Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa
- Autores
- Cuggino, Mariana Isabel
- Año de publicación
- 2008
- Idioma
- español castellano
- Tipo de recurso
- tesis doctoral
- Estado
- versión aceptada
- Colaborador/a o director/a de tesis
- González, Rolando
De La Luz Zapata, María
Ronayne, Patricia Ana
Sanchez, Hugo
Carrara, Carlos - Descripción
- Fil: Cuggino, Mariana Isabel. Universidad Nacional del Litoral. Facultad de Ingeniería Química; Argentina.
The effects extrusion conditions on physical properties and flour dispersion viscosity of an extruded maize/Vigna unguiculata (85/15) mixture were studied A Brabender 20 DN extruder, with 4:1 screw compresion ratio, a 3 mmm die and 150 rpm, was used to obtain expanded samples from mixture. Surface response methodology was used to analyze the effects of grits moisture content and extrusion temperature on product characteristics. Factors levels were: 15%-17%-19 % and 150 ºC-165 ºC-180 ºC. The following characteristics were selected as responses: specific mechanical energy consumption, expansion; density, texture, water solubility and flour dispersion viscosity. Texture was evaluated, objectively by a compression test and subjectively, using a trained panel. Flour dispersion containing 10, 13 and 15% solids were prepared, and viscosity was determined using a Haake Rotovisco RV3 viscosmeter. As a way of comparison, samples of extruded maize grits and a commercial formula for pea cream soup were also used.The highest hardness values corresponded to the sample obtained at 150ºC and 19% and the lowest one to that obtained at 180ªc and 15%.Flour dispersion corresponding to extruded samples had viscosity values significantly lower that those of pea commercial sample. The highest viscosity corresponded to sample obtained at 150ºC and 19%, while the lowet one to that obtained at 180ºC and 15%, At 165 ºC and 15%, extrudate with good physical properties was obtained and also precooked flour having a high degree of cooking could be used to prepare cream soup type products with nutritional advantages.
The effects extrusion conditions on physical properties and flour dispersion viscosity of an extruded maize/Vigna unguiculata (85/15) mixture were studied A Brabender 20 DN extruder, with 4:1 screw compresion ratio, a 3 mmm die and 150 rpm, was used to obtain expanded samples from mixture. Surface response methodology was used to analyze the effects of grits moisture content and extrusion temperature on product characteristics. Factors levels were: 15%-17%-19 % and 150 ºC-165 ºC-180 ºC. The following characteristics were selected as responses: specific mechanical energy consumption, expansion; density, texture, water solubility and flour dispersion viscosity. Texture was evaluated, objectively by a compression test and subjectively, using a trained panel. Flour dispersion containing 10, 13 and 15% solids were prepared, and viscosity was determined using a Haake Rotovisco RV3 viscosmeter. As a way of comparison, samples of extruded maize grits and a commercial formula for pea cream soup were also used.The highest hardness values corresponded to the sample obtained at 150ºC and 19% and the lowest one to that obtained at 180ªc and 15%.Flour dispersion corresponding to extruded samples had viscosity values significantly lower that those of pea commercial sample. The highest viscosity corresponded to sample obtained at 150ºC and 19%, while the lowet one to that obtained at 180ºC and 15%, At 165 ºC and 15%, extrudate with good physical properties was obtained and also precooked flour having a high degree of cooking could be used to prepare cream soup type products with nutritional advantages.
Instituto de Tecnologia de los Alimentos (ITA) Facultad de Ingenieria Quimica, Sectretaria de Ciencia y Tecnica, Consejo Nacional de Ciencia y Tecnica, Proyectos de Investigacion Cientifica y Tecnologica 2002 - Materia
-
Extrusion
Vigna unguiculata
Viscosity
Degree cooking
Expansion
Density
Extrusion
Vigna unguiculata
Viscosidad
Grado de cocción
Expansión
Densidad - Nivel de accesibilidad
- acceso abierto
- Condiciones de uso
- https://bibliotecavirtual.unl.edu.ar/licencia/licencia.html
- Repositorio
.jpg)
- Institución
- Universidad Nacional del Litoral
- OAI Identificador
- oai:https://bibliotecavirtual.unl.edu.ar:11185/60
Ver los metadatos del registro completo
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Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosaFood development precooked for extrusion from maize-legume mixtureCuggino, Mariana IsabelExtrusionVigna unguiculataViscosityDegree cookingExpansionDensityExtrusionVigna unguiculataViscosidadGrado de cocciónExpansiónDensidadFil: Cuggino, Mariana Isabel. Universidad Nacional del Litoral. Facultad de Ingeniería Química; Argentina.The effects extrusion conditions on physical properties and flour dispersion viscosity of an extruded maize/Vigna unguiculata (85/15) mixture were studied A Brabender 20 DN extruder, with 4:1 screw compresion ratio, a 3 mmm die and 150 rpm, was used to obtain expanded samples from mixture. Surface response methodology was used to analyze the effects of grits moisture content and extrusion temperature on product characteristics. Factors levels were: 15%-17%-19 % and 150 ºC-165 ºC-180 ºC. The following characteristics were selected as responses: specific mechanical energy consumption, expansion; density, texture, water solubility and flour dispersion viscosity. Texture was evaluated, objectively by a compression test and subjectively, using a trained panel. Flour dispersion containing 10, 13 and 15% solids were prepared, and viscosity was determined using a Haake Rotovisco RV3 viscosmeter. As a way of comparison, samples of extruded maize grits and a commercial formula for pea cream soup were also used.The highest hardness values corresponded to the sample obtained at 150ºC and 19% and the lowest one to that obtained at 180ªc and 15%.Flour dispersion corresponding to extruded samples had viscosity values significantly lower that those of pea commercial sample. The highest viscosity corresponded to sample obtained at 150ºC and 19%, while the lowet one to that obtained at 180ºC and 15%, At 165 ºC and 15%, extrudate with good physical properties was obtained and also precooked flour having a high degree of cooking could be used to prepare cream soup type products with nutritional advantages.The effects extrusion conditions on physical properties and flour dispersion viscosity of an extruded maize/Vigna unguiculata (85/15) mixture were studied A Brabender 20 DN extruder, with 4:1 screw compresion ratio, a 3 mmm die and 150 rpm, was used to obtain expanded samples from mixture. Surface response methodology was used to analyze the effects of grits moisture content and extrusion temperature on product characteristics. Factors levels were: 15%-17%-19 % and 150 ºC-165 ºC-180 ºC. The following characteristics were selected as responses: specific mechanical energy consumption, expansion; density, texture, water solubility and flour dispersion viscosity. Texture was evaluated, objectively by a compression test and subjectively, using a trained panel. Flour dispersion containing 10, 13 and 15% solids were prepared, and viscosity was determined using a Haake Rotovisco RV3 viscosmeter. As a way of comparison, samples of extruded maize grits and a commercial formula for pea cream soup were also used.The highest hardness values corresponded to the sample obtained at 150ºC and 19% and the lowest one to that obtained at 180ªc and 15%.Flour dispersion corresponding to extruded samples had viscosity values significantly lower that those of pea commercial sample. The highest viscosity corresponded to sample obtained at 150ºC and 19%, while the lowet one to that obtained at 180ºC and 15%, At 165 ºC and 15%, extrudate with good physical properties was obtained and also precooked flour having a high degree of cooking could be used to prepare cream soup type products with nutritional advantages.Instituto de Tecnologia de los Alimentos (ITA) Facultad de Ingenieria Quimica, Sectretaria de Ciencia y Tecnica, Consejo Nacional de Ciencia y Tecnica, Proyectos de Investigacion Cientifica y Tecnologica 2002González, RolandoDe La Luz Zapata, MaríaRonayne, Patricia AnaSanchez, HugoCarrara, Carlos2008-12-11T10:50:12Z2008-08-19info:eu-repo/semantics/doctoralThesisSNRDinfo:eu-repo/semantics/acceptedVersionThesishttp://purl.org/coar/resource_type/c_db06info:ar-repo/semantics/tesisDoctoralapplication/pdfapplication/pdfhttp://hdl.handle.net/11185/60spaspainfo:eu-repo/semantics/openAccesshttps://bibliotecavirtual.unl.edu.ar/licencia/licencia.htmlreponame:Biblioteca Virtual (UNL)instname:Universidad Nacional del Litoralinstacron:UNL2025-09-29T14:30:01Zoai:https://bibliotecavirtual.unl.edu.ar:11185/60Institucionalhttp://bibliotecavirtual.unl.edu.ar/Universidad públicaNo correspondeajdeba@unl.edu.arArgentinaNo correspondeNo correspondeNo correspondeopendoar:21872025-09-29 14:30:01.8Biblioteca Virtual (UNL) - Universidad Nacional del Litoralfalse |
| dc.title.none.fl_str_mv |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa Food development precooked for extrusion from maize-legume mixture |
| title |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa |
| spellingShingle |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa Cuggino, Mariana Isabel Extrusion Vigna unguiculata Viscosity Degree cooking Expansion Density Extrusion Vigna unguiculata Viscosidad Grado de cocción Expansión Densidad |
| title_short |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa |
| title_full |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa |
| title_fullStr |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa |
| title_full_unstemmed |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa |
| title_sort |
Desarrollo de alimentos precocidos por extrusion a base de maíz-leguminosa |
| dc.creator.none.fl_str_mv |
Cuggino, Mariana Isabel |
| author |
Cuggino, Mariana Isabel |
| author_facet |
Cuggino, Mariana Isabel |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
González, Rolando De La Luz Zapata, María Ronayne, Patricia Ana Sanchez, Hugo Carrara, Carlos |
| dc.subject.none.fl_str_mv |
Extrusion Vigna unguiculata Viscosity Degree cooking Expansion Density Extrusion Vigna unguiculata Viscosidad Grado de cocción Expansión Densidad |
| topic |
Extrusion Vigna unguiculata Viscosity Degree cooking Expansion Density Extrusion Vigna unguiculata Viscosidad Grado de cocción Expansión Densidad |
| dc.description.none.fl_txt_mv |
Fil: Cuggino, Mariana Isabel. Universidad Nacional del Litoral. Facultad de Ingeniería Química; Argentina. The effects extrusion conditions on physical properties and flour dispersion viscosity of an extruded maize/Vigna unguiculata (85/15) mixture were studied A Brabender 20 DN extruder, with 4:1 screw compresion ratio, a 3 mmm die and 150 rpm, was used to obtain expanded samples from mixture. Surface response methodology was used to analyze the effects of grits moisture content and extrusion temperature on product characteristics. Factors levels were: 15%-17%-19 % and 150 ºC-165 ºC-180 ºC. The following characteristics were selected as responses: specific mechanical energy consumption, expansion; density, texture, water solubility and flour dispersion viscosity. Texture was evaluated, objectively by a compression test and subjectively, using a trained panel. Flour dispersion containing 10, 13 and 15% solids were prepared, and viscosity was determined using a Haake Rotovisco RV3 viscosmeter. As a way of comparison, samples of extruded maize grits and a commercial formula for pea cream soup were also used.The highest hardness values corresponded to the sample obtained at 150ºC and 19% and the lowest one to that obtained at 180ªc and 15%.Flour dispersion corresponding to extruded samples had viscosity values significantly lower that those of pea commercial sample. The highest viscosity corresponded to sample obtained at 150ºC and 19%, while the lowet one to that obtained at 180ºC and 15%, At 165 ºC and 15%, extrudate with good physical properties was obtained and also precooked flour having a high degree of cooking could be used to prepare cream soup type products with nutritional advantages. The effects extrusion conditions on physical properties and flour dispersion viscosity of an extruded maize/Vigna unguiculata (85/15) mixture were studied A Brabender 20 DN extruder, with 4:1 screw compresion ratio, a 3 mmm die and 150 rpm, was used to obtain expanded samples from mixture. Surface response methodology was used to analyze the effects of grits moisture content and extrusion temperature on product characteristics. Factors levels were: 15%-17%-19 % and 150 ºC-165 ºC-180 ºC. The following characteristics were selected as responses: specific mechanical energy consumption, expansion; density, texture, water solubility and flour dispersion viscosity. Texture was evaluated, objectively by a compression test and subjectively, using a trained panel. Flour dispersion containing 10, 13 and 15% solids were prepared, and viscosity was determined using a Haake Rotovisco RV3 viscosmeter. As a way of comparison, samples of extruded maize grits and a commercial formula for pea cream soup were also used.The highest hardness values corresponded to the sample obtained at 150ºC and 19% and the lowest one to that obtained at 180ªc and 15%.Flour dispersion corresponding to extruded samples had viscosity values significantly lower that those of pea commercial sample. The highest viscosity corresponded to sample obtained at 150ºC and 19%, while the lowet one to that obtained at 180ºC and 15%, At 165 ºC and 15%, extrudate with good physical properties was obtained and also precooked flour having a high degree of cooking could be used to prepare cream soup type products with nutritional advantages. Instituto de Tecnologia de los Alimentos (ITA) Facultad de Ingenieria Quimica, Sectretaria de Ciencia y Tecnica, Consejo Nacional de Ciencia y Tecnica, Proyectos de Investigacion Cientifica y Tecnologica 2002 |
| description |
Fil: Cuggino, Mariana Isabel. Universidad Nacional del Litoral. Facultad de Ingeniería Química; Argentina. |
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2008 |
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2008-12-11T10:50:12Z 2008-08-19 |
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