Citas bibligráficas
Tapia, S., (2024). Diseño de un proceso de producción de un cocktail enzimático de alta actividad xilanolítica utilizando bagazo de caña de azúcar como inductor y fuente de carbono [Tesis, Universidad de Ingeniería y Tecnología]. https://hdl.handle.net/20.500.12815/378
Tapia, S., Diseño de un proceso de producción de un cocktail enzimático de alta actividad xilanolítica utilizando bagazo de caña de azúcar como inductor y fuente de carbono [Tesis]. PE: Universidad de Ingeniería y Tecnología; 2024. https://hdl.handle.net/20.500.12815/378
@misc{renati/230596,
title = "Diseño de un proceso de producción de un cocktail enzimático de alta actividad xilanolítica utilizando bagazo de caña de azúcar como inductor y fuente de carbono",
author = "Tapia Lishner, Sergio Enrique",
publisher = "Universidad de Ingeniería y Tecnología",
year = "2024"
}
Xylanolytic enzymes are industrial biocatalysts with an increasing demand in the second – generation ethanol industry. Due to this, major advances in recent years regarding its cheaper and more efficient production from a lab - scale point of view have been developed; however, little has been investigated about the economic performance of these innovations after scale - up has taken place. In order to face this problem, the following research project comprises the design of a process to produce a high – xylanase activity enzymatic cocktail using sugarcane bagasse as a carbon source taking into account the kinetics of enzymatic secretion by Trichoderma harzianum P49P11 under fed - batch mode fermentation conditions, the scale – up of the unit operations required to perform the enzyme recovery by ethanol precipitation, the implementation of an optimal scheduling scheme and the project financial analysis. The process was designed from a design basis of 749 kg of sugarcane bagasse and resulted in a production capacity of 271 batches of 2.35 cubic meters of enzymatic cocktail per year. The product has a protein concentration of 15.13 g/L, a xylanase enzymatic activity of 485.67 U/mL and a unit production cost of US$ 38.21 per liter. This project resulted in a NPV of US$ 16.16 MM and an IRR of 27.71%, which confirmed that the designed process is technically and economically feasible.
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