Evaluation of Homogenization Effect on Rheological Properties and Stability of Peach Nectar
Subject Areas : MicrobiologyA. Benisi 1 , E. Ghanbari Shendi 2 , H. Bagheri Darvishmohammad 3
1 - MSc Student of the Department of Food Science and Technology, Shabestar Branch, Islamic Azad University, Shabestar, Iran.
2 - Professor of the Department of Food Science and Technology, Faculity of Agriculture and Veterinary Medicine, Shabestar Branch, Islamic Azad University, Shabestar, Iran.
3 - MSc Student of the Department of Food Science and Technology, University of Tabriz, Tabriz, Iran.
Keywords: Brix, Homogenization, Peach Nectar, Rheological Properties, Turbidity,
Abstract :
Introduction: Nowadays, use of non-additive food products has become a fundamental issue and a general demand for consumers. On the other hand, the rheological properties and viscosity of beverage products are one of the important factors that impacts acceptability of these products. Hence, it is essential to find a way to solve this problem and improve the quality properties of juices.Materials and Methods: In this study, the effect of homogenization with 5,000 and 10,000 rpm at 5 and 10 minutes was studied on the physico-chemical and rheological properties of peach nectar.Results: Homogenization significantly increased the apparent viscosity of the samples by 5% level, therefor from 10.6 mPa in the control sample, it was 16.67 mPa in the homogenized sample at 10,000 rpm and 5 min. On the other hand, homogenization improved color characteristics and peach nectar sedimentation as compared to the control sample. In addition, homogenization increased pH, brix, formalin index, and turbidity significantly. However, acidity of the samples increased insignificantly. Besides that, the particle size decreased significantly by the homogenization procedure.Conclusion: According to the results of this study, it might be concluded that the application of homogenization improves the viscosity and stability of treatments and therefore the homogenization process can be used as a substitute for viscous additives.
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Saricaoglu, F. T., Atalar, I., Yilmaz, V. A., Odabas, H. I. & Gul, O. (2019). Application of multi pass high pressure homogenization to improve stability, physical and bioactive properties of rosehip (Rosa canina L.) nectar. Food Chemistry, 282, 67-75.
Sentandreu, E., Carmen, G. M., Betoret, N. & Navarro, J. L. (2011). Changes in orange juice characteristics due to homogenization and centrifugation. Journal of Food Engineering, 105(2), 241-245.
Silva, D., Braga, A., Lourenço, L., Rodrigues, A. & Joele, P. M. (2017). Rheological behavior of mixed nectars of pineapple skin juice and tropical fruit pulp. International Food Research Journal, 24(4), 1713-1719.
Suárez-Jacobo, Á., Gervilla, R., Guamis, B., Roig-Sagués, A. X. & Saldo, J. (2010). Effect of UHPH on indigenous microbiota of apple juice: a preliminary study of microbial shelf-life. International Journal of Food Microbiology, 136(3), 261-267.
Yusefi, A., Shahi, F. & Sheykhluee, H. (2015). Investigation of stable shear flow behavior of Iranian peach juice: effect of concentration and temperature. Quarterly Journal of New Food Technologies, 10, 11-22 [in Persian].
Zhou, L., Guan, Y., Bi, J., Liu, X., Yi, J. & Chen, Q. (2017). Change of the rheological properties of mango juice by high pressure homogenization. LWT-Food Science and Technology, 82, 121-130.
Zhou, L., Wang, W., Hu, X., Wu, J. & Liao, X. (2009). Effect of high pressure carbon dioxide on the quality of carrot juice. Journal of Innovation Food Science and Emerging Technology, 1-7.
_||_Anon. (2007). Institute of Standards and Industrial Research of Iran, Test methods for juices, nectars and concentrates. ISIRI no 2685. 3rd revision, Karaj: ISIRI; [in Persian].
Augusto, P. E., Ibarz, A. & Cristianini, M. (2013). Effect of high pressure homogenization (HPH) on the rheological properties of tomato juice: Creep and recovery behaviours. Food Research International, 54(1),169-176.
Betoret, E., Betoret, N., Carbonell, J. & Fito, P. (2009). Effects of pressure homogenization on particle size and the functional properties of citrus juices. Journal of Food Engineering, 92(1),18-23.
Calligaris, S., Foschia, M., Bartolomeoli, I., Maifreni, M. & Manzocco, L. (2012). Study on the applicability of high-pressure homogenization for the production of banana juices. LWT-Food Science and Technology, 45(1),117-121.
Khabbaz J. H. (2017). Identification and management of peach and nectarine leaf
disease complex. Extension Journal of the Ministry of Jihad Agriculture Agricultural Education and Extension Research Organization of Iran Plant Protection Research Institute [in Persian].
Kubo, M. T. K., Augusto, P. E. & Cristianini, M. (2013). Effect of high pressure homogenization (HPH) on the physical stability of tomato juice. Food Research International, 51(1),170-179.
Sharayee, P. (2016). Technical tips in harvesting, packing and storing peach and nectarine fruits. Extension Journal of the Ministry of Jihad Agriculture Agricultural Education and Extension Research Organization of Iran Plant Protection Research Institute, 86 [in Persian].
Saricaoglu, F. T., Atalar, I., Yilmaz, V. A., Odabas, H. I. & Gul, O. (2019). Application of multi pass high pressure homogenization to improve stability, physical and bioactive properties of rosehip (Rosa canina L.) nectar. Food Chemistry, 282, 67-75.
Sentandreu, E., Carmen, G. M., Betoret, N. & Navarro, J. L. (2011). Changes in orange juice characteristics due to homogenization and centrifugation. Journal of Food Engineering, 105(2), 241-245.
Silva, D., Braga, A., Lourenço, L., Rodrigues, A. & Joele, P. M. (2017). Rheological behavior of mixed nectars of pineapple skin juice and tropical fruit pulp. International Food Research Journal, 24(4), 1713-1719.
Suárez-Jacobo, Á., Gervilla, R., Guamis, B., Roig-Sagués, A. X. & Saldo, J. (2010). Effect of UHPH on indigenous microbiota of apple juice: a preliminary study of microbial shelf-life. International Journal of Food Microbiology, 136(3), 261-267.
Yusefi, A., Shahi, F. & Sheykhluee, H. (2015). Investigation of stable shear flow behavior of Iranian peach juice: effect of concentration and temperature. Quarterly Journal of New Food Technologies, 10, 11-22 [in Persian].
Zhou, L., Guan, Y., Bi, J., Liu, X., Yi, J. & Chen, Q. (2017). Change of the rheological properties of mango juice by high pressure homogenization. LWT-Food Science and Technology, 82, 121-130.
Zhou, L., Wang, W., Hu, X., Wu, J. & Liao, X. (2009). Effect of high pressure carbon dioxide on the quality of carrot juice. Journal of Innovation Food Science and Emerging Technology, 1-7.
