Design and Optimization of Intensified Quaternary Petlyuk Configuration

Massimiliano Errico, P. Pirellas, B. G. Rong, J. G. Segovia-Hernandez

Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsForskningpeer review

Resumé

From its first introduction in 1965, the Petlyuk column received a high interest in the research community. Applied for the separation of three-component mixtures, the Petlyuk column is able to perform the separation with a reduced number of equipment and with a consistent reduction of the energy consumption compared to the classical sequences with simple columns. For a three-component separation the Petlyuk arrangement is composed by a prefractionator fully coupled with a main column that performs the separation of the products. Considering the great potential of these sequences it is natural to think about a possible extension to more than three component separations. In the present work a four component case is examined. If the divided wall column configuration is considered, the presence of three walls inside the main column makes the design and the control too complex to attract the industrial interest for a real application. New intensified sequences were proposed for the separation of four-component mixtures. These configurations use a less number of columns compared to the Petlyuk configuration. The case study reported proves the potential of the alternative configurations.

OriginalsprogEngelsk
Titel12th International Symposium on Process Systems Engineering
RedaktørerK. V. Gernaey, J. K. Huusom, R. Gani
ForlagElsevier
Publikationsdato2015
Sider1367-1372
ISBN (Trykt)9780444635778
DOI
StatusUdgivet - 2015
Begivenhed12th International Symposium on Process Systems Engineering and 25th European Symposium on Computer Aided Process Engineering - Bella Center, København, Danmark
Varighed: 31. maj 20154. jun. 2015

Konference

Konference12th International Symposium on Process Systems Engineering and 25th European Symposium on Computer Aided Process Engineering
LokationBella Center
LandDanmark
ByKøbenhavn
Periode31/05/201504/06/2015
NavnComputer Aided Chemical Engineering
NummerPart B
Vol/bind37
ISSN1570-7946

Fingeraftryk

Energy utilization

Citer dette

Errico, M., Pirellas, P., Rong, B. G., & Segovia-Hernandez, J. G. (2015). Design and Optimization of Intensified Quaternary Petlyuk Configuration. I K. V. Gernaey, J. K. Huusom, & R. Gani (red.), 12th International Symposium on Process Systems Engineering (s. 1367-1372). Elsevier. Computer Aided Chemical Engineering, Nr. Part B, Bind. 37 https://doi.org/10.1016/B978-0-444-63577-8.50073-5
Errico, Massimiliano ; Pirellas, P. ; Rong, B. G. ; Segovia-Hernandez, J. G. / Design and Optimization of Intensified Quaternary Petlyuk Configuration. 12th International Symposium on Process Systems Engineering. red. / K. V. Gernaey ; J. K. Huusom ; R. Gani. Elsevier, 2015. s. 1367-1372 (Computer Aided Chemical Engineering; Nr. Part B, Bind 37).
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abstract = "From its first introduction in 1965, the Petlyuk column received a high interest in the research community. Applied for the separation of three-component mixtures, the Petlyuk column is able to perform the separation with a reduced number of equipment and with a consistent reduction of the energy consumption compared to the classical sequences with simple columns. For a three-component separation the Petlyuk arrangement is composed by a prefractionator fully coupled with a main column that performs the separation of the products. Considering the great potential of these sequences it is natural to think about a possible extension to more than three component separations. In the present work a four component case is examined. If the divided wall column configuration is considered, the presence of three walls inside the main column makes the design and the control too complex to attract the industrial interest for a real application. New intensified sequences were proposed for the separation of four-component mixtures. These configurations use a less number of columns compared to the Petlyuk configuration. The case study reported proves the potential of the alternative configurations.",
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Errico, M, Pirellas, P, Rong, BG & Segovia-Hernandez, JG 2015, Design and Optimization of Intensified Quaternary Petlyuk Configuration. i KV Gernaey, JK Huusom & R Gani (red), 12th International Symposium on Process Systems Engineering. Elsevier, Computer Aided Chemical Engineering, nr. Part B, bind 37, s. 1367-1372, 12th International Symposium on Process Systems Engineering and 25th European Symposium on Computer Aided Process Engineering, København, Danmark, 31/05/2015. https://doi.org/10.1016/B978-0-444-63577-8.50073-5

Design and Optimization of Intensified Quaternary Petlyuk Configuration. / Errico, Massimiliano; Pirellas, P.; Rong, B. G.; Segovia-Hernandez, J. G.

12th International Symposium on Process Systems Engineering. red. / K. V. Gernaey; J. K. Huusom; R. Gani. Elsevier, 2015. s. 1367-1372 (Computer Aided Chemical Engineering; Nr. Part B, Bind 37).

Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsForskningpeer review

TY - GEN

T1 - Design and Optimization of Intensified Quaternary Petlyuk Configuration

AU - Errico, Massimiliano

AU - Pirellas, P.

AU - Rong, B. G.

AU - Segovia-Hernandez, J. G.

PY - 2015

Y1 - 2015

N2 - From its first introduction in 1965, the Petlyuk column received a high interest in the research community. Applied for the separation of three-component mixtures, the Petlyuk column is able to perform the separation with a reduced number of equipment and with a consistent reduction of the energy consumption compared to the classical sequences with simple columns. For a three-component separation the Petlyuk arrangement is composed by a prefractionator fully coupled with a main column that performs the separation of the products. Considering the great potential of these sequences it is natural to think about a possible extension to more than three component separations. In the present work a four component case is examined. If the divided wall column configuration is considered, the presence of three walls inside the main column makes the design and the control too complex to attract the industrial interest for a real application. New intensified sequences were proposed for the separation of four-component mixtures. These configurations use a less number of columns compared to the Petlyuk configuration. The case study reported proves the potential of the alternative configurations.

AB - From its first introduction in 1965, the Petlyuk column received a high interest in the research community. Applied for the separation of three-component mixtures, the Petlyuk column is able to perform the separation with a reduced number of equipment and with a consistent reduction of the energy consumption compared to the classical sequences with simple columns. For a three-component separation the Petlyuk arrangement is composed by a prefractionator fully coupled with a main column that performs the separation of the products. Considering the great potential of these sequences it is natural to think about a possible extension to more than three component separations. In the present work a four component case is examined. If the divided wall column configuration is considered, the presence of three walls inside the main column makes the design and the control too complex to attract the industrial interest for a real application. New intensified sequences were proposed for the separation of four-component mixtures. These configurations use a less number of columns compared to the Petlyuk configuration. The case study reported proves the potential of the alternative configurations.

KW - Design

KW - Distillation sequencing

KW - Energy saving

KW - Petlyuk configuration

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T3 - Computer Aided Chemical Engineering

SP - 1367

EP - 1372

BT - 12th International Symposium on Process Systems Engineering

A2 - Gernaey, K. V.

A2 - Huusom, J. K.

A2 - Gani, R.

PB - Elsevier

ER -

Errico M, Pirellas P, Rong BG, Segovia-Hernandez JG. Design and Optimization of Intensified Quaternary Petlyuk Configuration. I Gernaey KV, Huusom JK, Gani R, red., 12th International Symposium on Process Systems Engineering. Elsevier. 2015. s. 1367-1372. (Computer Aided Chemical Engineering; Nr. Part B, Bind 37). https://doi.org/10.1016/B978-0-444-63577-8.50073-5