[1] Kumar, T. (2018). A review on ohmic Heating technology: Principle, applications and scope. International Journal of Agriculture, Environment and Biotechnology, 11(4), 679-687.
[2] Wang, W.C.,Sastry,S.K.(1997).Changes in electrical conductivity of selected vegetables during multiple thermal treatments. Journal of Food Process Engineering, 20(6), 499-516.
[3] Palaniappan, S., & Sastry, S. K. (1991). Electrical conductivities of selected solid foods during ohmic heating 1. Journal of Food Process Engineering, 14(3), 221-236.
[4]Leizerson, S., & Shimoni, E. (2005). Effect of ultrahigh-temperature continuous ohmic heating treatment on fresh orange juice. Journal of Agricultural and Food Chemistry, 53(9), 3519-3524.
[6] Kong, F. (2012). Automatic food intake assessment using camera phones. Michigan Technological University.
[7] Kashyap, G., and M. D. Gautam (2012). Analysis of vitamin C in commercial and naturals substances by iodometric titration found in Nimar and Malwa region. Journal of Scientific Research in Pharmacy, 1(2):77-78.
[8] Meilgaard, M., V. Civille, and T. Carr (2007). Sensory Evaluation Techniques. 4th ed. CRC Press, Boca Raton, FL, USA.
[9] Jatau, S. H., M. A. Sokoto, M. N. Almustapha, C. Muhammad, M. U. Dabai, and A. Y. Zubairu (2018). Effect of heat on lycopene content of hot peppers (capsicum annum) using various processing temperature. Int. J. Sci. Eng. 14, 32–39.
[10] Jin, T.Z.; Guo, M.; Yang, R.(2014). Combination of pulsed electric field processing and antimicrobial bottle for extending microbiological shelf-life of pomegranate juice. Innov. Food Sci. Emerg. Technol, 26, 153–158.
[11] Rajauria, G., A. K. Jaiswal, N. Abu‐Ghannam and S. Gupta, (2010). Effect of hydrothermal processing on colour, antioxidant and free radical scavenging capacities of edible Irish brown seaweeds. International journal of food science & technology, 45(12), 2485-2493.
[12] Aguilar-Rosas, S. F., M. L.Ballinas-Casarrubias, G. V. Nevarez-Moorillon, O. Martin-Belloso, and E. Ortega-Riva. (2007). Thermal and pulsed electric fields pasteurization of apple juice: Effects on physicochemical properties and flavour compounds. Journal of Food Engineering, 83(1), 41-46.
[13] Echeveirra E., K. B. Jacoqueline, and L. Wicker (1988). Effect of cell wall hydrolysis on Brix in citrus fruits. Proc. of Florida State Horti. Soci., 101: 150-154.
[14] Ayoub A. , S.A. Sofi, and A. Mohite (2017). Physico-chemical analysis of fruit juices by using self-made low cost portable Ohmic heater. International Journal of Agriculture, Environment and Biotechnology.
[15] . Purvis, A. C. (1983). Effect of film thickness and storage temperature on water loss and internal quality of sealed packed grape fruit. J. of the Ameri. Soc.for Horti. Science, 108: 562-566.
[16] Abedelmaksoud, T. G., S. M.Mohsen, L. Duedahl-Olesen, M. M. Elnikeety, and A. H. Feyissa (2018). Effect of Ohmic heating parameters on inactivation of enzymes and quality of not-from-concentrate mango Juice. Asian Journal of Scientific Research.
[17] Ayoub A. , S.A. Sofi, and A. Mohite (2017). Physico-chemical analysis of fruit juices by using self-made low cost portable Ohmic heater. International Journal of Agriculture, Environment and Biotechnology.
[18] Darvishi, H., M. H. Khostaghaza, and G. Najafi (2013). Ohmic heating of pomegranate juice: Electrical conductivity and pH change. Journal of the Saudi Society of Agricultural Sciences, 12(2), 101-108.
[19] Kim, S. S., and D. H. Kang, (2015). Comparison of pH effects on ohmic heating and conventional heating for inactivation of Escherichia coli O157: H7, Salmonella enterica Serovar Typhimurium and Listeria monocytogenes in orange juice. LWT-Food Science and Technology, 64(2), 860-866.
[20] .Assiry, A., S. K. Sastry, and C. Samaranayake (2003). Degradation kinetics of ascorbic acid during ohmic heating with stainless steel electrodes. Journal of Applied Electrochemistry, 33, 187–196.
[21] Mercali, G. D., D. P. Jaeschke, I. C. Tessaro, and L. D. F. Marczak (2012). Study of vitamin C degradation in acerola pulp during ohmic and conventional heat treatment. LWT—Food Science and Technology, 47, 91–95.
[22] Wattanayon, W., P. Udompijitkul, and P. Kamonpatana (2021). Ohmic heating of a solid-liquid food mixture in an electrically conductive package. Journal of Food Engineering, 289 (2), 110180.
[23] Tumpanuvatr, T., & Jittanit, W. (2012). The temperature prediction of some botanical beverages, concentrated juices and purees of orange and pineapple during ohmic heating. Journal of food engineering, 113(2), 226-233.