Determination of naphtha composition by near infrared spectroscopy and multivariate regression to control steam cracker processes
Naphtha is an important feedstock for the petrochemical industry and accurate measurement of its detailed composition is essential for the optimization of pyrolysis processes. In the present work, the suitability of using near infrared (NIR) for the determination of 38 parameters used to characteriz...
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| Published in: | Fuel processing technology Vol. 131; pp. 230 - 237 |
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01-03-2015
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| Abstract | Naphtha is an important feedstock for the petrochemical industry and accurate measurement of its detailed composition is essential for the optimization of pyrolysis processes. In the present work, the suitability of using near infrared (NIR) for the determination of 38 parameters used to characterize naphtha was evaluated: pooled composition (PIONA); specific composition groups (C3 paraffins; C4–C12 n-paraffins; C4–C12 iso-paraffins; C5–C7+ naphthenics; C8–C10 aromatics; C4–C6 olefins) and individual components (toluene, benzene, iso-pentane, cyclopentane, methyl cyclopentane; cyclohexane, xylenes, 1,3 butadiene and isoprene). Besides the usual comparison against reference methods, NIR predictions were also evaluated for their ultimate use in determining the coil outlet temperature (COT) for process control. 28 models for the naphtha parameters presented root mean square error (RMSEP) values lower or close to the reproducibility of the reference method and exhibited satisfactory correlation values (r2) when compared with r2max. Among the ten remaining parameters, two (1,3 butadiene and isoprene) presented very low concentrations and it was not possible to obtain a suitable model. Eight parameters had RMSEP values higher than the intralaboratory reproducibility and/or r2 values lower than expected. Despite this, the complete naphtha composition obtained from NIR prediction was demonstrated to be quite suitable for COT simulation, providing accurate COT values compared to the values estimated from the reference method.
•NIR application for optimization of naphtha steam cracker processes was demonstrated.•PLS modeling of 38 parameters of naphtha composition, individual compounds included•No bibliographic or commercial reference was found for the proposed application.•Models were validated by traditional approach and through final use in the process.•Method allows for more frequent analysis and improvement of process performance. |
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| AbstractList | Naphtha is an important feedstock for the petrochemical industry and accurate measurement of its detailed composition is essential for the optimization of pyrolysis processes. In the present work, the suitability of using near infrared (NIR) for the determination of 38 parameters used to characterize naphtha was evaluated: pooled composition (PIONA); specific composition groups (C3 paraffins; C4–C12 n-paraffins; C4–C12 iso-paraffins; C5–C7+ naphthenics; C8–C10 aromatics; C4–C6 olefins) and individual components (toluene, benzene, iso-pentane, cyclopentane, methyl cyclopentane; cyclohexane, xylenes, 1,3 butadiene and isoprene). Besides the usual comparison against reference methods, NIR predictions were also evaluated for their ultimate use in determining the coil outlet temperature (COT) for process control. 28 models for the naphtha parameters presented root mean square error (RMSEP) values lower or close to the reproducibility of the reference method and exhibited satisfactory correlation values (r2) when compared with r2max. Among the ten remaining parameters, two (1,3 butadiene and isoprene) presented very low concentrations and it was not possible to obtain a suitable model. Eight parameters had RMSEP values higher than the intralaboratory reproducibility and/or r2 values lower than expected. Despite this, the complete naphtha composition obtained from NIR prediction was demonstrated to be quite suitable for COT simulation, providing accurate COT values compared to the values estimated from the reference method.
•NIR application for optimization of naphtha steam cracker processes was demonstrated.•PLS modeling of 38 parameters of naphtha composition, individual compounds included•No bibliographic or commercial reference was found for the proposed application.•Models were validated by traditional approach and through final use in the process.•Method allows for more frequent analysis and improvement of process performance. Naphtha is an important feedstock for the petrochemical industry and accurate measurement of its detailed composition is essential for the optimization of pyrolysis processes. In the present work, the suitability of using near infrared (NIR) for the determination of 38 parameters used to characterize naphtha was evaluated: pooled composition (PIONA); specific composition groups (C3 paraffins; C4-C12 n-paraffins; C4-C12 iso-paraffins; C5-C7 + naphthenics; C8-C10 aromatics; C4-C6 olefins) and individual components (toluene, benzene, iso-pentane, cyclopentane, methyl cyclopentane; cyclohexane, xylenes, 1,3 butadiene and isoprene). Besides the usual comparison against reference methods, NIR predictions were also evaluated for their ultimate use in determining the coil outlet temperature (COT) for process control. 28 models for the naphtha parameters presented root mean square error (RMSEP) values lower or close to the reproducibility of the reference method and exhibited satisfactory correlation values (r super(2)) when compared with r super(2) sub(max). Among the ten remaining parameters, two (1,3 butadiene and isoprene) presented very low concentrations and it was not possible to obtain a suitable model. Eight parameters had RMSEP values higher than the intralaboratory reproducibility and/or r super(2) values lower than expected. Despite this, the complete naphtha composition obtained from NIR prediction was demonstrated to be quite suitable for COT simulation, providing accurate COT values compared to the values estimated from the reference method. |
| Author | Pontes, Márcio José Coelho da Silva, Vitor Hugo Salles, Alan Rocha Pasquini, Celio Pimentel, Maria Fernanda Reboucas, Marcio V. |
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| CitedBy_id | crossref_primary_10_3390_en16083568 crossref_primary_10_1016_j_fuel_2015_07_067 crossref_primary_10_1016_j_fuel_2020_118854 crossref_primary_10_1016_j_molstruc_2022_133743 crossref_primary_10_1016_j_lwt_2017_06_060 crossref_primary_10_1016_j_saa_2022_122079 crossref_primary_10_1021_acs_energyfuels_7b01646 crossref_primary_10_2118_209577_PA crossref_primary_10_1049_iet_smt_2016_0440 crossref_primary_10_1016_j_saa_2021_120302 crossref_primary_10_1016_j_jaap_2019_104768 crossref_primary_10_1016_j_aca_2018_04_004 crossref_primary_10_1016_j_saa_2018_04_042 crossref_primary_10_1021_acs_iecr_7b01849 |
| Cites_doi | 10.1016/j.fuel.2005.10.007 10.1016/S0950-3293(99)00039-7 10.1016/j.chroma.2005.06.087 10.1016/j.talanta.2005.03.025 10.1016/j.vibspec.2006.09.004 10.1016/S0021-9673(00)91791-6 10.1016/j.vibspec.2009.09.006 10.1039/a905693i 10.5012/bkcs.2004.25.5.647 10.1016/j.fuproc.2005.08.013 10.1366/000370206778062219 10.1039/b003805i |
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| Keywords | Pyrolysis COT Naphtha NIR Multivariate calibration Steam cracker |
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| SubjectTerms | Butadiene Computer simulation COT Isoprene Mathematical models Multivariate calibration Naphtha NIR Olefins Paraffins Pyrolysis Regression Reproducibility Steam cracker |
| Title | Determination of naphtha composition by near infrared spectroscopy and multivariate regression to control steam cracker processes |
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