Browsing by Author "Shanbhag, C.C."

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    Simultaneous partitioning of multiple bioactive compounds from Garcinia indica rinds in a three-liquid-phase extraction systems
    (Taylor and Francis Ltd., 2025) Shanbhag, C.C.; Salimuddin, R.M.H.; Iyyaswami, R.; Belur, P.D.
    Simultaneous extraction and purification of principal bioactive compounds, anthocyanins (ACNs), garcinol (GL), and hydroxycitric acid (HCA) from the rinds of Garcinia indica (Kokum) fruits in a single-step using Three Liquid Phase Systems (TLPS) were investigated. Among the various phase-forming components studied, TLPS formed by n-hexane-ethanol-(NH4)2SO4-water system was considered for partitioning GL into the n-hexane-rich top phase, ACNs into the ethanol-rich middle phase, and HCA into the aqueous salt-rich bottom phase. The present system was even able to separate carbohydrates into the bottom phase, which can be detrimental to the stability of ACNs. The effect of n-hexane, ethanol, and (NH4)2SO4 concentration on the partitioning behavior of biomolecules was analyzed. The TLPS composed of water-n-hexane-ethanol-(NH4)2SO4 could purify and extract 95.08% of ACNs, 95.33% of GL, and 67.98% of HCA in a single-step extraction process while the other extraction methods require multi-step extraction process to separate these three compounds. The effect of pH studies on the partitioning characteristics of biomolecules revealed that pH 4 is optimum and more efficient than the native pH of the system to achieve maximum yield of all the bioactive compounds. © 2025 Taylor & Francis Group, LLC.
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    Studies on the physical properties of the Three-Liquid-Phase System of n-Hexane-ethanol-NaH2PO4-water
    (Institution of Chemical Engineers, 2025) Shanbhag, C.C.; Iyyaswami, R.; Belur, P.D.
    The physical properties, density, viscosity, and refractive index of equilibrated phases of the Three-Liquid-Phase System (TLPS) formed by n-Hexane+ethanol+sodium dihydrogen phosphate (NaH2PO4) +water were determined at 303.15 K and analysed as a function of change in concentration of individual phase forming components. The ternary plots were plotted to locate the shift in three-phase region with variation in system components. It was observed that the increase in total concentration of both ethanol and NaH2PO4 in a system showed a reduction of density and viscosity in the middle phase and was found to increase in the top and bottom phases; however, the refractive index of all three phases was increased. The effect of change in concentration of n-Hexane was observed to be different, like the density and viscosity of top and middle phases were found to decrease with increasing concentration of n-Hexane, and both the properties were found to increase in the bottom phase. In contrast, the refractive index of the top and bottom phases decreased with increasing concentration of n-Hexane. The influence of tie line lengths (TLL), which indicates the equilibrium characteristics between the phases, on the interfacial tension between the phases was also studied. © 2024 Institution of Chemical Engineers