Cinética de fermentación láctica de col blanca (Brassica
 olerácea L. capitata)

Daniela Estefania Zuñiga Garcia; Daniela Estefania Zuñiga Garcia; Maria Magdalena Montaleza Auquilla; Diana Andrade Muñoza; Diana Andrade Muñoza; Jessica Andrea Leon Vizñay; Jessica Andrea Leon Vizñay; Patricia Liliana Ramirez Jimbo; Patricia Liliana Ramirez Jimbo; Diana Alexandra Criollo Ayala; Sonia Margoth Astudillo Ochoa; Sonia Margoth Astudillo Ochoa; María Loja; Dolores Susana Andrade Tenesaca; Dolores Susana Andrade Tenesaca

Cinética de fermentación láctica de col blanca (Brassica olerácea L. capitata)

Daniela Estefania Zuñiga Garcia, Daniela Estefania Zuñiga Garcia, Maria Magdalena Montaleza Auquilla, Diana Andrade Muñoza, Diana Andrade Muñoza, Jessica Andrea Leon Vizñay, Jessica Andrea Leon Vizñay, Patricia Liliana Ramirez Jimbo, Patricia Liliana Ramirez Jimbo, Diana Alexandra Criollo Ayala, Sonia Margoth Astudillo Ochoa, Sonia Margoth Astudillo Ochoa, María Loja, Dolores Susana Andrade Tenesaca, Dolores Susana Andrade Tenesaca

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Resumen

This study examined the chemical kinetics of natural lactic fermentation of white cabbage (Brassica olerácea L.- capitata var.). First, the experimental design was developed and the optimal conditions (temperature, fermentation time and sea salt concentration) for the growth of lactic bacteria were defined. The optimal corresponds to a temperature of 25°C, a duration of 14 days and a sea salt content of 3%. The experiment was replicated in eleven bottles and the pH, the concentration of glucose, fructose, and lactic acid bacteria were determined. Second, the integral method was used to define the kinetics of the chemical reaction. For glucose, zero-order kinetics was set with a kinetic constant of 2x10-6 g/ml.min (correlation coefficient = 0.98), and showed that the reaction rate was independent of the glucose concentration. Regarding the fructose, the second-order kinetics was set with a constant of 1.45x10-2 ml/g.min (correlation coefficient = 0.98). The equation −????6??12??6 = [ 0.0145 (C??6??12??6) 2 ] g/ml.min represents the speed of sugar consumption in a natural lactic fermentation reaction of white cabbage. The modeling approach will help the fermenter to improve the fermenting design and enhance the production process.

Idioma original	Español
Publicación	Maskana
Estado	Publicada - 2020
Publicado de forma externa	Sí

Palabras clave

Fermentación láctica; Modelo cinético; Orden de reacción; Col blanca; Vida útil

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Zuñiga Garcia, D. E., Zuñiga Garcia, D. E., Montaleza Auquilla, M. M., Andrade Muñoza, D., Andrade Muñoza, D., Leon Vizñay, J. A., Leon Vizñay, J. A., Ramirez Jimbo, P. L., Ramirez Jimbo, P. L., Criollo Ayala, D. A., Astudillo Ochoa, S. M., Astudillo Ochoa, S. M., Loja, M., Andrade Tenesaca, D. S., & Andrade Tenesaca, D. S. (2020). Cinética de fermentación láctica de col blanca (Brassica olerácea L. capitata). Maskana.

@article{f541b956171848bea6cd3926b7496597,

title = "Cin{\'e}tica de fermentaci{\'o}n l{\'a}ctica de col blanca (Brassica oler{\'a}cea L. capitata)",

abstract = "This study examined the chemical kinetics of natural lactic fermentation of white cabbage (Brassica oler{\'a}cea L.- capitata var.). First, the experimental design was developed and the optimal conditions (temperature, fermentation time and sea salt concentration) for the growth of lactic bacteria were defined. The optimal corresponds to a temperature of 25°C, a duration of 14 days and a sea salt content of 3\%. The experiment was replicated in eleven bottles and the pH, the concentration of glucose, fructose, and lactic acid bacteria were determined. Second, the integral method was used to define the kinetics of the chemical reaction. For glucose, zero-order kinetics was set with a kinetic constant of 2x10-6 g/ml.min (correlation coefficient = 0.98), and showed that the reaction rate was independent of the glucose concentration. Regarding the fructose, the second-order kinetics was set with a constant of 1.45x10-2 ml/g.min (correlation coefficient = 0.98). The equation −????6??12??6 = [ 0.0145 (C??6??12??6) 2 ] g/ml.min represents the speed of sugar consumption in a natural lactic fermentation reaction of white cabbage. The modeling approach will help the fermenter to improve the fermenting design and enhance the production process.",

keywords = "Fermentaci{\'o}n l{\'a}ctica; Modelo cin{\'e}tico; Orden de reacci{\'o}n; Col blanca; Vida {\'u}til, Fermentaci{\'o}n l{\'a}ctica; Modelo cin{\'e}tico; Orden de reacci{\'o}n; Col blanca; Vida {\'u}til",

author = "\{Zu{\~n}iga Garcia\}, \{Daniela Estefania\} and \{Zu{\~n}iga Garcia\}, \{Daniela Estefania\} and \{Montaleza Auquilla\}, \{Maria Magdalena\} and \{Andrade Mu{\~n}oza\}, Diana and \{Andrade Mu{\~n}oza\}, Diana and \{Leon Viz{\~n}ay\}, \{Jessica Andrea\} and \{Leon Viz{\~n}ay\}, \{Jessica Andrea\} and \{Ramirez Jimbo\}, \{Patricia Liliana\} and \{Ramirez Jimbo\}, \{Patricia Liliana\} and \{Criollo Ayala\}, \{Diana Alexandra\} and \{Astudillo Ochoa\}, \{Sonia Margoth\} and \{Astudillo Ochoa\}, \{Sonia Margoth\} and Mar{\'i}a Loja and \{Andrade Tenesaca\}, \{Dolores Susana\} and \{Andrade Tenesaca\}, \{Dolores Susana\}",

year = "2020",

language = "Espa{\~n}ol",

journal = "Maskana",

issn = "1390-6143",

}

Zuñiga Garcia, DE, Zuñiga Garcia, DE, Montaleza Auquilla, MM, Andrade Muñoza, D, Andrade Muñoza, D, Leon Vizñay, JA , Leon Vizñay, JA, Ramirez Jimbo, PL, Ramirez Jimbo, PL, Criollo Ayala, DA, Astudillo Ochoa, SM, Astudillo Ochoa, SM, Loja, M, Andrade Tenesaca, DS & Andrade Tenesaca, DS 2020, 'Cinética de fermentación láctica de col blanca (Brassica olerácea L. capitata)', Maskana.

TY - JOUR

T1 - Cinética de fermentación láctica de col blanca (Brassica olerácea L. capitata)

AU - Zuñiga Garcia, Daniela Estefania

AU - Montaleza Auquilla, Maria Magdalena

AU - Andrade Muñoza, Diana

AU - Leon Vizñay, Jessica Andrea

AU - Ramirez Jimbo, Patricia Liliana

AU - Criollo Ayala, Diana Alexandra

AU - Astudillo Ochoa, Sonia Margoth

AU - Loja, María

AU - Andrade Tenesaca, Dolores Susana

PY - 2020

Y1 - 2020

N2 - This study examined the chemical kinetics of natural lactic fermentation of white cabbage (Brassica olerácea L.- capitata var.). First, the experimental design was developed and the optimal conditions (temperature, fermentation time and sea salt concentration) for the growth of lactic bacteria were defined. The optimal corresponds to a temperature of 25°C, a duration of 14 days and a sea salt content of 3%. The experiment was replicated in eleven bottles and the pH, the concentration of glucose, fructose, and lactic acid bacteria were determined. Second, the integral method was used to define the kinetics of the chemical reaction. For glucose, zero-order kinetics was set with a kinetic constant of 2x10-6 g/ml.min (correlation coefficient = 0.98), and showed that the reaction rate was independent of the glucose concentration. Regarding the fructose, the second-order kinetics was set with a constant of 1.45x10-2 ml/g.min (correlation coefficient = 0.98). The equation −????6??12??6 = [ 0.0145 (C??6??12??6) 2 ] g/ml.min represents the speed of sugar consumption in a natural lactic fermentation reaction of white cabbage. The modeling approach will help the fermenter to improve the fermenting design and enhance the production process.

AB - This study examined the chemical kinetics of natural lactic fermentation of white cabbage (Brassica olerácea L.- capitata var.). First, the experimental design was developed and the optimal conditions (temperature, fermentation time and sea salt concentration) for the growth of lactic bacteria were defined. The optimal corresponds to a temperature of 25°C, a duration of 14 days and a sea salt content of 3%. The experiment was replicated in eleven bottles and the pH, the concentration of glucose, fructose, and lactic acid bacteria were determined. Second, the integral method was used to define the kinetics of the chemical reaction. For glucose, zero-order kinetics was set with a kinetic constant of 2x10-6 g/ml.min (correlation coefficient = 0.98), and showed that the reaction rate was independent of the glucose concentration. Regarding the fructose, the second-order kinetics was set with a constant of 1.45x10-2 ml/g.min (correlation coefficient = 0.98). The equation −????6??12??6 = [ 0.0145 (C??6??12??6) 2 ] g/ml.min represents the speed of sugar consumption in a natural lactic fermentation reaction of white cabbage. The modeling approach will help the fermenter to improve the fermenting design and enhance the production process.

KW - Fermentación láctica; Modelo cinético; Orden de reacción; Col blanca; Vida útil

UR - https://publicaciones.ucuenca.edu.ec/ojs/index.php/maskana/article/view/3150

M3 - Artículo

SN - 1390-6143

JO - Maskana

JF - Maskana

ER -