Your search keyword '"powder recovery"' showing total 10 results

1. Is it Possible to Produce Carrier-Free Fruit and Vegetable Powders by Spray Drying?

Author

Alicja Barańska, Aleksandra Jedlińska, and Katarzyna Samborska

Subjects

dehumidified air, powder recovery, clean label, glass transition, stickiness, Nutrition. Foods and food supply, TX341-641

Abstract

The application of low-temperature, dehumidified air-assisted spray drying was evaluated as a method to produce carrier-free powders of selected sugar-rich and acid-rich food materials: blackcurrant juice concentrate, mango puree, purple carrot juice concentrate, sauerkraut juice, kiwiberry pulp, and tomato pulp. As a consequence of decreased drying air humidity, inlet/outlet air temperature was lowered to 80/55°C. In order to validate this new approach, the conventional spray drying was conducted as well at 180/80°C inlet/outlet air temperature. The powder recovery, physical properties and color parameters of powders were determined. For blackcurrant juice concentrate, mango puree, purple carrot juice concentrate and sauerkraut juice it was possible to obtain carrier-free powders only by low-temperature drying, while for kiwiberry pulp and tomato pulp both variants of spray drying were effective. Decreased drying temperature positively influenced some properties of powders; i.e. , median particle size diameter and hygroscopicity of the powders obtained by spray drying with dehumidified air were lower compared to those of the powders dried by conventional spray drying. Carrier-free powders of some raw materials (blackcurrant juice concentrate, mango puree, purple carrot juice concentrate, sauerkraut juice) were spray dried solely with dehumidified air, underlining its importance in the production of "clean label" products.

Published

2023

2. Is it Possible to Produce Carrier-Free Fruit and Vegetable Powders by Spray Drying?

Author

Barańska, Alicja, Jedlińska, Aleksandra, and Samborska, Katarzyna

Subjects

*SPRAY drying, *MANGO, *POWDERS, *FRUIT, *VEGETABLES, *RAW materials

Abstract

The application of low-temperature, dehumidified air-assisted spray drying was evaluated as a method to produce carrierfree powders of selected sugar-rich and acid-rich food materials: blackcurrant juice concentrate, mango puree, purple carrot juice concentrate, sauerkraut juice, kiwiberry pulp, and tomato pulp. As a consequence of decreased drying air humidity, inlet/outlet air temperature was lowered to 80/55°C. In order to validate this new approach, the conventional spray drying was conducted as well at 180/80°C inlet/outlet air temperature. The powder recovery, physical properties and color parameters of powders were determined. For blackcurrant juice concentrate, mango puree, purple carrot juice concentrate and sauerkraut juice it was possible to obtain carrier-free powders only by low-temperature drying, while for kiwiberry pulp and tomato pulp both variants of spray drying were effective. Decreased drying temperature positively influenced some properties of powders; i.e., median particle size diameter and hygroscopicity of the powders obtained by spray drying with dehumidified air were lower compared to those of the powders dried by conventional spray drying. Carrier-free powders of some raw materials (blackcurrant juice concentrate, mango puree, purple carrot juice concentrate, sauerkraut juice) were spray dried solely with dehumidified air, underlining its importance in the production of "clean label" products. [ABSTRACT FROM AUTHOR]

Published

2023

3. Dehumidified Air-Assisted Spray-Drying of Cloudy Beetroot Juice at Low Temperature.

Author

Jedlińska, Aleksandra, Barańska, Alicja, Witrowa-Rajchert, Dorota, Ostrowska-Ligęza, Ewa, and Samborska, Katarzyna

Subjects

BEETS, MALTODEXTRIN, SPRAY drying, LOW temperatures, BETALAINS, ATMOSPHERIC temperature

Abstract

This paper discusses the physicochemical properties of powders obtained by spray drying of cloudy beetroot juice, using dehumidified air in variants with or without carriers. The inlet air temperature was 130 °C or 90 °C, and the addition of the carriers was at a ratio of juice to carrier solids of 3:2. In the obtained powders, the following physicochemical properties were determined: water content and water activity, apparent density, loose and tapped density, porosity, flowability, particle size and morphology, and the content and retention of betalains. It was possible to dry cloudy beetroot juice without the use of carriers at low temperatures (90 or 130 °C). The 100% beetroot powders were characterized by satisfactory physicochemical properties, often better than those with carriers (including lower hygroscopicity and higher color saturation and yield). A lower loss of betalains was found for the powders with the addition of carriers. The best process yields were obtained for the powder without carriers at 130 °C and 90 °C. [ABSTRACT FROM AUTHOR]

Published

2021

4. Reformulation of spray‐dried apple concentrate and honey for the enhancement of drying process performance and the physicochemical properties of powders.

Author

Samborska, Katarzyna, Barańska, Alicja, Szulc, Karolina, Jankowska, Ewa, Truszkowska, Marzena, Ostrowska‐Ligęza, Ewa, Wołosiak, Rafał, Szymańska, Ewelina, and Jedlińska, Aleksandra

Subjects

*SKIM milk, *MALTODEXTRIN, *GLASS transition temperature, *HONEY, *POWDERS, *DRIED milk, *NUTRITIONAL value

Abstract

BACKGROUND Apple concentrate and honey were spray‐dried with traditional carriers (maltodextrin, Nutriose®, Kleptose®) and with skimmed milk powder as a carrier substitute offering added value for the final product. RESULTS: Skimmed milk powder, although having the lowest glass transition temperature, was the best carrier in terms of the highest powder recovery (higher than 80% was achieved) and with powder physical properties comparable to those obtained with other carriers. Thus, skimmed milk powder was used to produce honey powder of reduced carrier content (to 25% solids). The physical properties of the powders obtained and lower powder recovery indicated more problematic drying of AC. Powders produced with skimmed milk were characterized by enhanced nutritional value compared with variants with traditional carriers. CONCLUSION: Thus, skimmed milk is proposed as a natural carrier for spray‐drying, offering high processing yield, the possibility to reduce carrier content in honey powder, and to create products of nutritional added value. © 2020 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2020

5. Dehumidified Air-Assisted Spray-Drying of Cloudy Beetroot Juice at Low Temperature

Author

Aleksandra Jedlińska, Alicja Barańska, Dorota Witrowa-Rajchert, Ewa Ostrowska-Ligęza, and Katarzyna Samborska

Subjects

spray-drying, dehumidified air, glass transition, powder recovery, betalains, beetroot, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This paper discusses the physicochemical properties of powders obtained by spray drying of cloudy beetroot juice, using dehumidified air in variants with or without carriers. The inlet air temperature was 130 °C or 90 °C, and the addition of the carriers was at a ratio of juice to carrier solids of 3:2. In the obtained powders, the following physicochemical properties were determined: water content and water activity, apparent density, loose and tapped density, porosity, flowability, particle size and morphology, and the content and retention of betalains. It was possible to dry cloudy beetroot juice without the use of carriers at low temperatures (90 or 130 °C). The 100% beetroot powders were characterized by satisfactory physicochemical properties, often better than those with carriers (including lower hygroscopicity and higher color saturation and yield). A lower loss of betalains was found for the powders with the addition of carriers. The best process yields were obtained for the powder without carriers at 130 °C and 90 °C.

Published

2021

6. Development and characterization of physical properties of honey-rich powder.

Author

Samborska, Katarzyna, Wiktor, Artur, Jedlińska, Aleksandra, Matwijczuk, Arkadiusz, Jamróz, Wojciech, Skwarczyńska-Maj, Krystyna, Kiełczewski, Dariusz, Tułodziecki, Martín, Błażowski, Łukasz, and Witrowa-Rajchert, Dorota

Subjects

*SPRAY drying, *POWDERS, *DRYING agents, *EVAPORATIVE power, *SOLUTION (Chemistry), *DEXTRINS

Abstract

The aim of the work was to obtain and characterize powdered honey containing substantially higher amount of honey than was reported in literature before. For this purpose, dehumidified air was applied as a drying medium during spray drying at low temperature (inlet/outlet air temperature: 75/50 °C). This method gave the possibility to reduce carrier content in the final product. Apart from maltodextrin, used traditionally as drying carrier, NUTRIOSE characterized by prebiotic properties was also tested, to produce added-value honey powder. Drying parameters were adjusted compared to traditional high temperature spray drying to perform the process at high drying rate and yield (powder recovery). By using dehumidified air as the drying agent honey powders containing 80% of honey solids were obtained, with a yield above 80%. Both these values were higher than noted ever before in the case of honey spray drying. The physical properties of powders were typical for spray dried materials, although increased honey content resulted in increased hygroscopicity. Even though NUTRIOSE has a higher potential as a health promoting ingredient, compared to maltodextrin, it had lower potential as a drying carrier (powders had higher water activity and hygroscopicity). [ABSTRACT FROM AUTHOR]

Published

2019

7. Dehumidified Air-Assisted Spray-Drying of Cloudy Beetroot Juice at Low Temperature

Author

Katarzyna Samborska, Aleksandra Jedlińska, Ewa Ostrowska-Ligęza, Alicja Barańska, and Dorota Witrowa-Rajchert

Subjects

0106 biological sciences, Technology, QH301-705.5, QC1-999, Beetroot Juice, 01 natural sciences, 0404 agricultural biotechnology, 010608 biotechnology, General Materials Science, glass transition, Food science, spray-drying, Biology (General), Instrumentation, QD1-999, Fluid Flow and Transfer Processes, Chemistry, dehumidified air, Process Chemistry and Technology, Physics, General Engineering, 04 agricultural and veterinary sciences, Engineering (General). Civil engineering (General), 040401 food science, Computer Science Applications, powder recovery, Spray drying, betalains, beetroot, TA1-2040

Abstract

This paper discusses the physicochemical properties of powders obtained by spray drying of cloudy beetroot juice, using dehumidified air in variants with or without carriers. The inlet air temperature was 130 °C or 90 °C, and the addition of the carriers was at a ratio of juice to carrier solids of 3:2. In the obtained powders, the following physicochemical properties were determined: water content and water activity, apparent density, loose and tapped density, porosity, flowability, particle size and morphology, and the content and retention of betalains. It was possible to dry cloudy beetroot juice without the use of carriers at low temperatures (90 or 130 °C). The 100% beetroot powders were characterized by satisfactory physicochemical properties, often better than those with carriers (including lower hygroscopicity and higher color saturation and yield). A lower loss of betalains was found for the powders with the addition of carriers. The best process yields were obtained for the powder without carriers at 130 °C and 90 °C.

Published

2021

8. A glass transition temperature approach for the prediction of the surface stickiness of a drying droplet during spray drying

Author

Adhikari, B., Howes, T., Lecomte, D., and Bhandari, B.R.

Subjects

*GLASS transition temperature, *SPRAY drying, *THERMOPHYSICAL properties, *PHASE transitions

Abstract

Abstract: The development of surface stickiness of droplets of sugar and acid-rich foods during spray drying can be explained using the notion of glass transition temperature (T g). In this work, criteria for a safe drying regime have been developed and their physical basis provided. A dimensionless time (ψ) is introduced as an indicator of spray dryability and it is correlated with the recovery of powders in practical spray drying. Droplets with initial diameters of 120 μm were subjected to simulated spray drying conditions and their safe drying regime and ψ values generated. The model predicted the recovery in a pilot scale spray dryer reasonably well. [Copyright &y& Elsevier]

Published

2005

9. Determination of production efficiency, color, glass transition, and sticky point temperature of spray-dried pomegranate juice powder

Author

Pradyuman Kumar, Sajad Ahmad Wani, Bijamwar Vilas Dinkarrao, and Khalid Muzaffar

Subjects

Lightness, sticky point temperature, Spray dryer, maltodextrin, lcsh:Agriculture, chemistry.chemical_compound, 0404 agricultural biotechnology, glass transition temperature, Food science, Spray dried, Chromatography, lcsh:TP368-456, Chemistry, lcsh:S, 04 agricultural and veterinary sciences, Production efficiency, Maltodextrin, 040401 food science, Agricultural and Biological Sciences (miscellaneous), lcsh:Food processing and manufacture, powder recovery, pomegranate juice powder, Spray drying, Glass transition, Color glass, Food Science

Abstract

The aim of the study was to determine the powder recovery, color characteristics, glass transition temperature (Tg), and sticky point (Ts) temperature of spray-dried pomegranate juice powder as affected by different concentrations of maltodextrin (DE 20). Five different combinations of pomegranate juice and maltodextrin (95:5, 90:10, 85:15, 80:20 and 75:25 v/w) were prepared and spray dried in a laboratory-type spray dryer. Increase in concentration of maltodextrin significantly increased the powder recovery and 20% of maltodextrin was required for successful spray drying of pomegranate juice (powder recovery > 50%). Color values of pomegranate juice powder were significantly influenced by concentration of maltodextrin. With increase in concentration of maltodextrin powder, lightness (L* value) increased from 45.54 to 74.46, a* value decreased from 20.43 to 11.45 and b* value decreased from 2.16 to −3.83. Results showed that with increase in maltodextrin concentration from 5% to 25%, Tg increased from 38.23°C to 71.61°C. Sticky point temperature also showed an increase from 56.86 to 89.43°C with increase in concentration of maltodextrin.

Published

2016

10. A glass transition temperature approach for the prediction of the surface stickiness of a drying droplet during spray drying

Author

Tony Howes, Didier Lecomte, Bhesh Bhandari, Benu Adhikari, Centre de recherche d'Albi en génie des procédés des solides divisés, de l'énergie et de l'environnement (RAPSODEE), Centre National de la Recherche Scientifique (CNRS)-IMT École nationale supérieure des Mines d'Albi-Carmaux (IMT Mines Albi), and Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)

Subjects

0106 biological sciences, Powder recovery, Work (thermodynamics), Materials science, General Chemical Engineering, Spray dryer, Thermal diffusivity, 01 natural sciences, chemistry.chemical_compound, [SPI]Engineering Sciences [physics], 0404 agricultural biotechnology, 010608 biotechnology, parasitic diseases, Stickiness, Composite material, Chromatography, Spray drying, Pilot scale, 04 agricultural and veterinary sciences, Maltodextrin, 040401 food science, chemistry, Safe drying regime, Glass transition, Dimensionless quantity

Abstract

The development of surface stickiness of droplets of sugar and acid-rich foods during spray drying can be explained using the notion of glass transition temperature (T-g). In this work, criteria for a safe drying regime have been developed and their physical basis provided. A dimensionless time (psi) is introduced as an indicator of spray dryability and it is correlated with the recovery of powders in practical spray drying. Droplets with initial diameters of 120 mum were subjected to simulated spray drying conditions and their safe drying regime and 41 values generated. The model predicted the recovery in a pilot scale spray dryer reasonably well. (C) 2004 Elsevier B.V. All rights reserved.

Published

2005