Effect of addition of proteins on the production of amorphous sucrose powder through spray drying

Adhikari, Benu; Howes, Tony; Bhandari, Bhesh; Langrish, T.A.G.

doi:10.1016/j.jfoodeng.2009.01.029

Cited by 165 publications

(131 citation statements)

References 16 publications

(21 reference statements)

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“…However, this process is not easy because the major components of fruit juice including organic acids and low molecular weight sugars have a low glass transition temperature, low melting point, high hygroscopicity, and high water solubility which make them sticky. As a result, during spray drying, much of the powder sticks to the chamber wall (Adhikari et al 2009a, b). Therefore, this kind of products cannot be dried without using any additive, so drying aids are used to produce fruit juice powder (Jayasundera et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Optimizing spray drying conditions of sour cherry juice based on physicochemical properties, using response surface methodology (RSM)

2017

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In this study, the effects of main spray drying conditions such as inlet air temperature (100-140°C), maltodextrin concentration (MDC: 30-60%), and aspiration rate (AR) (30-50%) on the physicochemical properties of sour cherry powder such as moisture content (MC), hygroscopicity, water solubility index (WSI), and bulk density were investigated. This investigation was carried out by employing response surface methodology and the process conditions were optimized by using this technique. The MC of the powder was negatively related to the linear effect of the MDC and inlet air temperature (IT) and directly related to the AR. Hygroscopicity of the powder was significantly influenced by the MDC. By increasing MDC in the juice, the hygroscopicity of the powder was decreased. MDC and inlet temperature had a positive effect, but the AR had a negative effect on the WSI of powder. MDC and inlet temperature negatively affected the bulk density of powder. By increasing these two variables, the bulk density of powder was decreased. The optimization procedure revealed that the following conditions resulted in a powder with the maximum solubility and minimum hygroscopicity: MDC = 60%, IT = 134°C, and AR = 30% with a desirability of 0.875.

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Section: Introductionmentioning

confidence: 99%

Optimizing spray drying conditions of sour cherry juice based on physicochemical properties, using response surface methodology (RSM)

2017

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“…Approximately 2g of formulation was transferred to sterile glass vials, under aseptic conditions using a laminar air flow. Cyclone recovery (%) was calculated using the expression [24].…”

Section: Cyclone Recoverymentioning

confidence: 99%

Encapsulation of Probiotic Bacillus coagulans for Enhanced Shelf Life

2017

J App Biol Biotech

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Probiotic strains must be able to withstand industrial manufacturing conditions and retain maximum viability and functionality during storage. Probiotic cells also have to survive the harsh mileu in the stomach and small intestine. Encapsulating probiotic cells with suitable agents helps them resist such adverse conditions and minimize the loss in viability. Four encapsulation materials were evaluated in the current study: Fructooligosaccharide (FOS), Maltodextrin (MD), Skimmed milk (SM) and Xanthan gum (XG). Cells were encapsulated using two commonly used techniques, spray drying (SD) and freeze drying (FD). Accelerated stability study on formulations was carried out as per ICH guidelines. Parameters like viability, water activity, residual moisture content, etc. were assessed to determine the shelf life. Viability losses in encapsulation by FD in the range of 4-27.5% were lower than by SD technique (the range of 19-40%). Approximately 60-80% of B. coagulans cells survived both SD and FD processing conditions, which is higher than 40-50% viability reported for Lactobacillus strains. Protective abilities of different encapsulation materials were in the order of: SM>FOS>MD>XG. Scanning electron microscopy of the encapsulated probiotics demonstrated that in the course of 90 days, surface of encapsulated particles developed some roughness, indicating their likely less stability.

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“…The microstructural aspects of the spray dried products are critically influenced by several parameters such as drying rates, composition, viscosity of the drying carrier aliquots and the atomisation process [27]. The T 4 samples containing oligofructose resulted in more aggregated particles which was due to stickiness caused by low glass transition temperatures of oilogofructose [26][27][28][29].…”

Section: Powder Propertiesmentioning

confidence: 99%

Development of Synbiotic Litchi Juice Drink and its Physiochemical, Viability and Sensory Analysis

Ks¹,

Bashir²,

Mishra³

2017

J Food Process Technol

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The study was carried out to evaluate the viability, physicochemical analysis and sensory analysis using fuzzy logic of synbiotic litchi juice drink containing probiotic L. casei 359 microencapsulated by spray drying using whey protein concentrate powder (WPCP) as wall material along with prebiotics inulin, gum acacia and oligofructose. The viable cell counts showed promising results for WPCP in combination with inulin, although, the cell count was higher than 10 6 cfu/ml for all the juice drink samples. The microcapsules showed similar morphologies with partially collapsed spherical shape with concavities but no surface fissures. There was reduction in pH for the sample containing gum acacia as prebiotic. Rheological properties showed a non-Newtonian behaviour and Herschel-Buckley model was fitted best. Fuzzy analysis showed higher acceptance for the sample containing inulin as prebiotic based on the parameters of color, taste, aroma and mouthfeel.

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Effect of addition of proteins on the production of amorphous sucrose powder through spray drying

Cited by 165 publications

References 16 publications

Optimizing spray drying conditions of sour cherry juice based on physicochemical properties, using response surface methodology (RSM)

Optimizing spray drying conditions of sour cherry juice based on physicochemical properties, using response surface methodology (RSM)

Encapsulation of Probiotic Bacillus coagulans for Enhanced Shelf Life

Development of Synbiotic Litchi Juice Drink and its Physiochemical, Viability and Sensory Analysis

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