Javier Telis‐Romero scite author profile

Experimental viscosity values of sucrose, glucose, and fructose aqueous solutions in a large range of temperatures (0 to 85°C) and concentrations (10 to 60% w/w) that might be encountered in food processes were obtained in order to contribute to extending the available database of food properties. The temperature dependence of viscosity could be adequately described by the Arrhenius model, and the activation energy was well represented by a unique function of the solute volume fraction, valid for sucrose, glucose, and fructose solutions.

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Water sorption thermodynamic properties applied to persimmon skin and pulp

Telis

et al. 2000

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Thermophysical properties of Brazilian orange juice as affected by temperature and water content

Telis‐Romero

Telis

Gabas

et al. 1998

Journal of Food Engineering

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Water adsorption isotherms and thermodynamic properties of cassava bagasse

et al. 2016

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Water adsorption isotherms and thermodynamic properties of cassava bagasse, Thermochimica Acta http://dx. HighlightsAdsorption isotherms and composition of cassava bagasse were determined> GAB equation was the best-fitted model to sorption data of type II isotherm> Isosteric heat of sorption was calculated in a range of equilibrium moisture content> Differential enthalpy and entropy confirmed the isokinetic compensation theory> Water adsorption by cassava bagasse is considered an enthalpy driven process> AbstractLosses of food industry are generally wet products that must be dried to posterior use and storage. In order to optimize drying processes, the study of isotherms and thermodynamic properties become essential to understand the water sorption mechanisms of cassava bagasse.For this, cassava bagasse was chemically analyzed and had its adsorption isotherms determined in the range of 293.15 to 353.15 K through the static gravimetric method. The models of GAB, 2 Halsey, Henderson, Oswin and Peleg were fitted, and best adjustments were found for GAB model with R²>0.998 and no pattern distribution of residual plots. Isosteric heat of adsorption and thermodynamic parameters could be determined as a function of moisture content.Compensation theory was confirmed, with linear relationship between enthalpy and entropy and higher values of isokinetic temperature (TB=395.62 K) than harmonic temperature. Water adsorption was considered driven by enthalpy, clarifying the mechanisms of water vapor sorption in cassava bagasse.

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