D. P. Khramtsov scite author profile

The paper presents new results on the study of thermokinetics of gel system based on agarose in the process of transition from solution to gel and opposite. This issue is extremely relevant, since the stability and predictability of thermophysical and rheological properties in such transformations, especially in the presence of components of the nutrient medium and immobilized microorganisms, come to the fore in terms of design and selection of modes of operation of the printing device promising 3-D bioprinters, as well as the system of preparation and storage of the presence of the hysteresis effect, both from the point of view of the kinetics of gel formation and from the point of view of the dependence of rheological properties on temperature, at different concentrations of modifying components, is shown. The obtained results allow to draw a conclusion about the possibility of using the scheme with preliminary preparation of the initial biogel for the implementation of bioprinting technology based on agarose, and to recommend the obtained values for modeling the operating modes of devices of this type.

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Non-stationary heat transfer in gels applied to biotehnology

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Vyazmin

Zakharov

et al. 2017

THERM SCI

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Unsteady heat transfer in agarose gels of various concentrations was studied in order to make a breakthrough in the technology of 3-D additive bioprinting. Data on the kinetics of the phase transformation was obtained using spectroscopy as a function of temperature during the formation of agarose hydrogel. The dynamics of aging was investigated for gels of different densities. The time dependence of the structural changes was obtained. Particular attention was paid to the changes in the structure of the gel due to the processes of evaporation of the liquid during the gel formation and during long-term storage. Experiments were performed to determine the dynamics of the temperature fields simultaneously with heat flux measurements during the formation of agarose gels from different initial concentrations. A technique based on experimental data for the computations of the thermophysical coefficients of agarose gels was developed.

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Numerical and Analytical Approaches to Modeling Critical Two-Phase Flow with Granular Layer

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Tairov

Khan

et al. 2018

J. Engin. Thermophys.

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Modeling slug flow and mass transfer in inclined pipes

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Nekrasov

Khramtsov

2016

Theor Found Chem Eng

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D. P. Khramtsov

Experimental study of liquid evaporation from a surface of gel mixture

Thermokinetics and rheology of agarose gel applied to bioprinting technology

Non-stationary heat transfer in gels applied to biotehnology

Numerical and Analytical Approaches to Modeling Critical Two-Phase Flow with Granular Layer

Modeling slug flow and mass transfer in inclined pipes

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