Effect of Disperse Silica on Bound Water in Frozen Cellular Suspensions
Abstract
Using the 1H NMR method under conditions of liquid phase freezing-out the effect of disperse silica on hydration rate of model cell suspensions in varying the concentration of cell mass within the range of 0-25% mass and that of SiO2 within the range of 0‑5% (w/w) have been studied. Disperse silica was found to cause a strong decrease in bound water concentration in the system. The maximum reduction in inter-phase energy of cell/water (γS) was equal to 130 J/g. In concentrated cell suspension the cells and particles of silica can form complex colloid systems with the value of γS in two times lower than that in the binary system.
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Copyright (c) 2020 V. V. Turov, S. P. Gorbik, A. A. Chuiko
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