Maïté Huron scite author profile

A mechanistic model of enzymatic hydrolysis taking into account the morphology of the cellulosic particles and its evolution with time was developed. The individual behavior of the main enzymes involved in the reaction (cellobiohydrolases, endoglucanases, and β-glucosidases), as well as synergy effects, were also included. A large panel of experimental tests was done to fit and validate the model. This database included different enzymes mixtures and operating conditions and allowed to determine and compare with accuracy the adsorption and kinetic parameters of the different enzymes. Model predictions on short hydrolysis times were very satisfactory. On longer times, a deactivation constant was added to represent the hydrolysis slowdown. The model also allowed to predict the impact of enzymes ratios and initial substrate parameters (chain length distribution, polymerization degree) on hydrolysis, and to follow the evolution of these parameters with time. This model revealed general trends on the impact of cellulose morphology on hydrolysis. It is a useful tool to better understand the mechanisms involved in enzymatic hydrolysis of cellulose and to determine optimal cellulolytic cocktails for process design.

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Impact of delignification on the morphology and the reactivity of steam exploded wheat straw

Huron

Hudebine

Ferreira

et al. 2016

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Maïté Huron

An extensive characterization of various treated waste wood for assessment of suitability with combustion process

Mechanistic modeling of enzymatic hydrolysis of cellulose integrating substrate morphology and cocktail composition

Impact of delignification on the morphology and the reactivity of steam exploded wheat straw

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