Journal of Engineering and Applied Sciences
Year:
2019
Volume:
14
Issue:
9
Page No.
2936 - 2942
References
AFNOR, 1980. [Methods of Analysis of Milk and its Dairy Products French Standardization Collection]. 2nd Edn., AFNOR, Frence, Europe, Pages: 580.
Acem, K. and A. Choukri, 2012. Study of the effect of power’s ultrasound on the proteins emulsifying properties of crudes wheys. Adv. Environ. Biol., 6: 2689-2697.
Acem, K. and A. Choukri, 2012. Study of the emulsifying properties of whey proteins in crude and modified environments. J. Appl. Sci. Res., 8: 3293-3303.
Direct Link | Acem, K. and A. Choukri, 2016. [Analysis of the surfactant properties of raw whey in a cosmetic emulsion (In French)]. Rev. Ecologie Environ., 12 : 14-16.
Direct Link | Acem, K. and A. Choukri, 2017. [Study of the interfacial behavior of raw whey in a food emulsion (In French)]. Rev. Ecologie Environ., 13: 17-20.
Acem, K., A. Choukri, M.N. Mostefa, K. Mettai and S. Kadi
et al., 2017. [Analysis and valorization of the emulsifying properties of the deproteinated whey]. Proceedings of the International Scientific Conference on Environment and Agriculture (SCIEA), September 24-25, 2017, Diar Lemdina, Hammamet, Tunisia, pp: 293-293 (In French).
Acem, K., M. Mechouar, I. Ayad, K. Mettai and S. Kadi
et al., 2017. Impact of raw sweet whey on the physical and chemical properties of freshwater ecosystems. Proceedings of the International Scientific Conference on Environment and Agriculture (IAECC), April 24-25, 2017, Hammamet, Tunisia, pp: 264-264 (In French).
Adrian, J., G. Legrand and R. Frangne, 1981. [Dictionary of Food Biochemistry, Tec and Nutrition]. Technique et Documentation, Paris, France, ISBN:9782852060944, Pages: 233 (In French).
Allouche, J., 2003. [Development of new methods for the elaboration of multiple water/oil/water emulsions]. MSc Thesis, Institut National Polytechnique De Lorraine, France. (In French)
Anisa, A.N.I. and A.H. Nour, 2010. Affect of viscosity and droplet diameter on water-in-oil (w/o) emulsions: An experimental study. World Acad. Sci. Eng. Technol., 4: 595-598.
Direct Link | Ashrafizadeh, S.N. and M. Kamran, 2010. Emulsification of heavy crude oil in water for pipeline transportation. J. Pet. Sci. Eng., 71: 205-211.
CrossRef | Direct Link | Baumy, J.J. and G. Brule, 1986. [Comparative study of solubility and viscosity of Sodium caseinate and paracaseinate solutions in the presence of Calcium (In French)]. Le lait, 66: 65-77.
CrossRef | Direct Link | Borcherding, K., P.C. Lorenzen and W. Hoffmann, 2009. Effect of protein content, casein-whey protein ratio and pH value on the foaming properties of skimmed milk. Intl. J. Dairy Technol., 62: 161-169.
CrossRef | Direct Link | Borcherding, K., P.C. Lorenzen, W. Hoffmann and K. Schrader, 2008. Effect of foaming temperature and varying time/temperature-conditions of pre-heating on the foaming properties of skimmed milk. Intl. Dairy J., 18: 349-358.
CrossRef | Direct Link | Bottomley, R.C., M.T.A. Evans and C.J. Parhiason, 1990. Whey Proteins. In: Food Gels, Harris, P. (Ed.). Elsevier, London, England, UK., ISBN:978-94-009-0755-3, pp: 435-466.
Cheftel, J.C., J.L. Cuq and D. Lorient, 1985. [Food Proteins: Biochemistry, Functional Properties, Nutritional Value, Chemical Modifications]. Technique et Documentation, Paris, France, ISBN:9782852062689, Pages: 309 (In French).
Clark, D.C., P.J. Wilde and D. Marion, 1994. The protection of beer foam against lipid‐induced destabilization. J. Inst. Brew., 100: 23-25.
CrossRef | Direct Link | Croguennec, T., R. Jeantet and G. Brule, 2008. [Physicochemical Foundations of Dairy Technology]. Lavoisier Publisher, Paris, France, ISBN:978-2-7430-1033-1, Pages: 166 (In French).
Daufin, G., R. Frederic and A. Pierre, 1998. [Membrane Separations in Processes of the Food Industry]. Tec & Doc Lavoisier Publisher, France, ISBN:9782743002282, Pages: 592 (In French).
FAO., 1995. [Milk and Dairy Products in Human Nutrition]. FAO, Rome, Italy, ISBN:9789252035343, Pages: 271.
Gana, S. and A. Touzi, 2001. [Valorization of whey by the production of lactic yeasts with continuous and discontinuous fermentation processes (In French)]. Rev. Energ. Ren. Prod. Dev. Biomass, 1: 51-58.
Direct Link | Hailing, P.J. and P. Walstra, 1981. Protein‐stabilized foams and emulsions. Crit. Rev. Food Sci. Nutr., 15: 155-203.
CrossRef | Direct Link | Hoppe, G.K. and J.J. Higgins, 1992. Demineralization. In: Whey and Lactose Processing, Zadow, J.G. (Ed.). Elsevier, London, England, UK., ISBN:9781851667536, pp: 91-131.
Juillerat, M.A. and R. Badoud, 2010. [Amino Acids and Proteins]. In: Food Science and Technology: Principles of Constituent Chemistry and Process Technology, Bauer, W.J., R. Badoud and J. Loliger (Eds.). PPUR Presses Polytechniques, Lausanne, Switzerland, ISBN:978-2-88074-754-1, pp: 47-104.
Kinsella, J.E. and D.M. Whitehead, 1989. Proteins in whey: Chemical, physical and functional properties. Adv. Food Nutr. Res., 33: 343-438.
CrossRef | Direct Link | Klinkesorn, U., P. Sophanodora, P. Chinachoti and D.J. McClements, 2004. Stability and rheology of corn oil-in-water emulsions containing maltodextrin. Food Res. Int., 37: 851-859.
CrossRef | Direct Link | Lim, J.S., S.F. Wong, M.C. Law, Y. Samyudia and S.S. Dol, 2015. A review on the effects of emulsions on flow behaviours and common factors affecting the stability of emulsions. J. Appl. Sci., 15: 167-172.
CrossRef | Direct Link | Lorient, D. and G. Linden, 1994. [Agro-Industrial Biochemistry: Food Recovery from Agricultural Production]. Masson Publisher, Paris, France, ISBN:9782225843075, Pages: 367 (In French).
Lowry, O.H., N.J. Rosebrough, A.L. Farr and R.J. Randall, 1951. Protein measurement with the folin phenol reagent. J. Biol. Chem., 193: 265-275.
CrossRef | PubMed | Direct Link | Martinez, K.D., V. Ganesan, A.M. Pilosof and F.M. Harte, 2011. Effect of dynamic high-pressure treatment on the interfacial and foaming properties of soy protein isolate-hydroxypropylmethylcelluloses systems. Food Hydrocolloids, 25: 1640-1645.
CrossRef | Direct Link | Mat, H.B., A. Samsuri, W.A.W. Abdul-Rahman and S.I. Rani, 2006. Study on demulsifier formulation for treating Malaysian crude oil emulsion. VOT 74004, Department of Chemical Engineering, Faculty of Chemical and Natural Resources Engineering, Universiti Teknologi Malaysia.
Mathieu, J., 1998. [Initiation to the Physicochemistry of Milk]. Lavoisier Tec & Doc, Paris, France, ISBN:9782743002336, Pages:220 (In French).
Mollea, C., L. Marmo and F. Bosco, 2013. Valorisation of Cheese Whey, a by-Product from the Dairy Industry. In: Food Industry, Muzzalupo, I. (Ed.), IntechOpen, New York, USA, ISBN: 978-953-51-0911-2, pp: 549-588.
Mott, C.L., N.S. Hettiarachchy and M. Qi, 1999. Effect of Xanthan gum on enhancing the foaming properties of whey protein isolate. J. Am. Oil Chem. Soc., 76: 1383-1386.
CrossRef | Direct Link | Patino, J.M.R. and A.M. Pilosof, 2011. Protein-polysaccharide interactions at fluid interfaces. Food Hydrocolloids, 25: 1925-1937.
CrossRef | Direct Link | Phillips, L.G., S.T. Yang and J.E. Kinsella, 1991. Neutral salt effects on stability of whey protein isolate foams. J. Food Sci., 56: 588-589.
CrossRef | Direct Link | Phillips, L.G., S.T. Yang, W. Schulman and J.E. Kinsella, 1989. Effects of lysozyme, clupeine and sucrose on the foaming properties of whey protein isolate and β‐lactoglobulin. J. Food Sci., 54: 743-747.
CrossRef | Direct Link | Phillips, L.G., W. Schulman and J.E. Kinsella, 1990. pH and heat treatment effects on foaming of whey protein isolates. J. Food Sci., 55: 1116-1119.
CrossRef | Direct Link | Raikos, V., L. Campbell and S.R. Euston, 2007. Effects of sucrose and Sodium chloride on foaming properties of egg white proteins. Food Res. Intl., 40: 347-355.
CrossRef | Direct Link | Sakka, S., 2003. Sol-Gel Science and Technology: Topics in Fundamental Research and Applications, Volume 1: Sol-Gel Prepared Ferroelectrics and Related Materials. Springer, Boston, USA., ISBN-13: 978-1402072918, pp: 33-35.
Sjoblom, J., L. Mingyuan, H. Hoiland and E.J. Johansen, 1990. Water-in-crude oil emulsions from the Norwegian continental shelf part III. A comparative destabilization of model systems. Colloids Surfaces, 46: 127-139.
CrossRef | Direct Link | Sottiez, P., 1985. [Products Derived from Frequent Fabrications]. In: Milk and Dairy Products, Luquet, F.M. (Ed.)., Tec et Doc Lavoisier, Paris, France, pp: 357-392 (In French).
Tambe, D.E. and M.M. Sharma, 1993. Factors controlling the stability of colloid-stabilized emulsions: I. An experimental investigation. J. Colloid Interface Sci., 157: 244-253.
CrossRef | Direct Link | Wang, Z., 2013. Foaming properties of whey protein isolate and λ-carrageenan mixed systems. MSc Thesis, The University of Missouri, Columbia, Missouri.
Yang, F., Q. Niu, Q. Lan and D. Sun, 2007. Effect of dispersion pH on the formation and stability of Pickering emulsions stabilized by layered double hydroxides particles. J. Colloid Interface Sci., 306: 285-295.
CrossRef | Direct Link | Yang, X. and E.A. Foegeding, 2011. The stability and physical properties of egg white and whey protein foams explained based on microstructure and interfacial properties. Food Hydrocolloids, 25: 1687-1701.
CrossRef | Direct Link | Zhang, Z., D.G. Dalgleish and H.D. Goff, 2004. Effect of pH and ionic strength on competitive protein adsorption to air/water interfaces in aqueous foams made with mixed milk proteins. Colloid Surf. B: Biointerfac., 34: 113-121.
CrossRef | PubMed | Direct Link | Zhu, H. and S. Damodaran, 1994. Effects of calcium and magnesium ions on aggregation of whey protein isolate and its effect on foaming properties. J. Agric. Food Chem., 42: 856-862.
CrossRef | Direct Link |