Kinetic study of the thermal hydrolysis of agave salmiana for mezcal production

The kinetics of the thermal hydrolysis of the fructans of Agave salmiana were determined during the cooking step of mezcal production in a pilot autoclave. Thermal hydrolysis was achieved at different temperatures and cooking times, ranging from 96 to 116 °C and from 20 to 80 h. A simple kinetic model of the depolymerization of fructans to monomers and other reducing sugars and of the degradation of reducing sugars to furans [principally 5-(hydroxymethyl)furfural, HMF] was developed. From this model, the rate constants of the reactions were calculated, as well as the pre-exponential factors and activation energies of the Arrhenius equation. The model was found to fit the experimental data well. The tradeoff between a maximum fructan hydrolysis and a critical furan concentration in allowing for the best ethanol yield during fermentation was investigated. The results indicated that the thermal hydrolysis of agave was optimal, from the point of view of ethanol yield in the ensuing fermentation, in the temperature range of 106-116 °C and the cooking range time of 6-14 h. The optimal conditions corresponded to a fructan hydrolysis of 80%25, producing syrups with furan and reducing sugar concentrations of 1 ± 0.1 and 110 ± 10 g/L, respectively. © 2011 American Chemical Society.

5-(hydroxymethyl)furfural; agave cooking; mezcal; reducing sugars 5-(hydroxymethyl)furfural; agave cooking; Arrhenius equation; Cooking time; Ethanol yield; Experimental data; Fructans; Kinetic models; Kinetic study; mezcal; Optimal conditions; Preexponential factor; Reducing sugars; Temperature range; Thermal hydrolysis; Activation energy; Aldehydes; Aromatic compounds; Ethanol; Fermentation; Furfural; Kinetic theory; Kinetics; Methanol; Optimization; Organic pollutants; Polysaccharides; Rate constants; Sugars; Hydrolysis; alcohol; fructan; agave; alcoholic beverage; article; chemistry; fermentation; food handling; heat; hydrolysis; instrumentation; kinetics; methodology; thermodynamics; Agave; Alcoholic Beverages; Ethanol; Fermentation; Food Handling; Fructans; Hot Temperature; Hydrolysis; Kinetics; Thermodynamics; Agave; Agave salmiana

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