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IMPROOF : integrated model guided process optimization of steam cracking furnaces

Marko Djokic (UGent) , Kevin Van Geem (UGent) , Geraldine Heynderickx (UGent) , Stijn Dekeukeleire (UGent) , Stijn Vangaever, Frederique Battin-Leclerc, Georgios Bellos, Wim Buysschaert, Benedicte Cuenot, Tiziano Faravell, et al.
(2017) SUSTAINABLE DESIGN AND MANUFACTURING 2017. In Smart Innovation Systems and Technologies 68. p.589-600
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Abstract
IMPROOF will develop and demonstrate the steam cracking furnace of the 21st century by drastically improving the energy efficiency of the current state-of-the-art, in a cost effective way, while simultaneously reducing emissions of greenhouse gases and NOX per ton of ethylene produced by at least 25%. Therefore, the latest technological innovations in the field of energy efficiency and fouling minimization are implemented and combined, proving that these technologies work properly at TRL 5 and 6 levels. The first steps to reach the ultimate objective, i.e. to deploy the furnace at the demonstrator at commercial scale with the most effective technologies, will be discussed based on novel pilot scale data and modeling results.
Keywords
Industrial steam cracking furnace design, Increased energy efficiency, Reduced coke formation, Reduced emissions of greenhouse gasses, Increased time on stream

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Citation

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MLA
Djokic, Marko, et al. “IMPROOF : Integrated Model Guided Process Optimization of Steam Cracking Furnaces.” SUSTAINABLE DESIGN AND MANUFACTURING 2017, edited by G. Campana et al., vol. 68, Springer, 2017, pp. 589–600, doi:10.1007/978-3-319-57078-5_56.
APA
Djokic, M., Van Geem, K., Heynderickx, G., Dekeukeleire, S., Vangaever, S., Battin-Leclerc, F., … Oud, P. (2017). IMPROOF : integrated model guided process optimization of steam cracking furnaces. In G. Campana, R. J. Howlett, & B. Cimatti (Eds.), SUSTAINABLE DESIGN AND MANUFACTURING 2017 (Vol. 68, pp. 589–600). https://doi.org/10.1007/978-3-319-57078-5_56
Chicago author-date
Djokic, Marko, Kevin Van Geem, Geraldine Heynderickx, Stijn Dekeukeleire, Stijn Vangaever, Frederique Battin-Leclerc, Georgios Bellos, et al. 2017. “IMPROOF : Integrated Model Guided Process Optimization of Steam Cracking Furnaces.” In SUSTAINABLE DESIGN AND MANUFACTURING 2017, edited by G. Campana, R. J. Howlett, and B. Cimatti, 68:589–600. Springer. https://doi.org/10.1007/978-3-319-57078-5_56.
Chicago author-date (all authors)
Djokic, Marko, Kevin Van Geem, Geraldine Heynderickx, Stijn Dekeukeleire, Stijn Vangaever, Frederique Battin-Leclerc, Georgios Bellos, Wim Buysschaert, Benedicte Cuenot, Tiziano Faravell, Michael Henneke, Dietlinde Jakobi, Philippe Lenain, Andres Muñoz Gandarillas, John Olver, Marco Van Goethem, and Peter Oud. 2017. “IMPROOF : Integrated Model Guided Process Optimization of Steam Cracking Furnaces.” In SUSTAINABLE DESIGN AND MANUFACTURING 2017, ed by. G. Campana, R. J. Howlett, and B. Cimatti, 68:589–600. Springer. doi:10.1007/978-3-319-57078-5_56.
Vancouver
1.
Djokic M, Van Geem K, Heynderickx G, Dekeukeleire S, Vangaever S, Battin-Leclerc F, et al. IMPROOF : integrated model guided process optimization of steam cracking furnaces. In: Campana G, Howlett RJ, Cimatti B, editors. SUSTAINABLE DESIGN AND MANUFACTURING 2017. Springer; 2017. p. 589–600.
IEEE
[1]
M. Djokic et al., “IMPROOF : integrated model guided process optimization of steam cracking furnaces,” in SUSTAINABLE DESIGN AND MANUFACTURING 2017, Bologna, Italy, 2017, vol. 68, pp. 589–600.
@inproceedings{8537840,
  abstract     = {{IMPROOF will develop and demonstrate the steam cracking furnace of the 21st century by drastically improving the energy efficiency of the current state-of-the-art, in a cost effective way, while simultaneously reducing emissions of greenhouse gases and NOX per ton of ethylene produced by at least 25%. Therefore, the latest technological innovations in the field of energy efficiency and fouling minimization are implemented and combined, proving that these technologies work properly at TRL 5 and 6 levels. The first steps to reach the ultimate objective, i.e. to deploy the furnace at the demonstrator at commercial scale with the most effective technologies, will be discussed based on novel pilot scale data and modeling results.}},
  author       = {{Djokic, Marko and Van Geem, Kevin and Heynderickx, Geraldine and Dekeukeleire, Stijn and Vangaever, Stijn and Battin-Leclerc, Frederique and Bellos, Georgios and Buysschaert, Wim and Cuenot, Benedicte and Faravell, Tiziano and Henneke, Michael and Jakobi, Dietlinde and Lenain, Philippe and Muñoz Gandarillas, Andres and Olver, John and Van Goethem, Marco and Oud, Peter}},
  booktitle    = {{SUSTAINABLE DESIGN AND MANUFACTURING 2017}},
  editor       = {{Campana, G. and Howlett, R. J. and Cimatti, B.}},
  isbn         = {{9783319570778}},
  issn         = {{2190-3018}},
  keywords     = {{Industrial steam cracking furnace design,Increased energy efficiency,Reduced coke formation,Reduced emissions of greenhouse gasses,Increased time on stream}},
  language     = {{eng}},
  location     = {{Bologna, Italy}},
  pages        = {{589--600}},
  publisher    = {{Springer}},
  title        = {{IMPROOF : integrated model guided process optimization of steam cracking furnaces}},
  url          = {{http://doi.org/10.1007/978-3-319-57078-5_56}},
  volume       = {{68}},
  year         = {{2017}},
}
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