High-impact wet-milling: Effects of steeping conditions on rice starch attributes

Planetary ball wet-milling of rice was evaluated in comparison with traditional wet-milling. The effect of alkali and surfactant concentrations on starch recovery and purity, crystallinity loss, pasting profile, and gel stability were investigated based on the Doehlert design. Particle size, crystal...

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Autores principales: Loubes, M.A., Barrera, G.N., Tolaba, M.P.
Formato: JOUR
Materias:
Ball milling
Crystallinity degree
Hydration properties
Pasting profile
Starch gel stability
Milling (machining)
Particle size
Starch
Surface active agents
Viscosity
Water absorption
Response surface method
Starch gels
Surfactant concentrations
Thermo-mechanical damages
Water absorption capacity
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00389056_v68_n11-12_p1095_Loubes
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00389056_v68_n11-12_p1095_Loubes
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spelling todo:paper_00389056_v68_n11-12_p1095_Loubes2023-10-03T14:49:17Z High-impact wet-milling: Effects of steeping conditions on rice starch attributes Loubes, M.A. Barrera, G.N. Tolaba, M.P. Ball milling Crystallinity degree Hydration properties Pasting profile Starch gel stability Milling (machining) Particle size Starch Surface active agents Viscosity Water absorption Crystallinity degree Hydration properties Pasting profile Response surface method Starch gels Surfactant concentrations Thermo-mechanical damages Water absorption capacity Ball milling Planetary ball wet-milling of rice was evaluated in comparison with traditional wet-milling. The effect of alkali and surfactant concentrations on starch recovery and purity, crystallinity loss, pasting profile, and gel stability were investigated based on the Doehlert design. Particle size, crystallinity degree, and water absorption capacity were not affected by steeping conditions although they differ from those of native starch due to the thermo-mechanical damage associated to high-impact milling. Ball wet-milling allows significant reductions of alkali level and steeping time (from 24 to 1 h) and a high-quality starch is produced due to “in situ” steeping during ball milling. From the response surface method was found that combinations of alkali–surfactant affected the pasting properties and syneresis of starch. Isolated starches presented an advance in peak time and higher values of peak viscosity, breakdown, and initial pasting temperature in comparison with control. A wide range of peak viscosity (4360–7030 cP) could be obtained by selecting a convenient steeping condition. The freeze–thaw stability of starch gels was dependent of surfactant level. These results can be used to improve the manufacture and the selection criteria of rice starch with desirable properties. © 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Fil:Tolaba, M.P. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00389056_v68_n11-12_p1095_Loubes
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Ball milling
Crystallinity degree
Hydration properties
Pasting profile
Starch gel stability
Milling (machining)
Particle size
Starch
Surface active agents
Viscosity
Water absorption
Crystallinity degree
Hydration properties
Pasting profile
Response surface method
Starch gels
Surfactant concentrations
Thermo-mechanical damages
Water absorption capacity
Ball milling
spellingShingle Ball milling
Crystallinity degree
Hydration properties
Pasting profile
Starch gel stability
Milling (machining)
Particle size
Starch
Surface active agents
Viscosity
Water absorption
Crystallinity degree
Hydration properties
Pasting profile
Response surface method
Starch gels
Surfactant concentrations
Thermo-mechanical damages
Water absorption capacity
Ball milling
Loubes, M.A.
Barrera, G.N.
Tolaba, M.P.
High-impact wet-milling: Effects of steeping conditions on rice starch attributes
topic_facet Ball milling
Crystallinity degree
Hydration properties
Pasting profile
Starch gel stability
Milling (machining)
Particle size
Starch
Surface active agents
Viscosity
Water absorption
Crystallinity degree
Hydration properties
Pasting profile
Response surface method
Starch gels
Surfactant concentrations
Thermo-mechanical damages
Water absorption capacity
Ball milling
description Planetary ball wet-milling of rice was evaluated in comparison with traditional wet-milling. The effect of alkali and surfactant concentrations on starch recovery and purity, crystallinity loss, pasting profile, and gel stability were investigated based on the Doehlert design. Particle size, crystallinity degree, and water absorption capacity were not affected by steeping conditions although they differ from those of native starch due to the thermo-mechanical damage associated to high-impact milling. Ball wet-milling allows significant reductions of alkali level and steeping time (from 24 to 1 h) and a high-quality starch is produced due to “in situ” steeping during ball milling. From the response surface method was found that combinations of alkali–surfactant affected the pasting properties and syneresis of starch. Isolated starches presented an advance in peak time and higher values of peak viscosity, breakdown, and initial pasting temperature in comparison with control. A wide range of peak viscosity (4360–7030 cP) could be obtained by selecting a convenient steeping condition. The freeze–thaw stability of starch gels was dependent of surfactant level. These results can be used to improve the manufacture and the selection criteria of rice starch with desirable properties. © 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
format JOUR
author Loubes, M.A.
Barrera, G.N.
Tolaba, M.P.
author_facet Loubes, M.A.
Barrera, G.N.
Tolaba, M.P.
author_sort Loubes, M.A.
title High-impact wet-milling: Effects of steeping conditions on rice starch attributes
title_short High-impact wet-milling: Effects of steeping conditions on rice starch attributes
title_full High-impact wet-milling: Effects of steeping conditions on rice starch attributes
title_fullStr High-impact wet-milling: Effects of steeping conditions on rice starch attributes
title_full_unstemmed High-impact wet-milling: Effects of steeping conditions on rice starch attributes
title_sort high-impact wet-milling: effects of steeping conditions on rice starch attributes
url http://hdl.handle.net/20.500.12110/paper_00389056_v68_n11-12_p1095_Loubes
work_keys_str_mv AT loubesma highimpactwetmillingeffectsofsteepingconditionsonricestarchattributes
AT barreragn highimpactwetmillingeffectsofsteepingconditionsonricestarchattributes
AT tolabamp highimpactwetmillingeffectsofsteepingconditionsonricestarchattributes
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