Gum arabic

About: Gum arabic is a research topic. Over the lifetime, 2197 publications have been published within this topic receiving 47782 citations. The topic is also known as: acacia gum.

Effect of spray drying conditions on the physicochemical properties of barberry (Berberis vulgaris) extract powder.

Abstract: Seedless barberry is one of the most popular native fruits in Iran. Conventionally, barberry fruit is dried and consumed as ornamental additive in traditional food. Barberry fruit juice contains high anthocyanins, therefore its spray dried powder can be used as good sources of anthocyanins. Maltodextrin(MD)-Arabic gum(AG) mixture, as carrier in various ratios, were added to the extract to prepare spray dried powder. The drying inlet air temperatures were 160°C and 180°C with air flow rate set to 50 m3/h. The anthocyanins content, product recovery, color, moisture content, dissolution, water activity, and density of spray-dried barberry powder were measured. The results revealed that the product recovery was about 78% when the air temperature set to 160oC and the barberry extract was supplemented with 75:25 ratio of MD:AG. The optimum amount of anthocyanins (390.46 mg/100g) in powder was achieved when the inlet air temperature was 160oC and equal proportions of MD:AG added to the feed. Powder loose and tapped bulk density increased from 0.179 to 0.310 and 0.380 to 0.570 g/cm3 respectively, as level of MD in the ratio increased from 7.5 to 15 g/100 ml. SEM micrographs of the powder indicate an increasing trend in particle size as result of increase of concentration of MD as drying aid. The data obtained in the present work may be used to prepare spray dried barberry extract in a commercial scale.

Spray-Drying of Milk-Blackberry Pulp Mixture: Effect of Carrier Agent on the Physical Properties of Powder, Water Sorption, and Glass Transition Temperature.

Abstract: Spray dryer was used to produce particles from a milk-blackberry pulp mixture (25%:75% (w/w)). Maltodextrin 10DE and 20DE and gum Arabic were used as adjuvants in order to improve powder quality. The particles were analyzed with emphasis on physical and physicochemical characteristics: moisture content, bulk density, particle size, morphology, water activity, anthocyanins retention, anthocyanins content, hygroscopicity, solubility, water sorption, and glass transition temperature. The best results were obtained for the paste composition of 25% concentrated milk-70% blackberry pulp-5% gum Arabic, yielding high anthocyanins retention (>87.5%), low powder moisture content of 0.0265 g H2 O/g dry matter and a higher powder solubility (>71.8%) when compared with other formulations. The increase of water content led to a decrease of powder's glass transition temperature. Powder stability was evaluated and the critical values of relative humidity and moisture content were estimated based on state diagrams of glass transition combined with sorption isotherm data. Practical application The growing interest in blackberries is due to the presence of anthocyanins which have shown possible application as a natural dye for food and pharmaceutical products. Drying a mixture of blackberry pulp and milk may produce particles with a broad range of intrinsic nutrients. Milk components could act as a wall material and emulsifying agent, protecting the flavonoids from blackberry. Therefore, a milk-blackberry powder becomes an alternative, which may reduce postharvesting waste and increase the shelf life of the product without significantly altering its nutritional characteristics.