Tapioca Dextrin as an Alternative Carrier in the Spray Drying of Fruit Juices—A Case Study of Chokeberry Powder

Gawałek, Jolanta; Domian, Ewa

doi:10.3390/foods9081125

Cited by 11 publications

(13 citation statements)

References 55 publications

(87 reference statements)

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“…Smaller particles occupy the voids between the larger ones which clearly led to an increase of the bulk densities. [59,60] Similar results are also reported by Tze et al [61] and Wang et al [62]…”

Section: Bulk and Tapped Densitysupporting

confidence: 86%

Functional Characteristics and Physical Properties of Spray Dried Starch Inclusion Complexes with Drugs

et al. 2021

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Starch systems containing bioactive compounds (ibuprofen, acetylsalicylic acid, paracetamol, myristic acid) are produced in a pilot plant scale spray dryer. The obtained powders are characterized in terms of their physical properties namely moisture, solubility, bulk and tapped density, suspensibility, hygroscopicity, cohesiveness, flowability, and particle size. The effect of spray drying processing parameters and storage relative humidity on the physical properties of powders is investigated. Light microscopy and Confocal Laser Scanning Microscopy (CLSM) are used to characterize the morphology of the powders and assess possible interaction of amylose with the bioactive compounds. A multiple response optimization is performed to determine the optimal physical properties for achieving the ideal powder formulation that jointly satisfy the spray drying operating conditions. Results revealed that the physical properties of powders are mainly affected by the different operating conditions employed during spray drying. All samples displayed significant differences in their physical properties. Microscopic examination showed the presence of disrupted and intact starch granules, albeit swollen. The optimal processing parameters for the production of spray dried powders with more satisfactory physical properties are obtained at high inlet temperatures. Principal component analysis (PCA) and cluster analysis (CA) showed that there are strong positive correlations among the physical properties of the powders.

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Section: Bulk and Tapped Densitysupporting

confidence: 86%

Functional Characteristics and Physical Properties of Spray Dried Starch Inclusion Complexes with Drugs

et al. 2021

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“…The results obtained here may suggest that the polyphenols have a lower thermal sensitivity compared to the violet betalain pigments. TPC retention at a similar level (>90%) was also achieved during the spray drying of chokeberry juice [10,11] and bayberry juice [44]. In the case of non-optimal spray-drying conditions, lower TPC retention values can be obtained, similar to those for blueberry juice [45] and thyme extract [46].…”

Section: Total Polyphenol Content (Tpc)supporting

confidence: 56%

“…When considering the spray drying of fruit and vegetable juices, there are technological problems that are associated with the hygroscopic and thermoplastic properties of the juices (product sticking and settling on the walls of the dryer, reduction of drying efficiency and powder stability, operational problems of the dryer) [6][7][8]. The reason for this is the content of the organic acids and low molecular weight sugars with a low glass transition temperature that are contained in the fruit and vegetable juices [9,10]. A known way to cope with these difficulties is to add drying carriers that have high molecular weight and that can effectively lower the glass transition temperature of the dried juice [11].…”

Section: Introductionmentioning

confidence: 99%

Effect of Spray Dryer Scale Size on the Properties of Dried Beetroot Juice

Gawałek

2021

Molecules

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Experiments detailing the spray drying of fruit and vegetable juices are necessary at the experimental scale in order to determine the optimum drying conditions and to select the most appropriate carriers and solution formulations for drying on the industrial scale. In this study, the spray-drying process of beetroot juice concentrate on a maltodextrin carrier was analyzed at different dryer scales: mini-laboratory (ML), semi-technical (ST), small industrial (SI), and large industrial (LI). Selected physicochemical properties of the beetroot powders that were obtained (size and microstructure of the powder particles, loose and tapped bulk density, powder flowability, moisture, water activity, violet betalain, and polyphenol content) and their drying efficiencies were determined. Spray drying with the same process parameters but at a larger scale makes it possible to obtain beetroot powders with a larger particle size, better flowability, a color that is more shifted towards red and blue, and a higher retention of violet betalain pigments and polyphenols. As the size of the spray dryer increases, the efficiency of the process expressed in powder yield also increases. To obtain a drying efficiency >90% on an industrial scale, process conditions should be selected to obtain an efficiency of a min. of 50% at the laboratory scale or 80% at the semi-technical scale. Designing the industrial process for spray dryers with a centrifugal atomization system is definitely more effective at the semi-technical scale with the same atomization system than it is at laboratory scale with a two-fluid nozzle.

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Section: Introductionmentioning

confidence: 99%

“…Spray drying is a popular method for this purpose [ 7 , 8 , 9 , 10 , 11 ]; it minimizes losses of bioactive properties in dried plant products compared to other convection drying methods [ 11 ]. Previously, several researchers studied spray drying of chokeberry juice and extracts with various carriers [ 8 , 9 , 12 , 13 , 14 , 15 , 16 , 17 , 18 ]. In the case of spray drying chokeberry juice, Bednarska and Janiszewska-Turak [ 12 ], using maltodextrin, gum arabic and their mixtures as carriers, achieved a retention of bioactive compounds in the range of 47.5–97.5, while Gawałek et al, using dextrin [ 8 ] and maltodextrin [ 8 , 9 ] carriers, achieved higher retention values (71.3–97.9%).…”

Section: Introductionmentioning

confidence: 99%

Spray Drying of Chokeberry Juice—Antioxidant Phytochemicals Retention in the Obtained Powders versus Energy Consumption of the Process

Gawałek

2022

Foods

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The production of chokeberry powder, an important functional additive in food, should exhibit both maximization of bioactive properties retention and minimization of energy consumption. The process of spray drying chokeberry juice on a maltodextrin carrier was tested on a semi-technical scale. The research scope included the variability of the inlet air temperature in the range of T = 150–185 °C and concentration of the feed solution in the range of Ud.m = 15–45% d.m. The powder yield, energy consumption and bioactive properties of the obtained powders were determined. The highest levels of bioactive properties retention were expressed in total polyphenol content (TPC) and anthocyanin content (AC) and obtained at T = 150 °C and Ud.m = 25–30% d.m. However, the most advantageous process parameters in terms of specific energy consumption (SEC) minimization were T = 160–170 °C and Ud.m = 30–35% d.m. Analysis of the dependence on SEC versus TPC and SEC versus AC showed that the most favorable drying parameters for chokeberry juice were as follows: inlet air temperature T = 170 °C and feed solution concentration Ud.m = 35%. Hence, under such process conditions, chokeberry powders were produced with approx. 3% lower bioactive properties retention (in relation to the maximum values), but with 20.5% lower SEC.

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Tapioca Dextrin as an Alternative Carrier in the Spray Drying of Fruit Juices—A Case Study of Chokeberry Powder

Cited by 11 publications

References 55 publications

Functional Characteristics and Physical Properties of Spray Dried Starch Inclusion Complexes with Drugs

Functional Characteristics and Physical Properties of Spray Dried Starch Inclusion Complexes with Drugs

Effect of Spray Dryer Scale Size on the Properties of Dried Beetroot Juice

Spray Drying of Chokeberry Juice—Antioxidant Phytochemicals Retention in the Obtained Powders versus Energy Consumption of the Process

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