An Integrated Methodology for Design of Tailor-Made Blended Products
Publication: Research - peer-review › Article in proceedings – Annual report year: 2012
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An Integrated Methodology for Design of Tailor-Made Blended Products. / Yunus, Nor Alafiza; Gernaey, Krist; Woodley, John; Gani, Rafiqul.
In: Proceedings of the 22nd European Symposium on Computer Aided Process Engineering. Elsevier Science, 2012. p. 752-756 (Computer Aided Chemical Engineering, Vol. 30).Publication: Research - peer-review › Article in proceedings – Annual report year: 2012
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TY - GEN
T1 - An Integrated Methodology for Design of Tailor-Made Blended Products
A1 - Yunus,Nor Alafiza
A1 - Gernaey,Krist
A1 - Woodley,John
A1 - Gani,Rafiqul
AU - Yunus,Nor Alafiza
AU - Gernaey,Krist
AU - Woodley,John
AU - Gani,Rafiqul
PB - Elsevier Science
PY - 2012
Y1 - 2012
N2 - A computer-aided methodology has been developed for the design of blended (mixture) products. Through this methodology, it is possible to identify the most suitable chemicals for blending, and “tailor” the blend according to specified product needs. The methodology has three stages: 1) product design, 2) process identification, and 3) experimental verification. The principle problem, which is the product design stage is divided into four sub-problems and solved with a decomposition-based approach. In stage two, the ability to produce the chemicals used as building blocks in the blends is analyzed. Finally, experimental work (or detailed model-based verification) is conducted in stage three to validate the selected blend candidates. In this study, the product design stage is highlighted through a case study of gasoline blends with bio-based chemicals. The objective of this study is to identify blended gasoline products that match (or improve) the performance of the conventional gasoline.
AB - A computer-aided methodology has been developed for the design of blended (mixture) products. Through this methodology, it is possible to identify the most suitable chemicals for blending, and “tailor” the blend according to specified product needs. The methodology has three stages: 1) product design, 2) process identification, and 3) experimental verification. The principle problem, which is the product design stage is divided into four sub-problems and solved with a decomposition-based approach. In stage two, the ability to produce the chemicals used as building blocks in the blends is analyzed. Finally, experimental work (or detailed model-based verification) is conducted in stage three to validate the selected blend candidates. In this study, the product design stage is highlighted through a case study of gasoline blends with bio-based chemicals. The objective of this study is to identify blended gasoline products that match (or improve) the performance of the conventional gasoline.
KW - Product design
KW - Chemical blends
KW - Decomposition method
KW - Gasoline
BT - Proceedings of the 22nd European Symposium on Computer Aided Process Engineering
T2 - Proceedings of the 22nd European Symposium on Computer Aided Process Engineering
T3 - Computer Aided Chemical Engineering
T3 - en_GB
SP - 752
EP - 756
ER -