Dried Figs Quality Improvement and Process Energy Savings by Combinatory Application of Osmotic Pretreatment and Conventional Air Drying

Andreou, Varvara; Thanou, Ioanna; Giannoglou, Marianna; Giannakourou, Maria C.; Katsaros, George

doi:10.3390/foods10081846

Cited by 8 publications

(10 citation statements)

References 45 publications

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“…Techniques that affect cell structure and improve water loss can greatly enhance energy saving and reduce drying times. Osmotic dehydration 17 and ultrasonication 18 for example, are often used prior to drying since they effectively allow moisture loss via differentiation in solute concentration, or increased cell membrane porosity respectively. While retention of color, texture and nutritional value was observed in figs pre‐treated with these techniques, we would argue, that some loss of water‐soluble bioactive compounds is inevitable 19 .…”

Section: Valorization Of Fig Biomass: Drying and Fractionization Tech...mentioning

confidence: 99%

Can unexploited biomass of Ficus carica L. be valorized as a bio‐based material for the development of functional food formulations?

Manousi,

Mikroulis,

Mourtzinos

2023

JSFA Reports

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Figs are a valuable source of nutrients including polyphenols, dietary fiber, and minerals. Cultivation and consumption of figs generates a considerable amount of by‐products and waste which are also nutrient‐rich. Fig unexploited mass can efficiently be valorized in the frame of circular bioeconomy for the development of functional foods, food supplements, cosmetics, and pharmaceuticals. Herein, we provide a thorough assessment of the chemical composition of figs towards the potential utilization of unexploited fig biomass for the generation of bio‐based materials. Conventional and novel processes such as drying and extraction leading to the isolation of targeted ingredients are critically discussed.This article is protected by copyright. All rights reserved.

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Section: Valorization Of Fig Biomass: Drying and Fractionization Tech...mentioning

confidence: 99%

Can unexploited biomass of Ficus carica L. be valorized as a bio‐based material for the development of functional food formulations?

Manousi,

Mikroulis,

Mourtzinos

2023

JSFA Reports

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“…The total carbohydrates content was determined for all studied sauces using a modified protocol of the Debois assay [29] and was expressed as g lactose/100 g d.w. Individual sugars (fructose, glucose, lactose and glycerol) and organic acids (citric, mallic, tartaric and lactic) were determined by using the high performance liquid chromatography (HPLC) method as described by Andreou, Giannoglou, Thanou, Giannakourou and Katsaros [30]. Analysis of sugars and organic acids was carried out using a Repromer H column (300 mm, 7.8 mm; particle size: 9 µm) with a flow of 0.5 mL/min at 50 • C. Twenty (20) µL of the extracts were injected into the HPLC system.…”

Section: Nutritional Compoundsmentioning

confidence: 99%

Incorporation of Acid Whey Yogurt By-Product in Novel Sauces Formulation: Quality and Shelf-Life Evaluation

Andreou¹,

Chanioti²,

Xanthou³

et al. 2022

Sustainability

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This study aimed to develop high quality, added value novel sauces with acid whey (AW) (liquid or powder) incorporation. Liquid pasteurized AW was substituted (partly 10%—totally 100%) for the water added in the tomato sauces. AW in powder, was partly substituted for the fat in white sauces and compared to conventional ones. Physicochemical (pH, Brix, viscosity, color), nutritional (proteins, lactose, minerals), microbiological and sensory evaluations were conducted for both developed sauces. Accelerated shelf-life tests were performed. Based on the quality and sensory characteristics deterioration, the optimal water substitution by AW was 70% w/w for tomato sauces and 10% w/w (AW in powder) for white sauces, without limiting their shelf life compared to the control ones for both cases. Both AW-substituted sauces were of high quality and of higher nutrients content compared to conventional products, improving their health promoting profile (tomato sauces: up to 3-fold increase; white sauces: up to 5-fold increase in calcium content; increase in essential amino acids content in both sauces due to AW addition).

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“…Based on this, an immersion time of 10 min was defined and used to carry out all subsequent tests, corresponding to the application of OD as pretreatment of convective drying. In the state of the art immersion times of 1, 1.5, 2, 4, 5, 12, 16, 24, and up to 48 h were found [1,31,39,[41][42][43][44][45]. To reach equilibrium, long periods of time are generally needed.…”

Section: Determination Of the Optimal Immersion Timementioning

confidence: 99%

Assessment of Parameters to Apply Osmotic Dehydration as Pretreatment for Improving the Efficiency of Convective Drying of Cassava Bagasse

et al. 2022

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This manuscript corresponds to exploratory research carried out to evaluate and define the operating parameters for applying osmotic dehydration (OD) as pretreatment for efficiency improvement in the convective drying of cassava bagasse, providing a methodology to apply these combined techniques, not only for cassava bagasse but also to serve as a reference for its use in other high-moisture agro-industrial residues. Operating factors significant for moisture loss during OD were determined through sieving analysis. Adequate levels and operating conditions were determined for OD and subsequent drying (osmotic agent concentration, solution-to-sample ratio, agitation speed, immersion time, required draining mesh, draining time, drying temperature, and drying air speed). It was established that an osmotic treatment was able to reduce the moisture of cassava bagasse from 87.7% to 28.94% and subsequent drying time by approximately 38.8%. These results allow the use of these combined techniques for drying cassava bagasse, which in turn, open a research agenda for its application in other agro-industrial residues, contributing to its handling, revaluation, and development of a sustainable agro-industry.

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Dried Figs Quality Improvement and Process Energy Savings by Combinatory Application of Osmotic Pretreatment and Conventional Air Drying

Cited by 8 publications

References 45 publications

Can unexploited biomass of Ficus carica L. be valorized as a bio‐based material for the development of functional food formulations?

Can unexploited biomass of Ficus carica L. be valorized as a bio‐based material for the development of functional food formulations?

Incorporation of Acid Whey Yogurt By-Product in Novel Sauces Formulation: Quality and Shelf-Life Evaluation

Assessment of Parameters to Apply Osmotic Dehydration as Pretreatment for Improving the Efficiency of Convective Drying of Cassava Bagasse

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