Performance optimization of a 5nm TiO2 ceramic membrane with respect to beverage production wastewater

Desalination

Volumn 311, Issue , 2013, Pages 162-172

  Agana, Bernard A ^a   Reeve, Darrell ^a   Orbell, John D ^a  

^a VICTORIA UNIVERSITY   (Australia)

Author keywords

Beverage production wastewater; Ceramic membrane; Crossflow velocity; Particle size distribution; Transmembrane pressure

Indexed keywords

BEVERAGE PRODUCTION; CAKE LAYER; CERAMIC ULTRAFILTRATION MEMBRANE; CONCENTRATION POLARIZATION; CROSSFLOW VELOCITIES; FILTRATE QUALITY; FILTRATION PERFORMANCE; MEMBRANE PORES; MEMBRANE SURFACE; OPERATING PARAMETERS; OPTIMAL OPERATING CONDITIONS; PERFORMANCE OPTIMIZATIONS; PERMEATE FLOW RATES; PERMEATE FLUX; REJECTION RATES; SUSPENDED PARTICLES; TIO; TRANSMEMBRANE PRESSURES;

CERAMIC MEMBRANES; ENERGY UTILIZATION; OPTIMIZATION; PARTICLE SIZE ANALYSIS; THERMOMECHANICAL PULPING PROCESS; TITANIUM DIOXIDE; TURBIDITY; ULTRAFILTRATION;

WATER FILTRATION;

CERAMICS; MEMBRANE; PARTICLE SIZE; SIZE DISTRIBUTION; TITANIUM; TURBIDITY; TURBULENT FLOW; ULTRAFILTRATION; WASTEWATER;

EID: 84871510593     PISSN: 00119164     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.desal.2012.11.027     Document Type: Article

References (46)

1. Amuda O.S., Amoo I.A. Coagulation/flocculation process and sludge conditioning in beverage industrial wastewater treatment. J. Hazard. Mater. 2007, 141:778-783.
2. Matošić M., Prstec I., Jakopović H.K., Mijatović I. Treatment of beverage production wastewater by membrane bioreactor. Desalination 2009, 246:285-293.
3. Amuda O.S., Amoo I.A., Ajayi O.O. Performance optimization of coagulant/flocculant in the treatment of wastewater from a beverage industry. J. Hazard. Mater. 2006, 129:69-72.
4. Chmiel H., Kaschek M., Blöcher C., Noronha M., Mavrov V. Concepts for the treatment of spent process water in the food and beverage industries. Desalination 2003, 152:307-314.
5. Tay J.-H., Jeyaseelan S. Membrane filtration for reuse of wastewater from beverage industry. Resour. Conserv. Recycl. 1995, 15:33-40.
6. Russell D.L. Practical Wastewater Treatment 2006, Wiley-Interscience, Hoboken.
7. Sarkar B., Chakrabarti P.P., Vijaykumar A., Kale V. Wastewater treatment in dairy industries - possibility of reuse. Desalination 2006, 195:141-152.
8. Kim J., DiGiano F.A., Reardon R.D. Autopsy of high-pressure membranes to compare effectiveness of MF and UF pretreatment in water reclamation. Water Res. 2008, 42:697-706.
9. Chen J.P., Mou H., Wang L.K., Matsuura T. Membrane filtration. Handbook of Environmental Engineering, Volume 4: Advanced Physicochemical Treatment Processes 2006, 203-259. The Humana Press Inc., Totowa, NJ. L.K. Wang, Y. Hung, N.K. Shammas (Eds.).
10. Bennett A. Membranes in industry: facilitating reuse of wastewater. Filtr. Sep. 2005, 42:28-30.
11. Vedavyasan C.V. Pretreatment trends - an overview. Desalination 2007, 203:296-299.
12. Karakulski K., Morawski W.A. Purification of copper wire drawing emulsion by application of UF and RO. Desalination 2000, 131:87-95.
13. Norouzbahari S., Roostaazad R., Hesampour M. Crude oil desalter effluent treatment by a hybrid UF/RO membrane separation process. Desalination 2009, 238:174-182.
14. Zhang J., Zeng H., Ye C., Chen L., Yan X. Pilot test of UF pretreatment prior to RO for cooling tower blowdown reuse of power plant. Desalination 2008, 222:9-16.
15. Teng C.K., Hawlader M.N.A., Malek A. An experiment with different pretreatment methods. Desalination 2003, 156:51-58.
16. Sekine M., Salehi Z., Tokumura M., Kawase Y. Solar photo-Fenton process for the treatment of colored soft drink wastewater: decolorization, mineralization and COD removal of oolong tea effluent. J. Environ. Sci. Health, Part A: Tox. Hazard. Subst. Environ. Eng. 2012, 47:2181-2189.
17. Tawfik A., El-Kamah H. Treatment of fruit-juice industry wastewater in a two-stage anaerobic hybrid (AH) reactor system followed by a sequencing batch reactor (SBR). Environ. Technol. 2012, 33:429-436.
18. Manyele S.V., Peay M., Halfani M.R. Treatment of beverage-processing wastewater in a three-phase fluidised bed biological reactor. Int. J. Food Sci. Technol. 2008, 43:1058-1065.
19. Ng K.K., Lin C.F., Panchangam S.C., Andy Hong P.K., Yang P.Y. Reduced membrane fouling in a novel bio-entrapped membrane reactor for treatment of food and beverage processing wastewater. Water Res. 2011, 45:4269-4278.
20. Cheryan M. Ultrafiltration and Microfiltration Handbook 1998, Technomic Publishing Company, Inc., Lancaster, Pennsylvania.
21. Zavastin D., Cretescu I., Bezdadea M., Bourceanu M., Dragan M., Lisa G., Mangalagiu I., Vasic V., Savic J. Preparation, characterization and applicability of cellulose acetate-polyurethane blend membrane in separation techniques. Colloids Surf. A: Physicochem. Eng. Aspect 2010, 370:120-128.
22. Siskens C.A.M. Applications of ceramic membranes in liquid filtration. Fundamentals of Inorganic Membrane Science and Technology 1996, 629-639. Elsevier Science B.V., Burlington. A.J. Burggraaf, L. Cot (Eds.).
23. Lee S., Cho J. Comparison of ceramic and polymeric membranes for natural organic matter (NOM) removal. Desalination 2004, 160:223-232.
24. Benfer S., Popp U., Richter H., Siewert C., Tomandl G. Development and characterization of ceramic nanofiltration membranes. Sep. Purif. Technol. 2001, 22-23:231-237.
25. Ciston S., Lueptow R.M., Gray K.A. Bacterial attachment on reactive ceramic ultrafiltration membranes. J. Membr. Sci. 2008, 320:101-107.
26. 2 ceramic membrane as applied to the ultrafiltration of post-electrodeposition rinse wastewater. Desalination 2011, 278:325-332.
27. Suttiponparnit K., Jiang J., Sahu M., Suvachittanont S., Charinpanitkul T., Biswas P. Role of surface area, primary particle size, and crystal phase on titanium dioxide nanoparticle dispersion properties. Nanoscale Res. Lett. 2011, 6:1-8.
28. Agana B.A., Reeve D., Orbell J.D. The influence of an applied electric field during ceramic ultrafiltration of post-electrodeposition rinse wastewater. Water Res. 2012, 46:3574-3584.
29. ASTM Zeta potential of colloids in water and waste water. ASTM Standard D 4187-82 1985.
30. Stamatakis K., Chi T. A simple model of cross-flow filtration based on particle adhesion. AlChE J. 1993, 39:1292-1302.
31. O'Neill M.E. A sphere in contact with a plane wall in a slow linear shear flow. Chem. Eng. Sci. 1968, 23:1293-1298.
32. Altmann J., Ripperger S. Particle deposition and layer formation at the crossflow microfiltration. J. Membr. Sci. 1997, 124:119-128.
33. Cardarelli F. Soils and fertilizers. Materials Handbook 2008, 927-966. Springer, London.
34. Israelachvili J.N. Van der Waals forces. Intermolecular and Surface Forces 2010, Elsevier Science, Burlington.
35. Butt H.-J., Kappl M. Surface and Interfacial Forces 2009, Wiley-VCH, Hoboken.
36. Krupp H. Particle adhesion theory and experiment. Colloid Interface Sci. 1967, 11:11-239.
37. Crittenden J.C., Trussell R.R., Hand D.W., Howe K.J., Tchobanoglous G. Water Treatment: Principles and Design 2005, John Wiley & Sons, Inc., Hoboken, NJ. 2nd ed.
38. Mulder M.H.V. Polarization phenomena and fouling. Membrane Separations Technology: Principles and Applications 1995, Elsevier Science, Burlington. R.D. Noble, S.A. Stern (Eds.).
39. Baker R.J., Fane A.G., Fell C.J.D., Yoo B.H. Factors affecting flux in crossflow filtration. Desalination 1985, 53:81-93.
40. Hermia J. Constant pressure blocking filtration laws - application to power-law non-Newtonian fluids. Trans. Inst. Chem. Eng., V 1982, 60:183-187.
41. Vela M.C.V., Blanco S.A., García J.L., Rodríguez E.B. Analysis of membrane pore blocking models applied to the ultrafiltration of PEG. Sep. Purif. Technol. 2008, 62:489-498.
42. Lim A.L., Bai R. Membrane fouling and cleaning in microfiltration of activated sludge wastewater. J. Membr. Sci. 2003, 216:279-290.
43. Hwang K.J., Lin T.T. Effect of morphology of polymeric membrane on the performance of cross-flow microfiltration. J. Membr. Sci. 2002, 199:41-52.
44. Mohammadi T., Esmaeelifar A. Wastewater treatment of a vegetable oil factory by a hybrid ultrafiltration-activated carbon process. J. Membr. Sci. 2005, 254:129-137.
45. Wang F., Tarabara V.V. Pore blocking mechanisms during early stages of membrane fouling by colloids. J. Colloid Interface Sci. 2008, 328:464-469.
46. Waeger F., Delhaye T., Fuchs W. The use of ceramic microfiltration and ultrafiltration membranes for particle removal from anaerobic digester effluents. Sep. Purif. Technol. 2010, 73:271-278.