Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
New Solution of Crystal Dischrge from FL Crystallizer
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
194--197
Opis fizyczny
Bibliogr. 23 poz.
Twórcy
autor
- Katedra Inżynierii Chemicznej i Projektowania Procesowego, Politechnika Śląska, Gliwice
autor
- Katedra Inżynierii Chemicznej i Projektowania Procesowego, Politechnika Śląska, Gliwice, Instytut Nawozów Sztucznych O. IChN Gliwice
Bibliografia
- 1. Isaachsen I., Jeremiassen F.: Ein neues industrielles Kristallisierungs-verfahren. Zeitsch. Ang. Chem., 1925, 38, 317–322.
- 2. Hoffmann G.: Situation of plant construction in industrial crystallization –a process intensyfication, 2005, ISIC 16, 759–772.
- 3. Al.-Rashed, M., Wójcik, J., Plewik, R., Synowiec, P., Kuś, A.: Multiphase CFD modelling – scale-up of Fluidized-Bed Crystallizer. Computer Aided. Chemical Engineering 2009, 26, 695–700.
- 4. Al.-Rashed, M., Wójcik, J., Plewik, R., Synowiec, P., Kuś, A: Multiphase CFD modeling: Fluid dynamics aspects in scale-up of a fluidized-bed crystallizer, Chem Eng Proces 2013, 63, 7– 15.
- 5. Z. Sha, C. Xiong, Q. Chen: Scale-up of a Fluidized Bed Crystallizer on the Basis of Solid Suspension. Chem. Eng. Technol, 2013, 36, 8, 1307–1312.
- 6. Matz G.: Untersuchungsmethoden für die klassifizierende Krystallisation. Wärme, 1964, 70, 3, 99–107.
- 7. Wójcik J.: Population balance in a fluidized-bed crystallizer with ideal classification, Inżynieria Chemiczna i Procesowa 1997, 18 (3) 411–426.
- 8. Mullin J.W., Nývlt J.: Design of classifying crystallizers. Trans. Instn Chem. Engrs, 1970, 48, T7- T14.
- 9. Pulley C. A.: The Krystal crystallizer. The Ind. Chem. 1962, 38, 63–66, 127–132, 175–178.
- 10. Frances C., Biscans B. & Laguerie C.: Modelling of a continuous fluidized-bed crystallizer Effect of mixing and segregation on crystal size distribution during the crystallization of tetrahydrate sodium perborate. Chem. Engng. Sci. 1994, 49, 3269–3276.
- 11. Wojcik J., Modelling of crystal time distribution in the fluidized-bed crystallizer, ISIC16,VDI Berichte (1901) 2005, 1015–1019.
- 12. Kennedy S.C., Bretton R.H.: Axial dispersion of spheras fluidized with liquids, AIChEJ 1966, 12, 1, 24–32.
- 13. Wojcik J., Plewik R.,: Hydrodynamic modeling of fluidized-bed crystallizers with use of the multiphase CFD method. Chemical Engineering and Processing 2009, 48, 1527–1533.
- 14. Plewik R., Synowiec P., Wójcik J., Kuś A.: Suspension flow in crystallizers with and without hydraulic classification. Chem Eng Res Des 2010, 88, 1194–1199.
- 15. Synowiec P. M., Małysiak A. and Wójcik J.: Fluiddynamics scale-up problems in the DTM crystallizer. Chem. Eng. Sci. 2012, 77, 78–84.
- 16. Synowiec P., Sangl R., Mersmann A.: Crystallization of Potash Alumn in a MSMPR Crystallizer. Chemical Engineering & Technology 1992, 15, 401–405,
- 17. 17. Rumford F., Bain J.: The controlled crystallization of sodium chloride. Trans.Instn. Chem. Engrs 1960, 38, 10–20.
- 18. 18. Wojcik J., Plewik R.: CFD modelling of a fluidized-bed crystallizer, Inżynieria Chemiczna i Procesowa 2007, 28, 75–83.
- 19. Zauner R., Jones A.G.: Scale-up of continuous and semibatch precipitation processes. Industrial and Engineering Chemistry Research 2000, 39, 2392–2403.
- 20. Barrett M., O’Grady D., Casey E., Glennon B., The role of meso-mixing in anti-solvent crystallization processes, Chemical Engineering Science 2011, 66, 2523–2534.
- 21. Kougoulos E., Jones A.G., Wood-Kaczmar M.W., Process modelling tools for continuous and batch organic crystallization processes including application to scale-up, Organic Process Research & Development 2006, 10, 739–750.
- 22. Synowiec P., Effect of Geometry Selected Aspects in the DTM Crystallizer on Power Input and Pumping Capacity, Trans IChemE, 2002, 80, Part A, March, 209–214.
- 23. Wojcik J., Synowiec P., Plewik R., Product suspension output system from FL crystallizer 2012,PL 211484 B1 Patent.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-03e84c25-972c-4236-8d70-d91ee51e06a3