Storage stability of a fluidized-bed agglomerated spray-dried strawberry powder mixture.

Background: Strawberry is a fruit with a high antioxidant capacity due to its richness in phenolic compounds that suffer a rapid post-harvest deterioration. Spray drying is an alternative to reduce losses; however, these powders present problems of instantanisation, making it necessary to implement agglomeration processes. During storage, powdered food products can undergo a series of changes in their amorphous state from a product initially in a vitreous state to a gummy state, where all properties are substantially modified due to the increased mobility of water in the matrix. Methods: The research objective was to evaluate the storage stability (6 months) of a fluidized bed agglomerated strawberry powder mixture at three temperatures (15, 25 and 25°C), a controlled environment at 65% relative moisture, and PET foil laminated film bags as packaging. Moisture, water activity, bulk and compacted density, Carr and Hausner indices, solubility, hygroscopicity, wettability, angle of repose, antioxidant capacities, total phenols, anthocyanins, vitamin C, color (CIE-Lab) and particle size were monitored. Results: ANOVA showed statistically significant differences (p<0.05) for all dependent variables concerning storage time; storage temperature had no significant effect on S, ABTS, DPPH and Hu. The time-temperature interaction during storage had no significant effect (p>0.05) on S, ABTS, DPPH, Hu and L. The agglomerate showed moisture and aw values that confer excellent stability against deterioration reactions; it retained good fluidity, low cohesiveness, and retentions above 50% for antioxidant capacity, 76% for total phenols, 39% for anthocyanins, and 40% for vitamin C; particle size was retained during the evaluation. The color was only affected in the 35°C treatment from the fifth month onwards. Conclusions: The study will serve as a tool for the determination of the shelf life of the chipboard once the critical values of the attributes selected as predictors of shelf life are defined.

Producción de etanol a partir de yuca en condiciones de alta concentración de sólidos (VHG) / Ethanol production from cassava using very high gravity conditions (VHG)

La investigación realizada evalúa el efecto del medio fermentativo y la concentración de azúcares iniciales sobre la producción de etanol en sistemas batch, cuando se emplean sacarificados de harina de yuca (Manihot esculenta), como fuente de carbono. El diseño experimental ejecutado fue de tipo bifactorial de efectos fijos y analiza la productividad de bioetanol en cuatro medios fermentativos diferentes, dos de los cuales se suplementaron con sacarificados de harina de yuca variedad Copiblanca. Las concentraciones de azúcares iniciales evaluadas en estos sustratos fueron de 250, 300 y 350 g/L. Estos tratamientos fermentativos fueron inoculados con una variedad etanologénica comercial de S. cerevisiae a una concentración de 0.05% (p/v). Las condiciones de proceso incluyeron un volumen final de 150 mL, una incubación a 35°C por 48 horas, agitación constante de 150 rpm y pH entre 4.0 y 4.5. Los sacarificados provenientes de esta variedad de yuca usados como fuente de carbono, mostraron ser excelentes sustratos para la obtención de etanol. Se evidenciaron aumentos de más del 500% en términos de productividad volumétrica con respecto al control experimental y se alcanzaron concentraciones finales de etanol del 14.7%v/v, asociadas a rendimientos producto/sustrato de 0,48 g/g y productividades de 2,4 g/L/h. Estos parámetros cinéticos fueron logrados con el medio fermentativo más simple evaluado, medio compuesto por los sacarificados como fuente de carbono y como única fuente nutricional, bajo concentraciones de azúcares iniciales de 250g/L; lo que demuestra la aptitud de estos sustratos para efectos de producción etanólica.

This research exposes the fermentative medium and initial sugar concentration effect on ethanol production in batch systems, when used glucose syrups derivatives of cassava (Manihot esculenta), as a carbon source. The experimental design was factorial and analyzes the productivity of bioethanol in four different fermentation media, two of which were supplemented with cassava flour sugared. The initial sugar concentrations tested on these substrates were 250, 300 and 350 g / L. These fermentative treatments were inoculated with a commercial ethanolic variety of S. cerevisiae at a concentration of 0.05% (w / v). The process conditions included a final volume of 150 mL, incubation at 35 ° C for 48 hours , constant stirring at 150 rpm and pH between 4.0 and 4.5. The saccharified from this cassava variety showed be excellent substrate for the bioethanol production, achieving increases of 550% in terms of volumetric productivity over the control experiment, the above, allowed us to achieve final concentrations of ethanol of 14.7% v / v, yields product / substrate of 0.5 g / g, and productivities of 2.4 g / L / h. Most interesting is that these kinetic parameters were achieved with the simplest fermentation medium evaluated, the mean was compound of saccharified as a carbon source and as a sole source of nutrition, and its initial concentration of sugars was 250g / L; the above shows the ability of these substrates for ethanol production purposes.