References
- Afonso, M. D., Ferrer, J., and Yañez, R. B. 2004. An economic assessment of protein recovery from fish meal wastewater by ultrafiltration. Trends Food Sci. Tech. 15(10): 506–512.
- Afonso, M. D., and Bórquez, R. B. 2003. Nanofiltration of wastewaters from the fish meal industry. Desalination 151(2): 131–138.
- Borsi, I., Caretti, C., Fasano, A., Heijnen, M., and Lubello, C. 2012. Optimization of hollow fibers membrane wastewater treatment: An experimental study. Desalination 302: 80–86.
- Cheng, W. P., Chi, F. H., Yu, R. F., and Lee, Y. C. 2005. Using chitosan as a coagulant in recovery of organic matters from the mash and lauter wastewater of brewery. J. Polym. Environ. 13: 383–388.
- Chi, F. H., and Cheng, W. P. 2006. Use of chitosan as coagulant to treat wastewater from milk processing plant. J. Polym. Environ. 14: 411–417.
- Chourpa, I., Ducel, V., Richard, J., Dubois, P., and Boury, F. 2006. Conformational modifications of alpha gliadin and globulin proteins upon complex coacervates formation with gum Arabic as studied by Raman microspectroscopy. Biomacromolecules 7: 2616–2623.
- Chu, C. P., and Lee, D. J. 2004. Multiscale structure of biological flocs. Chem. Eng. Sci. 59: 1875–1883.
- Girard, M., and Sanchez, C. 2004. Associative phase separation of β-lactoglobulin/pectin solutions: A kinetic study by small angle static light scattering. Colloid Surface B 35(1): 15–22.
- Huang, C., Chen, S., and Pan, J. R. 2000. Optimal condition for modification of chitosan: A biopolymer for coagulation of colloidal particles. Water Res. 34: 1057–1062.
- Kawamura, S. 1991. Effectiveness of natural polyelectrolytes in water treatment. J. AWWA 83: 88–91.
- Klaunig, J. E., and Kamendulis, L. M. 2005. Mechanisms of acrylamide induced rodent carcinogenesis. Adv. Exp. Med. Biol. 561: 49–62.
- Li, D. H., and Ganczarczyk, J. 1989. Fractal geometry of particle aggregates generated in water and wastewater treatment. Envion. Sci. Technol. 23: 1385–1389.
- Lin, J. L., Huang, C., Chin, C. J. M., and Pan, J. R. 2008. Coagulation dynamics of fractal flocs induced by enmeshment and electrostatic patch mechanisms. Water Res. 42: 4457–4446.
- Lin, M. Y., Lindsay, H. M., Weitz, D. A., Ball, R. C., Klein, R., and Meakin, P. 1989. Universality in colloid aggregation. Nature 339: 360–362.
- Mallevialle, J., Bruchet, A., and Fiessinger, F. 1984. How safe are organic polymers in water treatment? J. AWWA 76: 87–93.
- Marangon, M., Lucchetta, M., Duan, D., and Stockdale, V. J. 2012. Protein removal from a Chardonnay juice by addition of carrageenan and pectin. Aust. J. Grape Wine R. 18: 194–202.
- Ozacar, M., and Sengil, I.A. 2003. Evaluation of tannin biopolymer as a coagulant aid for coagulation of colloidal particles. Colloid Surface A 229(1): 85–96.
- Salehizadeh, H., and Shojaosadati, S. A. 2001. Extracellular biopolymeric flocculants: Recent trends and biotechnological importance. Biotechnol. Adv. 19: 371–385.
- Sanchez, C., Mekhloufi, G., Schmitt, C., Renard, D., Robert, P., Lehr, C. M., Lamprecht, A., and Hardy, J. 2002. Self-assembly of β-lactoglobulin and acacia gum in aqueous solvent: Structure and phase-ordering kinetics. Langmuir 18: 10323–10333.
- Schmitt, C., Sancheza, C., Thomasb, F., and Hardya, J. 1999. Complex coacervation between β-lactoglobulin and acacia gum in aqueous medium. Food Hydrocoll. 13: 483–496.
- Shrivastaw, K. P., Singh, S., Sharma, S. B., and Sokhey, J. 1995. Quantitation of protein content by Biuret method during production of yellow fever vaccine. Biologicals 23: 229–300.
- Singh, S. S., Siddhanta, A. K., Meena, R., Prasad, K., Bandyopadhyay, S., and Bohidar, H. B. 2007. Intermolecular complexation and phase separation in aqueous solutions of oppositely charged biopolymers. Int. J. Biol. Macromol. 41: 185–192.
- Sridang, P. C., Pottier, A., Wisniewski, C., and Alain, G. 2008. Performance and microbial surveying in submerged membrane bioreactor for seafood processing wastewater treatment. Desalination 317: 43–49.
- Waite, T. D., Cleaver, J. K., and Beattie, J. K. 2001. Aggregation kinetics and fractal structure of g-alumina assemblages. J. Colloid Interf. Sci. 241: 333–339.
- Wibowo, S., Savant, V., Cherian, G., and Savage, T. F. 2007. A feeding study to assess nutritional quality and safety of surimi wash water proteins recovered by a chitosan-alginate complex. J. Food Sci. 72(3): S179–S184.
- Wibowo, S., Velazquez, G., Savant, V., and Torres, J. A. 2005. Surimi wash water treatment for protein recovery: Effect of chitosan-alginate complex concentration and treatment time on protein adsorption. Bioresour. Technol. 96(6): 665–671.
- Xiao, F., Yi, P., Pan, X. R., Zhang, B. J., and Lee, C. 2010. Comparative study of the effects of experimental variables on growth rates of aluminum and iron hydroxide flocs during coagulation and their structural characteristics. Desalination 250: 902–907.
- Ye, A. 2008. Complexation between milk proteins and polysaccharides via electrostatic interaction: Principles and applications—A review. Int. J. Food Sci. Technol. 43: 406–415.
- Zheng, H., Zhu, G. C., and Jiang, S.J. 2011. Investigations of coagulation-flocculation process by performance optimization, model prediction and fractal structure of flocs. Desalination 269: 148–156.