Ethylene yield in a large-scale olefin plant utilizing regression analysis
The research was carried out in a large-scale olefin process to see how different variables affect ethylene yield in an actual fluctuating plant condition. Regression analysis was adopted using Minitab Software Version 18 to create a reliable ethylene yield model. Regression analysis is a robust, pr...
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Iran Polymer and Petrochemical Institute
2021
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my.utm.975632022-10-18T02:18:48Z http://eprints.utm.my/id/eprint/97563/ Ethylene yield in a large-scale olefin plant utilizing regression analysis Zakria, Mohamad Hafizi Mohd. Nawawi, Mohd. Ghazali Abdul Rahman, Mohd. Rizal Saudi, Mohd. Anas TP Chemical technology The research was carried out in a large-scale olefin process to see how different variables affect ethylene yield in an actual fluctuating plant condition. Regression analysis was adopted using Minitab Software Version 18 to create a reliable ethylene yield model. Regression analysis is a robust, practical, and advanced tool that is used in various applications as an alternative to the complex, expensive, and restricted simulation software that is specifically designed for the olefin process. The 1688 data taken from the studied plant underwent outliers and residuals removal utilizing normality and stability tools in Minitab for the analysis to be conducted as normal data. The Regression was conducted a few times until all variables satisfactorily met the multicollinearity criteria with Variance Inflation Factor (VIF) <10 and 95% confidence level criteria with P-Value <0.05. The final Regression model established 4 significant variables which were Hearth Burner Flow, Integral Burner Flow, Super High-Pressure Steam (SHP) Temperature, and Naphtha Feed Flow by factors of-0.001266, 0.04515,-0.0795, and 0.2105, respectively. The maximum ethylene yield was calculated at 31.75% using Response Optimizer with the recommended operating conditions at 9908.50 kg/h Hearth Burner Flow, 600.39 kg/h Integral Burner Flow, 494.65°C SHP Temperature, and 63.50 t/h Naphtha Feed Flow. Polyolefins J (2021) 8: 105-113. Iran Polymer and Petrochemical Institute 2021 Article PeerReviewed Zakria, Mohamad Hafizi and Mohd. Nawawi, Mohd. Ghazali and Abdul Rahman, Mohd. Rizal and Saudi, Mohd. Anas (2021) Ethylene yield in a large-scale olefin plant utilizing regression analysis. Polyolefins Journal, 8 (2). pp. 105-113. ISSN 2322-2212 http://dx.doi.org/10.22063/poj.2021.2795.1169 DOI : 10.22063/poj.2021.2795.1169 |
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TP Chemical technology Zakria, Mohamad Hafizi Mohd. Nawawi, Mohd. Ghazali Abdul Rahman, Mohd. Rizal Saudi, Mohd. Anas Ethylene yield in a large-scale olefin plant utilizing regression analysis |
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The research was carried out in a large-scale olefin process to see how different variables affect ethylene yield in an actual fluctuating plant condition. Regression analysis was adopted using Minitab Software Version 18 to create a reliable ethylene yield model. Regression analysis is a robust, practical, and advanced tool that is used in various applications as an alternative to the complex, expensive, and restricted simulation software that is specifically designed for the olefin process. The 1688 data taken from the studied plant underwent outliers and residuals removal utilizing normality and stability tools in Minitab for the analysis to be conducted as normal data. The Regression was conducted a few times until all variables satisfactorily met the multicollinearity criteria with Variance Inflation Factor (VIF) <10 and 95% confidence level criteria with P-Value <0.05. The final Regression model established 4 significant variables which were Hearth Burner Flow, Integral Burner Flow, Super High-Pressure Steam (SHP) Temperature, and Naphtha Feed Flow by factors of-0.001266, 0.04515,-0.0795, and 0.2105, respectively. The maximum ethylene yield was calculated at 31.75% using Response Optimizer with the recommended operating conditions at 9908.50 kg/h Hearth Burner Flow, 600.39 kg/h Integral Burner Flow, 494.65°C SHP Temperature, and 63.50 t/h Naphtha Feed Flow. Polyolefins J (2021) 8: 105-113. |
| format |
Article |
| author |
Zakria, Mohamad Hafizi Mohd. Nawawi, Mohd. Ghazali Abdul Rahman, Mohd. Rizal Saudi, Mohd. Anas |
| author_facet |
Zakria, Mohamad Hafizi Mohd. Nawawi, Mohd. Ghazali Abdul Rahman, Mohd. Rizal Saudi, Mohd. Anas |
| author_sort |
Zakria, Mohamad Hafizi |
| title |
Ethylene yield in a large-scale olefin plant utilizing regression analysis |
| title_short |
Ethylene yield in a large-scale olefin plant utilizing regression analysis |
| title_full |
Ethylene yield in a large-scale olefin plant utilizing regression analysis |
| title_fullStr |
Ethylene yield in a large-scale olefin plant utilizing regression analysis |
| title_full_unstemmed |
Ethylene yield in a large-scale olefin plant utilizing regression analysis |
| title_sort |
ethylene yield in a large-scale olefin plant utilizing regression analysis |
| publisher |
Iran Polymer and Petrochemical Institute |
| publishDate |
2021 |
| url |
http://eprints.utm.my/id/eprint/97563/ http://dx.doi.org/10.22063/poj.2021.2795.1169 |
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1748180477153378304 |
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13.211869 |