Impact of operating conditions on a single droplet and spray drying of hydroxypropylated pea starch: Process performance and final powder properties

Gouaou, Imen; Shamaei, Samira; Koutchoukali, M.S.; Bouhelassa, Mohamed; Tsotsas, Evangelos; Kharaghani, Abdolreza

doi:10.1002/apj.2268

Cited by 23 publications

(19 citation statements)

References 63 publications

(165 reference statements)

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“…When applying temperatures above the boiling point of water, the evaporation was accelerated, the formation of a (thinner) crust took place even earlier and at larger droplet diameters, and a larger volume expansion during the inflation/deflation period led to a single big cavity [ 47 ]. The above described general temperature trends and dependencies are in line with studies on a broad selection of solutions: skimmed milk droplets on a glass filament, hydroxypropylated pea starch (HPS) on a polyamide wire, sucrose droplets on a glass filament, poly(lactide-co-glycolide) in ethyl acetate in an acoustic levitator, dextrin droplets in an acoustic levitator, and mannitol droplets on a glass filament [ 49 , 50 , 51 , 52 , 53 , 54 ].…”

Section: Physics Of Particle Formation From a Drying Dropletsupporting

confidence: 54%

“…Single droplet drying experiments are increasingly attracting the attention of the pharmaceutical sector, mostly because they have proven to be of value for the optimization of manufacturing processes such as spray drying and to accelerate process development [ 1 , 50 , 67 , 151 , 152 ]. For example, the morphology of polymer–lactose particles prepared by spray drying was nicely reproduced with the single droplet Drying Kinetics Analyzer™ (DKA) by Nuzzo et al [ 67 ].…”

Section: Pharmaceutical Applicationsmentioning

confidence: 99%

“…Both et al obtained similar particle morphologies for single droplet drying and pilot-scale spray drying of whey protein and maltodextrin solutions [ 153 ]. Gouaou et al demonstrated that optimal conditions for spray drying of HPS, used for pharmaceutical coating applications, can be determined via SDD experiments [ 50 ]. Additionally, in the food industry, single droplet drying is used to get a better understanding of the spray drying process by identifying critical phenomena during drying.…”

Section: Pharmaceutical Applicationsmentioning

confidence: 99%

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Unraveling Particle Formation: From Single Droplet Drying to Spray Drying and Electrospraying

et al. 2020

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Spray drying and electrospraying are well-established drying processes that already have proven their value in the pharmaceutical field. However, there is currently still a lack of knowledge on the fundamentals of the particle formation process, thereby hampering fast and cost-effective particle engineering. To get a better understanding of how functional particles are formed with respect to process and formulation parameters, it is indispensable to offer a comprehensive overview of critical aspects of the droplet drying and particle formation process. This review therefore closely relates single droplet drying to pharmaceutical applications. Although excellent reviews exist of the different aspects, there is, to the best of our knowledge, no single review that describes all steps that one should consider when trying to engineer a certain type of particle morphology. The findings presented in this article have strengthened the predictive value of single droplet drying for pharmaceutical drying applications like spray drying and electrospraying. Continuous follow-up of the particle formation process in single droplet drying experiments hence allows optimization of manufacturing processes and particle engineering approaches and acceleration of process development.

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Section: Physics Of Particle Formation From a Drying Dropletsupporting

confidence: 54%

Section: Pharmaceutical Applicationsmentioning

confidence: 99%

Section: Pharmaceutical Applicationsmentioning

confidence: 99%

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Unraveling Particle Formation: From Single Droplet Drying to Spray Drying and Electrospraying

et al. 2020

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“…Spray‐dried products are spherical since the drying occurs in tiny atomized droplets at very high temperature, thus resulting in rapid moisture migration and constant rate drying at the surface. [ 41 ] However, some spray‐dried powders can have a collapsed structure due to differential shrinkage rate caused by uneven drying at surface and core. [ 42 ] Therefore, the wall materials play a major role in maintaining the spherical shape of powder particles.…”

Section: Resultsmentioning

confidence: 99%

Nanoliposome Powder Containing Shrimp Oil Increases Free Flowing Behavior and Storage Stability

Gulzar

Benjakul

2020

Euro J Lipid Sci & Tech

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Shrimp oil nanoliposomes dried by freeze-drying and spray-drying are characterized, in which carboxy methyl cellulose and fumed silica (SiO 2 ) at various proportions are used as wall material and anti-caking agent. Spray-dried powder (SDP) is spherical in shape with average particle size of 5.33 ± 2.55 µm, while the freeze-dried powder (FDP) having average size of 240.8 ± 237.4 µm is irregular. SDP shows better flowability than FDP, which is more porous with much lower bulk density. Encapsulation efficiency (68.52 ± 1.85%) and solubility (85.22 ± 1.4) of SDP are greater than FDP (51.18 ± 3.81% and 71.25 ± 1.3, respectively) (p < 0.05). However, the wettability of FDP is higher with shorter reconstitution time. FDP exhibits lower oxidation of total encapsulated oil and better retention of n-3 fatty acids (p < 0.05). Overall, both FDP and SDP are thermodynamically stable and the aforementioned powders have the prolonged storage time of six weeks. Practical Applications: Oil from shrimp cephalothorax, a byproduct from shrimp processing industries, is one of the rich sources of omega-3 fatty acids and astaxanthin. Encapsulation of shrimp oil in nanoliposomes is a promising technology, which can be utilized to protect the oil against oxidation and mask the off-odors. Shrimp oil nanoliposome powder prepared using spray-drying and freeze-drying processes and added with the anticaking agents offers numerous advantages such as good flowability, better solubility, and enhanced encapsulation efficiency in addition to the improved oxidative stability and no significant loss of bioactive PUFAs. The shrimp oil nanoliposome powder could be used in the fortification of number of food products, particularly beverages. Moreover, due to the powdered form, the shelf stability is increased, handling and transportation becomes easier, and the cost is significantly reduced.

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“…Furthermore, these emulsions also exhibited significantly ( p < 0.05) larger particle sizes, with 90% of the overall particle size distribution consisting of mean particle diameters > 10 µm. The span index indicates the width distribution regardless of the median size [ 21 ]. The span index for the emulsion samples after one day of storage ranged between 1.70 and 1.98, whereas critical differences were observed after storage for 30 days, with the dispersion index increasing from 1.50 to 3.50.…”

Section: Resultsmentioning

confidence: 99%

Fabrication of Concentrated Palm Olein-Based Diacylglycerol Oil–Soybean Oil Blend Oil-In-Water Emulsion: In-Depth Study of the Rheological Properties and Storage Stability

Khor

Lim

et al. 2020

Foods

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The present study focused on investigating the storage stability of oil-in-water (O/W) emulsions with high oil volume fractions prepared with palm olein-based diacylglycerol oil (POL-DAG)/soybean oil (SBO) blends at 25 °C. The incorporation of different ratios of oil blends significantly influenced (p < 0.05) the texture, color, droplet size distribution, and rheological parameters of the emulsions. Only emulsions incorporated with 10% to 20% POL-DAG in oil phase exhibited pseudoplastic behavior that fitted the Power Law model well. Furthermore, the O/W emulsions prepared with POL-DAG/SBO blends exhibited elastic properties, with G’ higher than G”. During storage, the emulsion was found to be less solid-like with the increase in tan δ values. All emulsions produced with POL-DAG/SBO blends also showed thixotropic behavior. Optical microscopy revealed that the POL-DAG incorporation above 40% caused aggregated droplets to coalesce and flocculate and, thus, larger droplet sizes were observed. The current results demonstrated that the 20% POL-DAG substituted emulsion was more stable than the control emulsion. The valuable insights gained from this study would be able to generate a lot more possible applications using POL-DAG, which could further sustain the competitiveness of the palm oil industry.

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Impact of operating conditions on a single droplet and spray drying of hydroxypropylated pea starch: Process performance and final powder properties

Cited by 23 publications

References 63 publications

Unraveling Particle Formation: From Single Droplet Drying to Spray Drying and Electrospraying

Unraveling Particle Formation: From Single Droplet Drying to Spray Drying and Electrospraying

Nanoliposome Powder Containing Shrimp Oil Increases Free Flowing Behavior and Storage Stability

Fabrication of Concentrated Palm Olein-Based Diacylglycerol Oil–Soybean Oil Blend Oil-In-Water Emulsion: In-Depth Study of the Rheological Properties and Storage Stability

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