FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2263508714> ?p ?o ?g. }

• W2263508714 endingPage "17" @default.
• W2263508714 startingPage "1" @default.
• W2263508714 abstract "Experiments were designed and conducted to simulate volatiles retention partially during a drying process by creating a thin layer feed system and drying it by hot-air at 40 and 50℃. Volatiles carriers used were maltodextrin (40 and 60%, WWB) and skim milk (40%). A mixture of volatile compounds made up of pentanol, benzaldehyde, D-limonene, was added to the carriers in the beginning at a higher concentration of 5000 ppm and in some cases three more volatiles were used, including butyl acetate, pentyl acetate and 2,5-dimethyl pyrazine, each at a concentration of 50 ppm. The volatile contents of the feed materials just before and after drying was determined by Liken-Nickerson simultaneous distillation and concentration followed by GC-MS analysis.The results showed that volatiles were seriously lost during the first 80 min at 40℃ for all three volatiles in a 40% maltodextrin feed, after that, as drying continued, D-limonene seemed to cease loss but pentanol and benzaldehyde lost continuously. The same situation was observed at 50℃ drying but with the volatiles retention lower than that of at 40℃ drying. For the 40% skim milk feed, with the exception of D-limonene (presented the highest retention), volatiles loss occurred during the slow drying process. During the whole drying trial of 40% maltodextrin, drying was maintained in the constant rate period of drying and most of the volatiles showed a great loss in this period. However, when 60% of maltodextrin was applied, no distinct volatiles loss was observed for all of the 6 volatiles, because the selective diffusion mechanism was effective at the concentration from very beginning, which is corresponding to the falling rate period of drying. It was concluded that, the selective diffusion mechanism is not completely applicable during the drying process of a thin layer feed system in terms of volatile retention." @default.
• W2263508714 created "2016-06-24" @default.
• W2263508714 creator A5067730924 @default.
• W2263508714 creator A5083630078 @default.
• W2263508714 date "2011-10-01" @default.
• W2263508714 modified "2023-09-27" @default.
• W2263508714 title "Volatiles Retention in a Thin Layer System Simulating Spray Drying" @default.
• W2263508714 cites W1537059611 @default.
• W2263508714 cites W1982367959 @default.
• W2263508714 cites W1983296099 @default.
• W2263508714 cites W1999003178 @default.
• W2263508714 cites W2026124689 @default.
• W2263508714 cites W2041409348 @default.
• W2263508714 cites W2082387313 @default.
• W2263508714 cites W2092430926 @default.
• W2263508714 cites W2130911623 @default.
• W2263508714 cites W342452972 @default.
• W2263508714 cites W642084513 @default.
• W2263508714 cites W647912732 @default.
• W2263508714 cites W2523551121 @default.
• W2263508714 doi "https://doi.org/10.6970/jtuthsm.201110.0001" @default.
• W2263508714 hasPublicationYear "2011" @default.
• W2263508714 type Work @default.
• W2263508714 sameAs 2263508714 @default.
• W2263508714 citedByCount "0" @default.
• W2263508714 crossrefType "journal-article" @default.
• W2263508714 hasAuthorship W2263508714A5067730924 @default.
• W2263508714 hasAuthorship W2263508714A5083630078 @default.
• W2263508714 hasConcept C185592680 @default.
• W2263508714 hasConcept C2776134268 @default.
• W2263508714 hasConcept C2777278459 @default.
• W2263508714 hasConcept C2777846834 @default.
• W2263508714 hasConcept C2779587474 @default.
• W2263508714 hasConcept C3020018676 @default.
• W2263508714 hasConcept C43617362 @default.
• W2263508714 hasConceptScore W2263508714C185592680 @default.
• W2263508714 hasConceptScore W2263508714C2776134268 @default.
• W2263508714 hasConceptScore W2263508714C2777278459 @default.
• W2263508714 hasConceptScore W2263508714C2777846834 @default.
• W2263508714 hasConceptScore W2263508714C2779587474 @default.
• W2263508714 hasConceptScore W2263508714C3020018676 @default.
• W2263508714 hasConceptScore W2263508714C43617362 @default.
• W2263508714 hasIssue "30" @default.
• W2263508714 hasLocation W22635087141 @default.
• W2263508714 hasOpenAccess W2263508714 @default.
• W2263508714 hasPrimaryLocation W22635087141 @default.
• W2263508714 hasRelatedWork W1523887863 @default.
• W2263508714 hasRelatedWork W1975157773 @default.
• W2263508714 hasRelatedWork W1975365523 @default.
• W2263508714 hasRelatedWork W1975539799 @default.
• W2263508714 hasRelatedWork W1980815207 @default.
• W2263508714 hasRelatedWork W1982367959 @default.
• W2263508714 hasRelatedWork W1991242259 @default.
• W2263508714 hasRelatedWork W1991595449 @default.
• W2263508714 hasRelatedWork W2036256690 @default.
• W2263508714 hasRelatedWork W2046978800 @default.
• W2263508714 hasRelatedWork W2049076795 @default.
• W2263508714 hasRelatedWork W2050827351 @default.
• W2263508714 hasRelatedWork W2053614433 @default.
• W2263508714 hasRelatedWork W2102237396 @default.
• W2263508714 hasRelatedWork W2130697581 @default.
• W2263508714 hasRelatedWork W2148067223 @default.
• W2263508714 hasRelatedWork W2160732499 @default.
• W2263508714 hasRelatedWork W2532979586 @default.
• W2263508714 hasRelatedWork W2901290220 @default.
• W2263508714 hasRelatedWork W3097427002 @default.
• W2263508714 isParatext "false" @default.
• W2263508714 isRetracted "false" @default.
• W2263508714 magId "2263508714" @default.
• W2263508714 workType "article" @default.