Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling
ZIF-8 membranes are an option for separating acid gas from diatomic nonmetal gas, proposing an alternative technology for combating increasing greenhouse gas emissions and reducing climate change's harms. Synthesis and operational parameters are the critical factors that contribute to the upwar...
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my.uniten.dspace-361732025-03-03T15:41:30Z Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling Suhaimi N.H. Yeong Y.F. Jusoh N. Waqas S. Arshad U. Yap B.K. 57214777218 25823579000 54991089100 57210701927 57221461706 26649255900 Gas permeable membranes Greenhouse gas emissions Kyoto Protocol Taguchi methods Acid gas CO2/N2 separation Diatomics Gas separations Membrane performance Neural-networks Synthesis parameters Taguchi analysis ZIF-8 ZIF-8 membranes Nafion membranes ZIF-8 membranes are an option for separating acid gas from diatomic nonmetal gas, proposing an alternative technology for combating increasing greenhouse gas emissions and reducing climate change's harms. Synthesis and operational parameters are the critical factors that contribute to the upward trend in membrane performance in gas separation applications. In this study, the L8 (23) orthogonal array of the Taguchi method was adopted to identify the optimum conditions for separating acid gas from diatomic nonmetal gas. Three key parameters - seeding duration, growth time, and operating pressure were investigated at two levels each. From Taguchi analysis, the SN ratio and means are influenced by growth time, with a delta of 2.266, for CO2 flux. Meanwhile, the SN ratio and means for CO2/N2 ideal gas selectivity are impacted by seeding duration, with a delta of 4.190. Additionally, a feedforward artificial neural network (ANN) with three inputs, one hidden layer, and two outputs is employed to develop a predictive model. The findings indicated that the ANN successfully projected the CO2 flux and CO2/N2 ideal gas selectivity, with an R-value of 1 for training, validation, testing, and overall, respectively suggesting the validity of the model. Overall, customizing synthesis and operating parameters using the Taguchi method improves membrane performance and reduces variation, while the ANN model provides insight into forecasting acid gas separation from diatomic nonmetals application. ? 2024 The Authors Final 2025-03-03T07:41:30Z 2025-03-03T07:41:30Z 2024 Article 10.1016/j.rineng.2024.103102 2-s2.0-85206258302 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85206258302&doi=10.1016%2fj.rineng.2024.103102&partnerID=40&md5=5dcbeed54bcc9c7ce44a79d6816cbc82 https://irepository.uniten.edu.my/handle/123456789/36173 24 103102 All Open Access; Gold Open Access Elsevier B.V. Scopus |
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Gas permeable membranes Greenhouse gas emissions Kyoto Protocol Taguchi methods Acid gas CO2/N2 separation Diatomics Gas separations Membrane performance Neural-networks Synthesis parameters Taguchi analysis ZIF-8 ZIF-8 membranes Nafion membranes |
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Gas permeable membranes Greenhouse gas emissions Kyoto Protocol Taguchi methods Acid gas CO2/N2 separation Diatomics Gas separations Membrane performance Neural-networks Synthesis parameters Taguchi analysis ZIF-8 ZIF-8 membranes Nafion membranes Suhaimi N.H. Yeong Y.F. Jusoh N. Waqas S. Arshad U. Yap B.K. Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling |
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ZIF-8 membranes are an option for separating acid gas from diatomic nonmetal gas, proposing an alternative technology for combating increasing greenhouse gas emissions and reducing climate change's harms. Synthesis and operational parameters are the critical factors that contribute to the upward trend in membrane performance in gas separation applications. In this study, the L8 (23) orthogonal array of the Taguchi method was adopted to identify the optimum conditions for separating acid gas from diatomic nonmetal gas. Three key parameters - seeding duration, growth time, and operating pressure were investigated at two levels each. From Taguchi analysis, the SN ratio and means are influenced by growth time, with a delta of 2.266, for CO2 flux. Meanwhile, the SN ratio and means for CO2/N2 ideal gas selectivity are impacted by seeding duration, with a delta of 4.190. Additionally, a feedforward artificial neural network (ANN) with three inputs, one hidden layer, and two outputs is employed to develop a predictive model. The findings indicated that the ANN successfully projected the CO2 flux and CO2/N2 ideal gas selectivity, with an R-value of 1 for training, validation, testing, and overall, respectively suggesting the validity of the model. Overall, customizing synthesis and operating parameters using the Taguchi method improves membrane performance and reduces variation, while the ANN model provides insight into forecasting acid gas separation from diatomic nonmetals application. ? 2024 The Authors |
| author2 |
57214777218 |
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57214777218 Suhaimi N.H. Yeong Y.F. Jusoh N. Waqas S. Arshad U. Yap B.K. |
| format |
Article |
| author |
Suhaimi N.H. Yeong Y.F. Jusoh N. Waqas S. Arshad U. Yap B.K. |
| author_sort |
Suhaimi N.H. |
| title |
Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling |
| title_short |
Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling |
| title_full |
Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling |
| title_fullStr |
Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling |
| title_full_unstemmed |
Selective acid gas separation from diatomic nonmetal gas via ZIF-8 membrane: Taguchi analysis and neural network modeling |
| title_sort |
selective acid gas separation from diatomic nonmetal gas via zif-8 membrane: taguchi analysis and neural network modeling |
| publisher |
Elsevier B.V. |
| publishDate |
2025 |
| _version_ |
1825816140080742400 |
| score |
13.244413 |