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International Journal of Food Properties Volume 20, 2017 - Issue sup3
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Original Articles

Composition and shear crystallization of milkfat fractions extracted with supercritical carbon dioxide

Dilek BuyukbeseDepartment of Chemistry, Faculty of Natural and Applied Sciences, University of Gaziantep, Gaziantep, Turkey
,
Derick RousseauDepartment of Chemistry and Biology, Faculty of Science, Ryerson University, Toronto, Ontario, Canada
&
Ahmet KayaDepartment of Food Engineering, Faculty of Engineering, University of Gaziantep, Gaziantep, TurkeyCorrespondence[email protected]
Pages S3015-S3026 | Received 11 Apr 2017, Accepted 21 Oct 2017, Published online: 08 Jan 2018

References

  • Bhaskar, A. R.; Rizvi, S. S. H.; Bertoli, C.; Fay, L. B.; Hug, B. A. Comparison of Physical and Chemical Properties of Milkfat Fractions Obtained by Two Processing Technologies. J. Am. Oil Chem. Soc. 1998, 75, 1249–1264.
  • Hinrichs, J.; Heineman, U.; Kessler, H. G. Differences in the Composition of Triglycerides in Summer and Winter Milkfat. Milchwissenschaft 1992, 47, 495–498.
  • Wright, A. J.; Batte, H. D.; Marangoni, A. G. Effects of Canola Oil Dilution on Anhydrous Milkfat Crystallization and Fractionation Behavior. J. Dairy Sci. 2005, 88, 1955–1965.
  • Ten Grotenhuis, E.; Van Aken, G. A.; Van Malssen, K. F.; Schenk, H. Polymorphism of Milkfat Studied by Differential Scanning Calorimetry and Real-Time X-Ray Powder Diffraction. J. Am. Oil Chem. Soc. 1999, 76, 1031–1039.
  • Van Aken, G. A.; Ten Grotenhuis, E.; Van Langevelde, A. J.; Schenk, H. Composition and Crystallization of Milkfat Fractions. J. Am. Oil Chem. Soc. 1999, 76, 1323–1331.
  • Kaylegian, K. E. The Production of Specialty Milkfat Fractions. J. Dairy Sci. 1999, 82, 1433–1439.
  • Dewettinck, K.; Vanhoutte, B.; Foubert, I.; Huyghebaert, A. Effect of Process Parameters on Milkfat Fractionation. Idf 2004, 389, 97–103.
  • Lopez, C.; Bourgaux, C.; Lesieur, P.; Riaublanc, A.; Ollivon, M. Milkfat and Primary Fractions Obtained by Dry Fractionation 1. Chemical Composition and Crystallisation Properties. Chem. Phys. Lipids 2006, 144, 17–33.
  • Campos, R. J.; Litwinenko, J. W.; Marangoni, A. G. Fractionation of Milkfat by Short-Path Distillation. J. Dairy Sci. 2003, 86, 735–745.
  • Zaidul, I. S. M.; Norulaini, N. N. A.; Omar, A. K. M.; Smith, R. L., Jr. Blending of Supercritical Carbon Dioxide (SC–CO2) Extracted Palm Kernel Oil Fractions and Palm Oil to Obtain Cocoa Butter Replacers. J. Food Eng. 2007, 78, 1397–1409.
  • Sahena, F.; Zaidul, I. S. M.; Jinap, S.; Karim, A. A.; Abbas, K. A.; Norulaini, N. A. N.; Omar, A. K. M. Application of Supercritical CO2 in Lipid Extraction: A Review. J. Food Eng. 2009, 95, 240–253.
  • Saldana, M. D. A.; Mohamed, R. S.; Baer, M. G. G.; Mazzafera, P. Extraction of Purine Alkaloids from Mate (Ilex Paraguariensis) Using Supercritical CO2. J. Agric. Food Chem. 1999, 47, 3804–3808.
  • Froning, G. W.; Wehling, R. L.; Cuppett, S. L.; Niemann, L. Moisture Content and Particle Size of Dehydrated Egg Yolk Affect Lipid and Cholesterol Extraction Using Supercritical Carbon Dioxide. Poult. Sci. 1998, 77, 1718–1722.
  • Ollanketo, M.; Hartonen, K.; Riekkola, M. L.; Holm, Y.; Hiltunen, R. Supercritical Carbon Dioxide Extraction of Lycopene in Tomato Skins. Eur. Food Res. Technol. 2001, 21, 561–565.
  • Choksi, P. M.; Joshi, V. Y. A Review on Lycopene - Extraction, Purification, Stability and Applications. Int. J. Food Prop. 2007, 10, 289–298.
  • Delfanian, M.; Esmaeilzadeh, K. R.; Sahari, M. A. Utilization of Jujube Fruit (Ziziphus Mauritiana Lam.) Extracts as Natural Antioxidants in Stability of Frying Oil. Int. J. Food Prop. 2016, 19, 789–801.
  • Delfanian, M.; Esmaeilzadeh, K. R.; Sahari, M. A. Effect of Natural Extracted Antioxidants from Eriobotrya Japonica (Lindl.) Fruit Skin on Thermo Oxidative Stability of Soybean Oil during Deep Frying. Int. J. Food Prop. 2016, 19, 958–973.
  • Mohamed, R. S.; Neves, G. B. M.; Kieckbusch, T. G. Reduction in Cholesterol and Fractionation of Butter Oil Using Supercritical CO2 with Adsorption on Alumina. Int. J. Food Sci. Technol. 1998, 33, 445–454.
  • Hartel, R. W.; Kaylegian, K. E. Advances in Milkfat Fraction. In Crystallization Processes in Fats and Lipids Systems; Garti, N., Sato, K., Eds.; Marcel Dekker: New York, NY, 2001.
  • Chen, H.; Schwartz, S. J.; Spanos, G. A. Fractionation of Butter Oil by Supercritical Carbon Dioxide. J. Dairy Sci. 1992, 75, 2659–2669.
  • Fatouh, A. E.; Mahrana, G. A.; El-Ghandoura, M. A.; Singh, R. K. Fractionation of Buffalo Butter Oil by Supercritical Carbon Dioxide. LWT-Food Sci. Technol. 2007, 40, 1687–1693.
  • Walstra, P.; Kloek, W.; Van Vliet, T. Fat Crystals Networks. In Crystallization Processes in Fats and Lipids Systems; Garti, N., Sato, K., Eds; Marcel Dekker: New York, NY, 2001.
  • Dibildox-Alvarado, E.; Laredo, T.; Toro-Vasquez, J. F.; Marangoni, A. G. Pre-Nucleation Structuring of TAG Melts Revealed by Fluorescence Polarization Spectroscopy and Molecular Mechanics Simulations. J. Am. Oil Chem. Soc. 2010, 87, 1115−1125.
  • Sonwai, S.; Mackley, M. R. The Effect of Shear on the Crystallization of Cocoa Butter. J. Am. Oil Chem. Soc. 2006, 83, 583–596.
  • De Graef, V.; Goderis, B.; Van Puyvelde, P.; Foubert, I.; Dewettinck, K. Development of a Rheological Method to Characterize Palm Oil Crystallizing under Shear. Eur. J. Lipid Sci. Technol. 2008, 110, 521–529.
  • MacMillan, S. D.; Roberts, K. J. In Situ Small Angle X-Ray Scattering (SAXS) Studies of Polymorphism with the Associated Crystallization of Cocoa Butter Fat Using Shearing Conditions. Cryst. Growth Des. 2002, 2, 221−226.
  • Wright, A. J.; Scanlon, M. G.; Hartel, R. W.; Marangoni, A. G. Rheological Properties of Milkfat and Butter. J. Food Sci. 2001, 66, 1056–1071.
  • Rønholt, S.; Mortensen, K.; Knudsen, J. C. The Effective Factors on the Structure of Butter and Other Milk Fat-Based Products. Compr. Rev. Food Sci. Food Saf. 2013, 12, 468–482.
  • Kaya, A. Properties and Stability of Butter Oil Obtained from Milk and Yogurt. Nahrung-Food 2000, 44, 126–129.
  • Anonymous. Column Selection for the Analysis of Fatty Acid Methyl Esters. Agilent Application Catalogue 2008, 5989-3760 EN. www.agilent.com
  • Yoon, J.; Hartel, R. W.; Wang, Y. C. Analysis of Butterfat Extraction and Fractionation Using Supercritical Carbon Dioxide. J. Food Process. Pres. 1993, 17, 471–484.
  • Saldana, M. D. A.; Sun, L.; Guigard, S. E.; Temelli, F. Comparison of the Solubility of β-carotene in Supercritical CO2 Based on a Binary and a Multicomponent Complex System. J. Supercrit. Fluids 2006, 37, 342–349.
  • Uquiche, E.; Del Valle, J. M.; Ortiz, J. Supercritical Carbon Dioxide Extraction of Red Pepper (Capsicum Annuum L.) Oleoresin. J. Food Eng. 2004, 65, 55–66.
  • Arul, J.; Tardif, R.; Boudreau, A.; McGinnis, D. S.; Lencki, R. W. Solubility of Milkfat Triglycerides in Supercritical Carbon Dioxide. Food Res. Int. 1994, 27, 459–467.
  • Shi, Y.; Smith, C. M.; Hartel, R. W. Compositional Effects on Milkfat Crystallization. J. Dairy Sci. 2001, 84, 2392–2401.
  • Tran, T.; Ghosh, S.; Rousseau, D. Spheroidal Fat Crystal Microstructures Formed with Confined Gap Shearing. Cryst. Growth Des. 2014, 14, 6383−6390.
  • De Graef, V.; Van Puyvelde, P.; Goderis, B.; Dewettinck, K. Influence of Shear Flow on Polymorphic Behavior and Microstructural Development during Palm Oil Crystallization. Eur. J. Lipid Sci. Technol. 2009, 111, 290−302.
  • Maleky, F.; Marangoni, A. Thermal and Mechanical Properties of Cocoa Butter Crystallized under an External Laminar Shear Field. Cryst. Growth Des. 2011, 11, 2429–2437.
  • Mazzanti, G.; Guthrie, S. E.; Sirota, E. B.; Marangoni, A. G.; Idziak, S. H. J. Orientation and Phase Transitions of Fat Crystals under Shear. Cryst. Growth Des. 2003, 3, 721–725.
  • Mazzanti, G.; Marangoni, A. G.; Idziak, S. H. J. Modeling Phase Transitions during the Crystallization of a Multicomponent Fat under Shear. Phys. Rev. E 2005, 71, 041607 (1–12).
  • Mudge, E.; Mazzanti, G. Rheo-NMR Measurements of Cocoa Butter Crystallized under Shear Flow. Cryst. Growth Des. 2009, 3111–3118.

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