Effect of the Extrusion on Functional Properties and Mineral Dialyzability from Phaseolus Vulgaris Bean Flour

The effects of extrusion conditions on cooking degree, flour dispersion viscosity and mineral potential availability of extruded bean flour were studied. Phaseolus vulgaris beans of the agronomic cultivar “Flor de mayo” were ground and dehulled to obtain grits and then extruded at different temperat...

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Bibliographic Details
Published in:Plant foods for human nutrition (Dordrecht) 2007-06, Vol.62 (2), p.43-48
Main Authors: Drago, S. R, Velasco-GonzÁlez, O. H, Torres, R. L, GonzÁlez, R. J, Valencia, M. E
Format: Article
Language:English
Subjects:
Availability
Bean flour
Beans
Biological and medical sciences
Cooking
Cooking - methods
Cultivars
Design of experiments
Dialysis
Dialyzability
Dispersion
Energy
Experimental design
Extrusion
Feeding. Feeding behavior
Flour
Flour - analysis
Food Handling - methods
Food industries
Food Industry
French beans
functional properties
Fundamental and applied biological sciences. Psychology
General aspects
High temperature
Humans
Mineral availability
Minerals - analysis
Minerals - pharmacokinetics
Moisture content
Moisture effects
Nutritive Value
Phaseolus - chemistry
Solubility
Temperature
Temperature effects
Vertebrates: anatomy and physiology, studies on body, several organs or systems
Viscosity
Water - analysis
Water - chemistry
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Description
Summary:The effects of extrusion conditions on cooking degree, flour dispersion viscosity and mineral potential availability of extruded bean flour were studied. Phaseolus vulgaris beans of the agronomic cultivar “Flor de mayo” were ground and dehulled to obtain grits and then extruded at different temperatures (140, 160 and 180 °C) and moisture contents (17, 20 and 23%), according to a bifactorial experimental design. Degree of cooking was estimated by water solubility (WS) and specific mechanical energy (SME). The effect of variables on WS and SME were analysed by surface response methodology. Flour dispersion viscosity and mineral availability (estimated by in vitro dialyzability), were also evaluated on selected samples. Results showed that, within the ranges of the variables used for this study, only the effect of temperature was significant on the degree of cooking. No direct correlation was observed between water solubility and SME, although a maximum value of WS corresponded to a range of SME values of 400-500 J/g was observed. Dispersion viscosity decreases as WS increases, so if high calorie density is desired, for instance in order to produce a cream soup formula, bean grits should be extruded at high temperature and as low moisture as possible, in our case 180 °C and 17% moisture. On the other hand, the effects of extrusion variables on iron and zinc dialyzability were not much affected.
ISSN:0921-9668
1573-9104
DOI:10.1007/s11130-006-0033-5