CFD modeling of mixing and suspension in pulp stock ... - ESSS
CFD modeling of mixing and suspension in pulp stock ... - ESSS
CFD modeling of mixing and suspension in pulp stock ... - ESSS
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
for mathematical <strong>model<strong>in</strong>g</strong> please see:<br />
• Bhole, M.; Ford, C.; Benn<strong>in</strong>gton, C.P.J. Characterization <strong>of</strong> Axial Flow Impellers <strong>in</strong> Pulp Fibre<br />
Suspensions. Chemical Eng<strong>in</strong>eer<strong>in</strong>g Research <strong>and</strong> Design vol. 87 (4A), pp. 648–653. 2009.<br />
• Ford, C.; E<strong>in</strong>-Mozaffari, F.; Benn<strong>in</strong>gton, C. P. J.; Taghipour, F. Simulation <strong>of</strong> Mix<strong>in</strong>g Dynamics <strong>in</strong> Agitated<br />
Pulp Stock Chests us<strong>in</strong>g <strong>CFD</strong>. AIChE J. vol. 52, num. 10, pp. 3562-3569. 2006.<br />
• Kor, Y. K.; Pr<strong>in</strong>ce, R. G. H.; Fletcher, D. F. Us<strong>in</strong>g <strong>CFD</strong> to Identify Means <strong>of</strong> Reduc<strong>in</strong>g Power Consumption<br />
for Mix<strong>in</strong>g <strong>and</strong> Suspension <strong>in</strong> Paper Pulp Stock Chests. Asia-Pacific Journal <strong>of</strong> Chemical Eng<strong>in</strong>eer<strong>in</strong>g<br />
vol. 3, num. 2, pp. 144-150. 2008.<br />
• Osh<strong>in</strong>owo, L. M.; Bakker, A. <strong>CFD</strong> Model<strong>in</strong>g <strong>of</strong> Solids Suspensions <strong>in</strong> Stirred Tanks. Symposium on<br />
Computational Model<strong>in</strong>g <strong>of</strong> Metals, M<strong>in</strong>erals <strong>and</strong> Materials, TMS Annual Meet<strong>in</strong>g, Seattle, WA. February<br />
17-21, 2002.<br />
• Pakzad, L.; E<strong>in</strong>-Mozaffari, F.; Chan, P. Us<strong>in</strong>g Computational Fluid Dynamics Model<strong>in</strong>g to Study the<br />
Mix<strong>in</strong>g <strong>of</strong> Pseudoplastic Fluids with a Scaba 6SRGT Impeller. Chemical Eng<strong>in</strong>eer<strong>in</strong>g <strong>and</strong> Process<strong>in</strong>g vol.<br />
47, num. 12, pp. 2218–2227. 2008.<br />
• Ramasubramanian, M. K.; Shiffler, D. A.; Jayach<strong>and</strong>ran, A. A Computational Fluid Dynamics Model<strong>in</strong>g<br />
<strong>and</strong> Experimental Study <strong>of</strong> the Mix<strong>in</strong>g Process for the Dispersion <strong>of</strong> the Synthetic Fibers <strong>in</strong> Wet-Lay<br />
Form<strong>in</strong>g. Journal <strong>of</strong> Eng<strong>in</strong>eered Fibers <strong>and</strong> Fabrics vol. 3, num. 1, pp. 11-20. 2008.<br />
• Roux, Jean-Claude. Stock Preparation Part 1 – Pulp Treatment Processes. 12th Fundamental Research<br />
Symposium, Oxford. September, 2001.<br />
• Saeed, S.; E<strong>in</strong>-Mozaffari, F.; Upreti, S. R. Us<strong>in</strong>g Computational Fluid Dynamics To Study the Dynamic<br />
Behavior <strong>of</strong> the Cont<strong>in</strong>uous Mix<strong>in</strong>g <strong>of</strong> Herschel-Bulkley Fluids. Ind. Eng. Chem. Res.vol. 47, num. 19, pp.<br />
7465–7475. 2008.<br />
• Spogis, N.; Nunhez, J.R. Design <strong>of</strong> a High-Efficiency Hydr<strong>of</strong>oil Through the Use <strong>of</strong> Computational Fluid<br />
Dynamics <strong>and</strong> Multiobjective Optimization. AIChE J. vol. 55, num. 7, pp. 1723-1735. 2009.