TY  - BOOK
AU  - GuzmÃ¡n MartÃ­nez,Hermelinda
AU  - Aguirre Mandujano,Eleazar
AU  - Aguirre Anaya,Eleazar
AU  - MartÃ­nez Velasco,Alejandro
TI  - Desarrollo de un modelo de predicciÃ³n reolÃ³gica de emulsiones estabilizadas con complejos biopolimÃ©ricos
PY  - 2020///
CY  - Chapingo, MÃ©xico
PB  - El autor
KW  - atg
KW  - Emulsiones
KW  - Propiedades emulsionantes
KW  - Propiedades fisicoquÃ­micas
KW  - Propiedades sensoriales
KW  - Redes neuronales
KW  - Emulsions
KW  - Emulsifying properties
KW  - Physicochemical properties
KW  - Sensory properties
KW  - Neural networks
N1  - Tesis
; BibliografÃ­a: 50-58 pÃ¡ginas
N2  - La presente investigaciÃ³n se llevÃ³ a cabo para desarrollar un modelo de predicciÃ³n utilzando RNAs como herramienta para predecir la variaciÃ³n de los parÃ¡metros reolÃ³gicos de Herschel-Bulkley: esfuerzo a tasa de corte cero (ï´0), coeficiente de consistencia k y el Ã­ndice de comportamiento del flujo n de emulsiones aceite en agua O/W. La RNA fue del tipo de retropropagaciÃ³n del error basada en perceptrÃ³n multicapa (MLP), estructura: 6 entradas (caracterÃ­sticas de la emulsiÃ³n O/W: pH, tasa de corte (ï´), diÃ¡metro volumÃ©trico superficial (d3,2 ), concentraciÃ³n de pectina (P), concentraciÃ³n de caseinato de sodio (Cs) y potencial Zeta (Æº); 3 salidas (parÃ¡metros reolÃ³gicos: ï´0, k y n); con 5, 10, 15 y 20 neuronas, variando el nÃºmero de capas ocultas en 2, 3, 4, 5, 6, 7, 8, 9, 10 y el nÃºmero de iteraciones variÃ³ desde 100 hasta 50 000. Se determinÃ³ que la RNA mÃ¡s apropiada fue el modelo con 2 capas ocultas y 15 neuronas en cada capa, con una funciÃ³n de activaciÃ³n tangente, 31 500 iteraciones y coeficiente de determinaciÃ³n mÃ¡s alto (R2= 0. 999999895), la cual mostrÃ³ muy buena predicciÃ³n para los parÃ¡metros reolÃ³gicos de HerschelBulkley. La RNA es una tÃ©cnica poderosa que permitiÃ³ obtener un modelo consistente y confiable para predecir adecuadamente variaciones en el comportamiento reolÃ³gico de emulsiones O/W en funciÃ³n de variaciones multifactoriales propias de los sistemas dispersos; The present investigation was carried out to develop a prediction model using RNAs as a tool to predict the variation of the Herschel-Bulkley rheological parameters: stress at zero cut-off rate (ï´0), consistency coefficient k and the behavior index of the flow n of O/W oil-in-water emulsions. The RNA was of the type of Backpropagation of the error based on multilayer perceptron (MLP), topology: 6 inputs (characteristics of the O / W emulsion: pH, cut-off rate (ï´), surface volumetric  diameter (d3,2), pectin concentration (P), sodium caseinate concentration (Cs) and Zeta potential (Æº); 3 outputs (rheological parameters: ï´0, kyn); with 5, 10, 15 and 20 neurons, varying the number of hidden layers in 2, 3, 4, 5, 6, 7, 8, 9, 10 and the number of iterations ranged from 100 to 50,000. It was determined that the most  appropriate RNA was the model with 2 hidden layers and 15 neurons in each layer, with a tangent firing function, 31500 iterations and co Highest determination efficiency (R2 = 0. 999999895), which showed very good prediction for the HerschelBulkley rheological parameters. RNA is a powerful technique that allowed obtaining a consistent and reliable model to adequately predict variations in the rheological behavior of O/W emulsions based on multifactorial variations typical of    dispersed systems
UR  - http://10.13.5.2/tesis/tl/2020_IA_Guzman_Martinez_Hermelinda.pdf
ER  -