• Reference :1

    Alfonso, I.M., Hes, L., Maia, J.M., Melo, L.F., 2003. Heat transfer and rheology of stirred yoghurt during cooling in plate heat exchangers. Journal of Food Engineering 57(2), 179−187.

    Aziz, T., 1985. Thermal processing of dahi to improve its keeping quality. Indian Journal of Nutrition and Dietetics 22, 80–87.

    Becker, B.R., Fricke, B.A., 2004. Heat transfer coefficients for forced-air cooling and freezing of selected foods. International Journal of Refrigeration 27(5), 540−551.

    Benezech, T., Maingonnat, J.F., 1994. Characterization of the rheological properties of yoghurt-a review. Journal of Food Engineering 21(4), 447−472.

    Bhadoria, P.B.S., Mahapatra, S.C., 2011. Prospects, technological aspects and limitations of probiotics–a worldwide review. European Journal of Nutrition and Food Safety 1(2), 23−42.

    Delgado, A.E., Sun, D.W., 2001. Heat and mass transfer models for predicting freezing processes–a review. Journal of Food Engineering 47(3), 157−174.

    Dhotre, A.V., Bhadania, A.G., 2017. Acceptability of thermized shrikhand during storage at ambient temperature. Indian Journal of Dairy Science 70(6), 665−673.

    Dincer, I., 1993. Heat-transfer coefficients in hydrocooling of spherical and cylindrical food products. Energy 18(4), 335−340.

    Dincer, I., Genceli, O.F., 1994. Cooling process and heat transfer parameters of cylindrical products cooled both in water and in air. International Journal of Heat and Mass Transfer 37(4), 625−633.

    Dincer, I., 1995. Development of fourier-reynolds correlations for cooling parameters. Applied Energy 51(2), 125−138.

    Fernandes, C.S., Dias, R.P., Nobrega, J.M., Afonso, I.M., Melo, L.F., Maia, J.M., 2006. Thermal behaviour of stirred yoghurt during cooling in plate heat exchangers. Journal of Food Engineering 76(3), 433−439.

    Fricke, B.A., Becker, B.R., 2002. Calculation of heat transfer coefficients for foods. International Communications in Heat and Mass Transfer 29(6), 731−740.

    Hussain, S.A., Patil, G.R., Yadav, V., Singh, R.R.B., Singh, A.K., 2016. Ingredient formulation effects on physico-chemical, sensory, textural properties and probiotic count of Aloe vera probiotic dahi. LWT-Food Science and Technology 65, 371−380.

    Kunal, G., Prajapati, J.B., 2012. Status and scope of Dahi industry in India. Indian Dairyman 64(7), 46−50.

    Kim, S.S., Bhowmik, S.R., 1997. Thermophysical properties of plain yogurt as functions of moisture content. Journal of Food Engineering 32(1), 109−124.

    Lee, W.J., Lucey, J.A., 2010. Formation and physical properties of yogurt. Asian-Australasian Journal of Animal Sciences, 23(9), 1127−1136.

    Mitra, H., 2016. Physico Chemical Microstructural Thermal and Flow Properties of Select Dairy Powders (Doctoral dissertation, NDRI (SRS), Bengaluru).  www.ndri.res.in

    Raghavendra, S., Veena, N., Nath, B.S., Amaladhas, P.H., 2017. Utilization of concentrated paneer whey in the preparation of dahi. Indian Journal of Dairy Science 70(6), 720−725.

    Ramaswamy, H.S., Lo, K.V., Tung, M.A., 1982. Simplified equations for transient temperatures in conductive foods with convective heat transfer at the surface. Journal of Food science 47(6), 2042−2047.

    Reddy, P.A., 2000. Heat transfer characteristics of paneer during cooling and storage (Doctoral dissertation, NDRI, Karnal). Available at www.ndri.res.in

    Talbot-Walsh, G., Kannar, D., Selomulya, C., 2019. pH effect on the physico-chemical, microstructural and sensorial properties of processed cheese manufactured with various starches. Lebensmittel-Wissenschaft & Technologie (LWT), 111, 414−422.

    Tamime, A.Y., Deeth, H.C., 1980. Yogurt: technology and biochemistry. Journal of food protection 43(12), 939−977.

    Tang, J., Wang, X.C., Hu, Y., Zhang, Y., Li, Y., 2017. Effect of pH on lactic acid production from acidogenic fermentation of food waste with different types of inocula. Bioresource technology, 224, 544−552.

    Yadav, H., Jain, S., Sinha, P.R., 2006. Effect of Dahi containing Lactococcus lactis on the progression of diabetes induced by a high-fructose diet in rats. Bioscience, Biotechnology and Biochemistry 70(5), 1255−1258.

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