In this study, the morphological characteristics of cocoa beverage powder granules under minimal, average, and maximal process conditions of a steam agglomerator were studied. a stereoscopic microscope coupled to a digital camera was used for the morphological analysis. The images were analyzed to obtain shape and size descriptors. aiming to evaluate the descriptors, 150 particles were analyzed. The results showed that there was no difference between the shape descriptors -compacity, circularity, roughness, and aspect ratio -in the operating conditions evaluated. It was observed that the cocoa beverage powder granules are elongated in shape. The size descriptors, area, perimeter, perimeter of convex bounding polygon, minimal and maximal Feret diameter, were different in the process conditions for the granules of size above 600 μm. as for the minimal process conditions, especially due to low solid feed rates, there is an increase in the size descriptor values. In addition, under the minimum process conditions, in which there is low solid feed rate (400g/min) for a steam pressure of 1.0 bar, it was obtained a good granular condition with retention of 81.1% of granules on sieves with aperture size between 300 and 1190 µm.
Sunflower protein meal could be an alternative and sustainable plant-based protein source, with the potential to add value and replace egg (E) in cakes due to its surface-active properties, however, contains chlorogenic acid and its oxidation leads to greening. Additionally, the electrostatic complexes prepared from the mixture of proteins and polysaccharides can be an important tool to improve the technological properties compared to them are used individually. The aim of this study was the replacement of E in cakes by sunflower protein meal dispersion (SPMD) or electrostatic complexes of sunflower protein meal-pectin (ECSPM-P), evaluating their effects on the cake batter and fresh and aged baked product. Results of the Rapid Visco Analyser (RVA) analysis indicated higher initial viscosity of the cake batters with SPMD and ECSPM-P and lower peak viscosity and less swelling of the starch granules of the cake batter with ECSPM-P. The formulation with SPMD showed the greatest aeration of the cake batter, however resulted in a cake with collapsed structure. The formulation with ECSPM-P showed lighter color (DE = 9.95) and improvement in the cake structure, where the cake crumb was similar to the cake with E. During aging, cake formulated with SPMD (DE = 36.25) showed intensification in the greening of the cake crumb. The positive effects on the structure and color of the cake crumb showed the potential uses of the ECSPM-P as E replacer in cakes, besides promising ingredient in terms of the trend towards plant-based foods and healthiness.
SummaryThis study evaluated the formation and dispersion effects with 4% w/w total biopolymer [sunflower meal protein (SMP) and pectin (P)] at SMP:P ratio 1:0, 25:1, 15:1, 5:1, pH 3.7, prepared at room temperature (RT) or heat treated (HT) at 98 °C on emulsion stabilisation. At RT, increasing P concentration increased apparent viscosity and gel‐like behaviour of biopolymer dispersions and emulsions. At SMP:P‐RT ratio 5:1, the dispersion structure showed protein attached to pectin and individual pectin dispersed in the continuous phase. Under this condition, the emulsion presented stability regarding creaming, flocculation and/or coalescence. Whereas when HT, all samples showed low apparent viscosity, but at SMP:P ratio 25:1 and 15:1 emulsions exhibit gel‐like behaviour. However, SMP:P ratio 5:1 dispersion presented spheroid particles and emulsion behaved as liquid‐like material with lower creaming, flocculation and/or coalescence. Therefore, depending on the process parameters, sunflower meal may be used as an ingredient to obtain different food emulsion structure.
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