SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2890360503> ?p ?o ?g. }

Showing items 1 to 100 of ±118 with 100 items per page.

W2890360503 endingPage "2316" @default.
W2890360503 startingPage "2305" @default.
W2890360503 abstract "Abstract The aim of the study was to characterize physical and chemical composition of four highbush blueberry cultivars (“Bluecrop,” “Late Blue,” “Chandler,” and “Elliot”). The assessment of ultrasound influence at the osmotic dehydration step and during hybrid drying on mass transfer and the nutritional quality of all cultivars was also done. The experiment consisted of two stages: (1) initial: optimization of osmotic dehydration procedure, (2) the main experiment including all stages of dried blueberry production (pretreatment, osmotic dehydration chosen in the initial stage, and drying). In both parts, the effect of US and cultivar were considered as factors influencing the most important quality indices. The osmotic dehydration, in the mixture (1:1) of sucrose solution and apple juice concentrate (65°Bx) at a fruit to syrup ratio 1:4, was carried out in water bath fitted with ultrasonic transducers (25 kHz, 27.8 W/L) at a temperature of 40°C for 150 min. After pretreatment osmo‐dehydrated fruits were subjected to drying in hybrid (microwave‐ultrasound‐convective) drum dryer. Regardless of the cultivar US had positive influence on mass transfer (up to 22% for intact and 12% for mechanically scratched) at the osmotic dehydration stage. Unfavorably, its action tend to decrease phenolic compounds content. The final effect, however, was strongly influenced by the choice of cultivar. With regard to ultrasound applied at the drying step, no explicit effect, either on the drying process efficiency or on final product quality, was identified. In the same processing conditions “Elliot” turned out to be the most promising to produce ready‐to‐eat fruit snacks in terms of the final product stability and bioactives content. Practical Application Hybrid drying was proposed as a novel approach in blueberry drying. Ultrasound application as a part of abovementioned drying technique is considered an efficient way of shortening drying time due to mass transfer intensification and the interaction with dehydrated tissue. However, no experiments studying the impact of ultrasound on various cultivars within one species were carried out. This study contributes to the understanding that appropriate cultivar selection in the production of ready‐to‐eat dried blueberry fruit is just as important as process parameters in obtaining an attractive product with a high level of natural bioactive compounds." @default.
W2890360503 created "2018-09-27" @default.
W2890360503 creator A5005788797 @default.
W2890360503 creator A5011737554 @default.
W2890360503 creator A5056543059 @default.
W2890360503 creator A5075593827 @default.
W2890360503 date "2018-09-01" @default.
W2890360503 modified "2023-09-25" @default.
W2890360503 title "The Influence of Ultrasound and Cultivar Selection on the Biocompounds and Physicochemical Characteristics of Dried Blueberry (<i>Vaccinium corymbosum</i> L.) Snacks" @default.
W2890360503 cites W1874298169 @default.
W2890360503 cites W1963688472 @default.
W2890360503 cites W1967197847 @default.
W2890360503 cites W1968995594 @default.
W2890360503 cites W1978490111 @default.
W2890360503 cites W1981220921 @default.
W2890360503 cites W1984990091 @default.
W2890360503 cites W1987152320 @default.
W2890360503 cites W1989031906 @default.
W2890360503 cites W1990382603 @default.
W2890360503 cites W1992724798 @default.
W2890360503 cites W1993457363 @default.
W2890360503 cites W1996795299 @default.
W2890360503 cites W2000460156 @default.
W2890360503 cites W2000743239 @default.
W2890360503 cites W2011425862 @default.
W2890360503 cites W2012991711 @default.
W2890360503 cites W2018037164 @default.
W2890360503 cites W2018890366 @default.
W2890360503 cites W2026506110 @default.
W2890360503 cites W2030156012 @default.
W2890360503 cites W2030272035 @default.
W2890360503 cites W2034084166 @default.
W2890360503 cites W2034555272 @default.
W2890360503 cites W2036781510 @default.
W2890360503 cites W2050572646 @default.
W2890360503 cites W2058673441 @default.
W2890360503 cites W2066486865 @default.
W2890360503 cites W2069801831 @default.
W2890360503 cites W2071083570 @default.
W2890360503 cites W2079638912 @default.
W2890360503 cites W2080788946 @default.
W2890360503 cites W2084229951 @default.
W2890360503 cites W2087764707 @default.
W2890360503 cites W2089403646 @default.
W2890360503 cites W2120819514 @default.
W2890360503 cites W2132536440 @default.
W2890360503 cites W2140749533 @default.
W2890360503 cites W2166247304 @default.
W2890360503 cites W2290118833 @default.
W2890360503 cites W2311266268 @default.
W2890360503 cites W2410491314 @default.
W2890360503 cites W2424991627 @default.
W2890360503 cites W2507994712 @default.
W2890360503 cites W2509191900 @default.
W2890360503 cites W2515826110 @default.
W2890360503 cites W2558660738 @default.
W2890360503 doi "https://doi.org/10.1111/1750-3841.14292" @default.
W2890360503 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30199106" @default.
W2890360503 hasPublicationYear "2018" @default.
W2890360503 type Work @default.
W2890360503 sameAs 2890360503 @default.
W2890360503 citedByCount "8" @default.
W2890360503 countsByYear W28903605032020 @default.
W2890360503 countsByYear W28903605032021 @default.
W2890360503 countsByYear W28903605032022 @default.
W2890360503 countsByYear W28903605032023 @default.
W2890360503 crossrefType "journal-article" @default.
W2890360503 hasAuthorship W2890360503A5005788797 @default.
W2890360503 hasAuthorship W2890360503A5011737554 @default.
W2890360503 hasAuthorship W2890360503A5056543059 @default.
W2890360503 hasAuthorship W2890360503A5075593827 @default.
W2890360503 hasConcept C144027150 @default.
W2890360503 hasConcept C185592680 @default.
W2890360503 hasConcept C197321923 @default.
W2890360503 hasConcept C2776762870 @default.
W2890360503 hasConcept C2777977896 @default.
W2890360503 hasConcept C2778597767 @default.
W2890360503 hasConcept C2778769901 @default.
W2890360503 hasConcept C31903555 @default.
W2890360503 hasConcept C43617362 @default.
W2890360503 hasConcept C51038369 @default.
W2890360503 hasConcept C55493867 @default.
W2890360503 hasConcept C86803240 @default.
W2890360503 hasConceptScore W2890360503C144027150 @default.
W2890360503 hasConceptScore W2890360503C185592680 @default.
W2890360503 hasConceptScore W2890360503C197321923 @default.
W2890360503 hasConceptScore W2890360503C2776762870 @default.
W2890360503 hasConceptScore W2890360503C2777977896 @default.
W2890360503 hasConceptScore W2890360503C2778597767 @default.
W2890360503 hasConceptScore W2890360503C2778769901 @default.
W2890360503 hasConceptScore W2890360503C31903555 @default.
W2890360503 hasConceptScore W2890360503C43617362 @default.
W2890360503 hasConceptScore W2890360503C51038369 @default.
W2890360503 hasConceptScore W2890360503C55493867 @default.
W2890360503 hasConceptScore W2890360503C86803240 @default.
W2890360503 hasFunder F4320335039 @default.
W2890360503 hasIssue "9" @default.
W2890360503 hasLocation W28903605031 @default.