Che Husain, Nursyuhani |
| title |
Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain |
| title_short |
Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain |
| title_full |
Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain |
| title_fullStr |
Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain |
| title_full_unstemmed |
Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain |
| title_sort |
integration of polyvinyl alcohol (pva) thin film with zinc-cyclen casted over polyethersulfone (pes) support membrane for carbon dioxide separation performance / nursyuhani che husain |
| publishDate |
2022 |
| url |
https://ir.uitm.edu.my/id/eprint/76590/1/76590.pdf https://ir.uitm.edu.my/id/eprint/76590/ |
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1768011588607934464 |
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my.uitm.ir.765902023-05-29T03:42:08Z https://ir.uitm.edu.my/id/eprint/76590/ Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain Che Husain, Nursyuhani Electrochemistry. Electrolysis Chemical engineering Carbon dioxide (CO2) release from fossil polyvinyl alcoholindustries into the atmosphere has contribute to the global warming effect and climate change. Therefore, the development of CO2 separation process technologies such as membrane technology had been introduced to capture CO2 from the flue gas. In a previous study, membrane technology had come together with the biological approach using Carbonic anhydrase (CA) enzyme to enhance this carbon capture technology. However, because of the pH and temperature changes, the long-term stability of the CA enzyme has reduced to 6 months lifetime and causes the enzyme activity to be a permanently loss. Thus, this present study chose a combination of membrane separation technique with biological approach with the used of mimic enzyme-Zn-cyclen for CO2 separation and focused on polyethersulfone (PES) membrane as support materials. Zn-cyclen as mimic enzyme was used to resemble the active site of CA enzymes and mimic the bio-catalytic process of CA. PVA thin film act as a receive layer so that the membrane could operate in high water swollen in order to achieve the best separation performance. This study was conducted to develop and characterize the polyvinyl alcohol (PVA) thin film integrated with Zn-cyclen and cast over PES membrane for CO2 separation performance. The catalytic activity and stability of Zn-cyclen on the different pH (6, 7, 8, 9, 10, 11) and temperature (30 ºC, 40 ºC, 50 ºC, 60 ºC, 70 ºC, 80 ºC, 90 ºC) were determined. The optimum pH for Zn-cyclen to perform higher catalytic stability was at pH 9, while, the optimum temperature for higher Zn-cyclen activity was at 70 ºC. However, as the Zn-cyclen integrated onto the PES membrane, the Zn-cyclen pH and temperature stability had shifted at higher range which were at pH 10 and temperature 80 ºC due to indirect contact of pH and temperature on the Zn-cyclen. The pH and temperature stability of CA were at pH 7.5 and temperature 37 ºC. From the kinetics study, the kinetics parameters of Km, Vmax, and Kcat value for Zn-cyclen was 1.5491 mmol/L, 2.088 µmol/min, and 0.348 min-1 respectively. Meanwhile, the kinetics parameters of Km, Vmax, and Kcat value for CA enzyme was 1.594 mmol/L, 1.307 µmol/min, and 0.330 min-1 respectively. In comparison with CA, the Zn-cyclen had possess higher pH and temperature stability, and better value of enzyme kinetics parameters. Therefore, Zn-cyclen can be used to replace CA for better achievement in CO2 hydration reaction and separation performance. The integrated PES+PVA+Zn-cyclen membrane was developed through dip-coating method. The integrated PVA+Zn-cyclen thin film had improved the swelling behaviour and hydrophilicity of the PES membrane. Higher swelling percentage contributed into faster CO2 hydration rate. In the separation reaction of CO2 using integrated Zn-cyclen based membrane, the time taken for a complete carbonation reaction was 9.75 min, which was longer compared to free Zn-cyclen with 2.58 min at enzyme optimum temperature and flowrate of 80 ˚C, and 200 mL/min respectively. For CO2 separation experiment, CO2 feed flowrate was conducted by manipulating at (200, 500, 800, 1000 mL/min) and temperature at (30 ºC - 90 ºC). This finding showed that the integrated PES+PVA+Zn-cyclen membrane had better CO2 separation performance because the longer the carbonation reaction time, the higher the amount of CO2 adsorbed onto the membrane. In conclusion, Zn-cyclen is suitable to replace CA enzyme because it gives a better value of kinetics parameter and catalytic stability, and the use of integrated Zn-cyclen membrane is recommend due to better performances of CO2 separation. 2022 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/76590/1/76590.pdf Integration of polyvinyl alcohol (PVA) thin film with zinc-cyclen casted over polyethersulfone (PES) support membrane for carbon dioxide separation performance / Nursyuhani Che Husain. (2022) Masters thesis, thesis, Universiti Teknologi MARA (UiTM). <http://terminalib.uitm.edu.my/76590.pdf> |
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13.211869 |