Advanced search
Publication Cover
International Journal of Food Properties Volume 21, 2018 - Issue 1
Submit an article Journal homepage
2,945
Views
6
CrossRef citations to date
0
Altmetric
Original Article

Rheological flow models of banana peel pectin jellies as affected by sugar concentration

Noor Azwani Mohd RasidekMalaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia Kuala Lumpur, Kuala Lumpur, MalaysiaORCID Iconhttps://orcid.org/0000-0002-5424-9560
ORCID Icon,
Mariam Firdhaus Mad NordinMalaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia Kuala Lumpur, Kuala Lumpur, MalaysiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-5822-278X
ORCID Icon,
Koji IwamotoMalaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia Kuala Lumpur, Kuala Lumpur, Malaysia
,
Norazah Abd RahmanFaculty of Chemical Engineering, Universiti Teknologi Mara, Shah Alam, Malaysia
,
Yuichiro NagatsuDepartment of Chemical Engineering, Tokyo University of Agriculture and Technology, Koganei, Japan
&
Hideaki TokuyamaDepartment of Chemical Engineering, Tokyo University of Agriculture and Technology, Koganei, Japan
Pages 2087-2099 | Received 12 Sep 2017, Accepted 18 Aug 2018, Published online: 03 Sep 2018

References

  • Noreen, A.; Nazli, Z.-I.-H.; Akram, J.; Rasul, I.; Mansha, A.; Yaqoob, N.; Iqbal, R.; Tabasum, S.; Zuber, M.; Zia, K.M. Pectins Functionalized Biomaterials; A New Viable Approach for Biomedical Applications: A Review. International Journal of Biological Macromolecules 2017, 101, 254–272.
  • Lupi, F.R.; Gabriele, D.; Seta, L.; Baldino, N.; De Cindio, B.; Marino, R. Rheological Investigation of Pectin-Based Emulsion Gels for Pharmaceutical and Cosmetic Uses. Rheologica Acta 2015, 54, 41–52.
  • Ghafar, F.; Nazrin, T.N.N.T.; Salleh, M.R.M.; Hadi, N.N.; Ahmad, N.; Hamzah, A.A.; Yusof, Z.A.M.; Azman, I.N. Total Phenolic Content and Total Flavonoid Content in Moringa Oleifera Seed. Galeri Warisan Sains 2017, 1(1), 23–25.
  • Vriesmann, L.C.; Petkowicz, C.L.O. Highly Acetylated Pectin from Cacao Pod Husks (Theobroma Cacao L.). Forms Gel. Food Hydrocolloids 2013, 33, 58–65.
  • Morales-Contreras, B.E.; Rosas-Flores, W.; Contreras-Esquivel, J.C.; Wicker, L.; Morales-Castro, J. Pectin from Husk Tomato (Physalis Ixocarpa Brot.): Rheological Behavior at Different Extraction Conditions. Carbohydrate Polymers 2018, 179, 282–289.
  • Serna-Cock, L.; García-Gonzales, E.; Torres-León, C. Agro-Industrial Potential of the Mango Peel Based on Its Nutritional and Functional Properties. Food Reviews International 2016, 32(4), 364–376.
  • Lee, E.H.; Yeom, H.J.; Ha, M.S.; Bae, D.H. Development of Banana Peel Jelly and Its Antioxidant and Textural Properties. Food Science and Biotechnology 2010, 19(2), 449–455.
  • Emaga, T.H.; Andrianaivo, R.H.; Wathelet, B.; Tchango, J.T.; Paquot, M. Effects of the Stage of Maturation and Varieties on the Chemical Composition of Banana and Plantain Peels. Food Chemistry 2007, 103, 590–600.
  • Sundar Raj, A.; Rubila, S.; Jayabalan, R.; Ranganathan, T.V.A. Review on Pectin: Chemistry Due to General Properties of Pectin and Its Pharmaceutical Uses. Open Access Scientific Reports 2012, 1(12), 1–4.
  • Hua, X.; Wang, K.; Yang, R.; Kang, J.; Zhang, J. Rheological Properties of Natural Low-Methoxyl Pectin Extracted from Sunflower Head. Food Hydrocolloids 2015, 44, 122–128.
  • Urias-Orona, V.; Rascón-Chu, A.; Lizardi-Mendoza, J.; Carvajal-Millán, E.A.; Gardea, A.; Ramírez-Wong, B.; Novel Pectin, A. Material: Extraction, Characterization and Gelling Properties. International Journal of Molecular Sciences 2010, 11, 3686–3695.
  • Ström, A.; Ribelles, P.; Lundin, L.; Norton, I.; Morris, E.R.; Williams, A.K. Influence of Pectin Fine Structure on the Mechanical Properties of Calcium-Pectin and Acid-Pectin Gels. Biomacromolecules 2007, 8, 2668–2674.
  • Yoo, B.; Yoo, D.; Kim, Y.-R.; Lim, S.-T. Effect of Sugar Type on Rheological Properties of High Methoxyl Pectin Gels. Food Science and Biotechnology 2003, 3(12), 316–319.
  • Rao, M.A.; Silva, J.A.L. Pectins: Structure, Functionality, and Uses. In Food Polysaccharides and Their Applications, 2nd ed.; Stephen, A.M.; Philips, G.O.; Williams, P.A., Eds.; CRC Press: USA, 2006; pp 353–411.
  • Grosso, C.R.F.; Rao, M.A. Dynamic Rheology of Structure Development in Low Methoxyl Pectin Ca2+ Plus Sugar Gels. Food Hydrocolloids 1998, 12, 357.
  • May, C.D. Pectins. In Handbook of Hydrocolloids; Philips, G.O.; Williams, P.A., Eds.; CRC Press: Boca Raton, USA, 1990; pp 87–118.
  • Gebhard, S. A Practical Approach to Rheology and Rheometer 2nd.; Gebrueder HAAKE GmbH: Germany, 2000, 291.
  • Javanmard, M.; Endan, J.A. Survey on Rheological Properties of Fruit Jams. International Journal of Chemical Engineering and Applications 2010, 1(1), 31–37.
  • McKenna, G.B. Deformation and Flow of Matter: Interrogating the Physics of Materials Using Rheological Methods. Journal of Rheology 2012, 56, 113.
  • Rao, M.A. Application of Rheology to Fluid Food Handling and Processing in Rheology of Fluid and Semisolid Foods; Springer: USA, 2014, 415–456.
  • Oroian, M. Physicochemical and Rheological Properties of Romanian Honeys. Food Biophysics 2012, 7, 296–307.
  • Keshani, S.; Luqman Chuah, A.; Russly, A.R. Effect of Temperature and Concentration on Rheological Properties Pomelo Juice Concentrates. International Food Research Journal 2012, 19(2), 553–562.
  • Chuah, T.G.; Hairul Nisah, H.; Thomas Choong, S.Y.; Chin, N.L.; Nazimah Sheikh, A.L. Effects of Temperature on Viscosity of Dodol (Concoction). Journal of Food Engineering 2007, 80, 423–430.
  • Casson, N.; Flow, A. Equation for Pigment-Oil Suspensions of the Printing Ink Type. In Rheology Disperse System; Mill, C.C.;, Ed.; Pergamon Press: New York, 1959; pp 82–104.
  • Cox, W.P.; Merz, E.H. Correlation of Dynamic and Steady Viscosities. Journal Polymer Science 1958, 28, 619–622.
  • Mohd Rasidek, N.A.; Mad Nordin, M.F.; Shameli, K. Formulation and Evaluation of Semisolid Jelly Produced by Musa Acuminata Colla (AAA Group) Peels. Asian Pacific Journal Tropical Biomedicine 2016, 6(1), 55–59.
  • Chin, N.L.; Chana, S.M.; Yusof, Y.A.; Chuah, T.G.; Talib, R.A. Modeling of Rheological Behaviour of Pummelo Juice Concentrates Using Master-Curve. Journal of Food Engineering 2009, 93, 134–140.
  • Nindo, C.I.; Tang, J.; Powers, J.R.; Takhar, P.S. Rheological Properties of Blueberry Purees for Processing Applications. Swiss Society of Food Science and Technology 2007, 40, 292–299.
  • Holdsworth, S.D. Rheological Models Used for the Prediction of the Flow Properties of Food Products: A Literature Review. Transactions of the IChemE 1993, 71(C3), 139–179.
  • Manjunatha, S.S.; Raju, P.S.; Bawa, A.S. Modelling the Rheological Behaviour of Enzyme Clarified Lime (Citrus Aurantifolia L.). Juice Concentrate. Czech Journal Food Science 2012, 30(5), 456–466.
  • Xiu, A.; Zhou, M.; Zhu, B.; Wang, S.; Zhang, J. Rheological Properties of Salecan as a New Source of Thickening Agent. Food Hydrocolloids 2011, 25, 1719–1725.
  • Koocheki, A.; Mortazavi, S.A.; Shahidi, F.; Razavi, S.M.A.; Taherian, A.R. Rheological Properties of Mucilage Extracted from Alyssum Homolocarpum Seed as a New Source of Thickening Agent. Journal of Food Engineering 2009, 91, 490–496.
  • Jiang, B.; Li, W.; Hu, X.; Wu, J.; Shen, Q. Rheology of Mung Bean Starch Treated by High Hydrostatic Pressure. International Journal of Food Properties 2015, 18, 81–92.
  • Syahariza, Z.A.; Yong, H.Y. Evaluation of Rheological and Textural Properties of Texture-Modified Rice Porridge Using Tapioca and Sago Starch as Thickener. Journal of Food Measurement and Characterization 2017, 11(4), 1586–1591.
  • Gómez-Díaz, D.; Navaza, J.M.; Quintáns-Riveiro, L.C. Intrinsic Viscosity and Flow Behaviour of Arabic Gum Aqueous Solutions. International Journal of Food Properties 2008, 11, 773–780.
  • Dautant, F.J.; Simancas, K.; Sandoval, A.J.; Müller, A.J. Effect of Temperature, Moisture and Lipid Content on the Rheological Properties of Rice Flour. Journal of Food Engineering 2007, 78, 1159–1166.
  • Chuah, T.G.; Keshani, S.; Chin, N.L.; Lau, M.C.; Chin, D.S.G. Rheological Properties of Diluted Pummelo Juice as Affected by Three Different Concentrations. International Journal of Food Engineering 2008, 4, 5.
  • Heydon, C.J.; Scott, G.M.; Tucker, G.S. Applications of Tube Viscometry for the Flow Characterization of Gelatinized Food Starches under UHT Conditions. Transactions of the IChemE 1996, 74(C3), 81–91.
  • Genovese, D.B.; Aiqain, Y.E.; Singh, H. High Methoxyl Pectin/Apple Particles Composite Gels: Effect of Particle Size and Particle Concentration on Mechanical Properties and Gel Structure. Journal of Texture Studies 2010, 41, 171–189.
  • Ross-Murphy, S.B. Physical Gelation of Synthetic and Biological Macromolecules. In Polymer Gels Fundamentals and Biomedical Applications; DeRossi, D.; Kajiwara, K.; Osada, Y.; Yamauchi, A., Eds.; Plenum Press: New York, USA, 1991; pp 21–39.
  • Vries, A.D.; Wesseling, A.; Linden, E.V.D.; Scholten, E. Protein Oleogels from Heat-Set Whey Protein Aggregates. Journal of Colloid and Interface Science 2017, 486, 75–83.
  • Nascimento, G.E.; Simas-Tosin, F.F.; Iacomini, M.; Gorin, P.A.J.; Cordeiro, L.M.C. Rheological Behavior of High Methoxyl Pectin from the Pulp of Tamarillo Fruit (Solanum Betaceum). Carbohydrate Polymers 2016, 139, 125–130.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.