Modelling deinking selectivity in multistage flotation systems

Separation and Purification Technology

Volumn 54, Issue 1, 2007, Pages 77-87

  Beneventi, D ^a   Benesse, M ^a   Carre B ^b   Julien Saint Amand, F ^c   Salgueiro, L ^a  

^a Laboratory of Pulp and Paper Industry LGP2 UMR CNRS 5518   (France)

^b CENTRE TECHNIQUE DU PAPIER   (France)

^c NONE

Author keywords

Flotation deinking; Multistage flotation; Process modelling; Selectivity

Indexed keywords

COMPUTER SIMULATION; DEINKING; INK; PROCESS ENGINEERING; REMOVAL;

FLOTATION DEINKING; MULTISTAGE FLOTATION; PROCESS MODELLING;

FLOTATION;

EID: 33846833946     PISSN: 13835866     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.seppur.2006.08.010     Document Type: Article

References (46)

1. Confederation of European Paper Industries, Special Recycling 2004 Statistics, CEPI, http://www.cepi.org/, Brussels (2005).
2. Julien Saint Amand F. Evaluation of decontamination techniques: influence of particle size and modelling. Revue ATIP 45 (1991) 145-156 159-164
3. Onusseit H. The influence of adhesive on recycling. Resour. Conserv. Recycl. 46 (2006) 168-181
4. Fabry B., Roux J.-C., and Carre B. Characterization of friction during pulping: an interesting tool to achieve good deinking. J. Pulp Paper Sci. 27 (2001) 284-288
5. Fabry B., and Carre B. Comparison between Different Types of Pulpers Devoted to Deinking Processes. TAPPI Fall Technical Conference and Trade Fair, San Diego, CA, United States, September 8-11 (2002) 390-405
6. Theander K., and Pugh R.J. Surface chemicals concepts of flotation de-inking. Colloid Surf. A-Physicochem. Eng. Asp. 240 (2004) 111-130
7. Kemper M. State-of-the-art and new technologies in flotation deinking. Int. J. Miner. Process 56 (1999) 317-333
8. Collins L. Renewable energy from wood and paper: technological and cultural implications. Technol. Soc. 20 (1998) 157-177
9. Byström S., and Lönnstedt L. Paper recycling: a discussion of methodological approaches. Resour. Conserv. Recycl. 28 (2000) 55-65
10. Heimonen J., and Stenius P. The Effects and Behaviour of Different Types of Deinking Chemicals in the Deinking of Coated and Non-Coated Paper Third Research Forum on Recycling. Vancouver, BC, Canada, November 20-22 (1995) 57-63
11. Rao R., Bourdelin M., and Stenius P. The influence of surfactant structure on ink detachment. Proceedings of the 52nd APPITA Annual General Conference, vol. 1. Brisbane, Australia, May 11-14 (1998) 203-208
12. Gomez C.O., Watson J.A., and Finch J.A.S. Recycled Paper Deinking Using Column Flotation Third Research Forum on Recycling. Vancouver, BC, Canada, November 20-22 (1995) 41-44
13. Dessureault S., Carabin P., Thom A., Kleuser J., and Gitzen P. Column flotation: a significant simplification of the flotation deinking process. Progr. Paper Recycl. 8 (1998) 23-33
14. B. Yuxia, G. Dorris, N. Page, Application of column flotation in waste paper recycling, Proceedings of the Seventh Research Forum on Recycling, Quebec City, QC, Canada, September 27-29, 2004, 229-238, Preprints.
15. Pirttinen E., and Stenius P. The effect of dissolved and colloidal substances on flotation deinking efficiency. Progr. Paper Recycl. 7 (1998) 38-46
16. Pirttinen E., Rao R., and Stenius P. The Effect of Surfactants and Process Water on the Detachment and Flotation of Ink, Reports Series C 14 (1998), Helsinki University of Technology, Department of Forest Products Technology, Laboratory of Forest Products Chemistry, Espoo, Finland 36
17. Beneventi D., Rousset X., and Zeno E. Modelling transport phenomena in a flotation de-inking column. Focus on gas flow, pulp and froth retention time. Int. J. Miner. Process 80 (2006) 43-57
18. Beneventi D., Cid Carbó A., Fabry B., Pelach M.A., and Mutjé Pujol P. Modelling of flotation de-inking: contribution of froth removal height and silicate on ink removal and yield. J. Pulp Paper Sci. 32 (2006) 73-79
19. Ahmed N., and Jameson G.J. Flotation kinetics. Miner. Process. Extract. Metallur. Rev. 5 (1989) 77-99
20. Julien Saint Amand F. Hydrodynamics of deinking flotation. Int. J. Miner. Process 56 (1999) 277-316
21. Koh P.T.L., and Schwarz M.P. CFD modelling of bubble-particle collision rates and efficiencies in a flotation cell. Miner. Eng. 16 (2003) 1055-1059
22. Bloom F., and Heindel T.J. Modeling flotation separation in a semi-batch process. Chem. Eng. Sci. 58 (2003) 353-365
23. Zheng X., Franzidis J.-P., Johnson N.W., and Manlapig E.V. Modelling of entrainment in industrial flotation cells: the effect of solids suspension. Miner. Eng. 18 (2005) 51-58
24. Savassi O.N., Alexander D.J., Franzidis J.P., and Manlapig E.V. An empirical model for entrainment in industrial flotation plants. Miner. Eng. 11 (1998) 243-256
25. George P., Nguyen A.V., and Jameson G.J. Assessment of true flotation and entrainment in the flotation of submicron particles by fine bubbles. Miner. Eng. 17 (2004) 847-853
26. Bloom F., and Heindel T.J. A theoretical model of flotation deinking efficiency. J. Colloid Interf. Sci. 190 (1997) 182-197
27. Omota F., Dimian A.C., and Bliek A. Adhesion of solid particles to gas bubbles. Part 1: modelling. Chem. Eng. Sci. 61 (2006) 823-834
28. Omota F., Dimian A.C., and Bliek A. Adhesion of solid particles to gas bubbles. Part 2: experimental. Chem. Eng. Sci. 61 (2006) 835-844
29. Hjelmfelt A.T., and Mockros L.F. Motion of discrete particles in a turbulent fluid. Appl. Sci. Res. 16 (1966) 149-161
30. Danov K.D., Valkovska D.S., and Ivanov I.B. Effects of surfactants on the film drainage. J. Colloid Interf. Sci. 211 (1999) 291-303
31. Neethling S.J., Cilliers J.J., and Woodburn E.T. Prediction of the water distribution in a flowing foam. Chem. Eng. Sci. 55 (2000) 4021-4028
32. Neethling S.J., and Cilliers J.J. Solids motion in flowing froths. Chem. Eng. Sci. 57 (2002) 607-615
33. Zhu J.Y., and Tan F. Drainage and fractionation of wood fibres in a flotation froth. Progr. Paper Recycl. 14 (2005) 13-20
34. Mathe Z.T., Harris M.C., and O'Connor C.T. A review of methods to model the froth phase in non-steady state flotation systems. Miner. Eng. 13 (2000) 127-140
35. Vera M.A., Mathe Z.T., Franzidis J.-P., Harris M.C., Manlapig E.V., and O'Connor C.T. The modelling of froth zone recovery in batch and continuously operated laboratory flotation cells. Int. J. Miner. Process 64 (2002) 135-151
36. Zheng X., Franzidis J.-P., and Manlapig E. Modelling of froth transportation in industrial flotation cells. Part I. Development of froth transportation models for attached particles. Miner. Eng. 17 (2004) 981-988
37. Jordan B.D., and Popson S.J. Measuring the concentration of residual ink in recycled newsprint. J. Pulp Paper Sci. 20 (1994) 161-167
38. Mason S.G. Fiber motion and flocculation. TAPPI J. 37 (1954) 494-501
39. Robertson A.A., and Mason S.G. Flocculation in flowing pulp suspensions. Pulp Paper Mag. Can. 55 (1954) 263-269
40. Pelton R., and Piette R. Air bubble hold-up in quiescent wood pulp suspensions. Can. J. Chem. Eng. 70 (1992) 660-663
41. Xie T., Ghiaasiaan S.M., Karrila S., and McDonough T. Flow regimes and gas holdup in paper pulp-water-gas three-phase slurry flow. Chem. Eng. Sci. 58 (2003) 1417-1430
42. Zhu J.Y., and Tan F. On fiber rejection loss in flotation deinking. Can. J. Chem. Eng. 83 (2005) 377-382
43. Ajersch M., and Pelton R. Mechanisms of stock loss in flotation de-inking. J. Pulp Paper Sci. 22 (1996) 338-345
44. Deng Y. Effect of fibre surface chemistry on the fiber loss in flotation deinking. TAPPI J. 83 (2000) 61
45. Haynes R.D. Impact of the summer effect on ink detachment and removal. TAPPI J. 83 (2000) 56-65
46. Zhu J.Y., Tan F., Scallon K.L., Zhao Y.L., and Deng Y. Deinking selectivity (Z-factor): a new parameter to evaluate to evaluate the performance of flotation deinking process. Sep. Purif. Technol. 43 (2005) 33-41