Prediction of turbulent fluid mixing
in corrugated static mixers
Wybierz format
RIS BIB ENDNOTE
Prediction of turbulent fluid mixing
in corrugated static mixers
Data publikacji: 10.11.2014
Czasopismo Techniczne, 2014, Chemia Zeszyt 2-Ch (24) 2014 , s. 165-174
Autorzy
Prediction of turbulent fluid mixing
in corrugated static mixers
This work deals with the analysis of the turbulent flow of Newtonian fluids in pipelines equipped with corrugated plate static mixers. The investigation is carried out by Computational Fluid Dynamics simulations based on the numerical solution of the Reynolds Averaged continuity, momentum and scalar transport equations coupled with the standard k‒ε turbulence model. The mixing characteristics of the SMV mixer in blending two miscible liquids having equal or different density are presented and the effects of different operating conditions are discussed. Finally, the effectiveness of the simulation results to provide guidelines for the optimization of the static mixing operating conditions and design are highlighted.
Coroneo M., Montante G., Paglianti A., Computational fluid dynamics modeling of corrugated static mixers for turbulent applications, Industrial and Engineering Chemistry Research, 51, 2012, 15986-15996.
Etchells A.W., Meyer C.F., 2004. Chaper 7, Mixing in Pipelines, p. 422-424, [in:] Paul E.L., Atiemo-Obeng V.A., Kresta, S.M. (Eds.), Handbook of Industrial Mixing, Wiley-Interscience: Hoboken, NJ.
Hartmann H., Derksen J.J., Van den Akker H.E.A., Mixing times in a turbulent stirred tank by means of LES, AIChE Journal, 52, 2006, 3696-3706.
Karoui A., Hakenholz F., Le Sauze N., Costes J., Bertrand J., Determination of the mixing performance of sulzer SMV static mixers by laser induced fluorescence, Can. J. Chem. Eng., 76, 1998,522-526.
Karoui A., Le Sauze N., Costes J., Bertrand J., Experimental and numerical study of flow at the outlet of Sulzer SMV static mixers, Récents Progrès en Génie des Procédés, 11, 1997, 323-330.
Launder B.E., Spalding D.B., The numerical computation of turbulent flows, Comput. Meth. Appl. Mech. Engrg., 3, 1974, 269-289.
Marshall E.M., Bakker A., 2004, Chapter 5, Computational Fluid Mixing, p. 325, [in:] Paul E.L., Atiemo-Obeng V.A., Kresta S.M. (Eds.), Handbook of Industrial Mixing, Wiley-Interscience: Hoboken, NJ.
Paglianti A., Montante G., A mechanistic model for pressure drops in corrugated plates static mixers, Chemical Engineering Science, 97, 2013, 376-384.
Streiff F.A., Jaffer S., Schneider G., 1999, The design and application of static mixer technology, Third International Symposium on Mixing in Industrial Processes, Osaka, Japan, September 19th‒22th., 107-114.
Thakur R.K., Vial Ch., Nigam K.D.P., Nauman E.B., Djelveh G., Static Mixers in the process industries- A review, Chemical Engineering Research and Design, 81, 2003, 787-826.
Informacje: Czasopismo Techniczne, 2014, Chemia Zeszyt 2-Ch (24) 2014 , s. 165-174
Typ artykułu: Oryginalny artykuł naukowy
Tytuły:
Prediction of turbulent fluid mixing
in corrugated static mixers
Prediction of turbulent fluid mixing
in corrugated static mixers
CHIMIND
DICAM, Università di Bologna, Italy.
CHIMIND
DICAM, Università di Bologna, Italy.
Publikacja: 10.11.2014
Status artykułu: Otwarte
Licencja: Żadna
Udział procentowy autorów:
Korekty artykułu:
-Języki publikacji:
AngielskiLiczba wyświetleń: 1902
Liczba pobrań: 1780