FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016169626> ?p ?o ?g. }

• W2016169626 endingPage "498" @default.
• W2016169626 startingPage "488" @default.
• W2016169626 abstract "Diesel engines equipped with Diesel Particulate Filters (DPF) suffer from the carry-over of fuel into the engine oil that causes oil dilution. Oil dilution can lead to a decreased oil performance and oil durability. Diesel fuel slowly evaporates out of the engine oil, and does not remain in the oil pan. Compared to diesel fuel, biodiesel remains nearly completely in the engine oil, and leads to a constant engine oil dilution. Furthermore, biodiesel is able to react with the engine oil that can lead to formation of oil sludge, which can result in severe engine damage. The common strategy, which solves those problems, is the reduction of the oil drain interval that leads to increased engine oil consumption. We introduce a method to remove biodiesel from the engine oil by use of an entrainer in order to extend the oil drain interval. Fourteen blends of biodiesel, engine oil and entrainer were distilled, and the distillate was analyzed by gas chromatography and mass spectroscopy for quantitative amount of biodiesel. The influence of polar hydroxyl groups, the dipole moment and the chemical structure of fourteen entrainers to the drag-out of biodiesel were compared. In addition, we analyzed the activity coefficient of the entrainers used with biodiesel, and its influence of the amount of removed biodiesel as well as we determined the present interactions between entrainer and biodiesel. Furthermore, the measured activity coefficients were simulated by a quantum chemical method to compare the experimental results for consistence and analyze the possibility to predict the interaction of entrainer and biodiesel. The results show the drag-out of biodiesel from the engine oil at temperatures of 160 °C and 180 °C by use of polyols and acids. Mono- and bivalent alcohols yield no drag-out. The number of the hydroxyl groups or the dipole moment of the entrainer does not correlate with removed biodiesel. Acids showed the highest ability for the drag-out of biodiesel (2.3% (m/m) in total for formic acid) and showed the strongest interaction with biodiesel (for formic acid). According to the results, this strong interaction is mainly formed by hydrogen bonds. Furthermore, biodiesel turns out to be a good hydrogen bond acceptor and can be removed by substances that are hydrogen bond donators (e.g. acids, polyols)." @default.
• W2016169626 created "2016-06-24" @default.
• W2016169626 creator A5005797993 @default.
• W2016169626 creator A5015473438 @default.
• W2016169626 creator A5038896782 @default.
• W2016169626 creator A5046991447 @default.
• W2016169626 creator A5056633853 @default.
• W2016169626 creator A5067526774 @default.
• W2016169626 date "2014-01-01" @default.
• W2016169626 modified "2023-09-23" @default.
• W2016169626 title "Influences of entrainers to engine oil to improve the drag-out of biodiesel – Experiments and simulations" @default.
• W2016169626 cites W1519510175 @default.
• W2016169626 cites W1539004388 @default.
• W2016169626 cites W1624323428 @default.
• W2016169626 cites W1739810373 @default.
• W2016169626 cites W1976905710 @default.
• W2016169626 cites W1976911877 @default.
• W2016169626 cites W1979134762 @default.
• W2016169626 cites W1979175923 @default.
• W2016169626 cites W1984652596 @default.
• W2016169626 cites W1986086468 @default.
• W2016169626 cites W1990936911 @default.
• W2016169626 cites W1996628100 @default.
• W2016169626 cites W1999290754 @default.
• W2016169626 cites W2034655779 @default.
• W2016169626 cites W2094839793 @default.
• W2016169626 cites W2131276305 @default.
• W2016169626 cites W2146798438 @default.
• W2016169626 cites W2162235098 @default.
• W2016169626 cites W2272511906 @default.
• W2016169626 cites W2322957206 @default.
• W2016169626 cites W2495739329 @default.
• W2016169626 cites W3047502137 @default.
• W2016169626 cites W4233721830 @default.
• W2016169626 doi "https://doi.org/10.1016/j.fuel.2013.09.039" @default.
• W2016169626 hasPublicationYear "2014" @default.
• W2016169626 type Work @default.
• W2016169626 sameAs 2016169626 @default.
• W2016169626 citedByCount "4" @default.
• W2016169626 countsByYear W20161696262015 @default.
• W2016169626 countsByYear W20161696262017 @default.
• W2016169626 crossrefType "journal-article" @default.
• W2016169626 hasAuthorship W2016169626A5005797993 @default.
• W2016169626 hasAuthorship W2016169626A5015473438 @default.
• W2016169626 hasAuthorship W2016169626A5038896782 @default.
• W2016169626 hasAuthorship W2016169626A5046991447 @default.
• W2016169626 hasAuthorship W2016169626A5056633853 @default.
• W2016169626 hasAuthorship W2016169626A5067526774 @default.
• W2016169626 hasConcept C121332964 @default.
• W2016169626 hasConcept C127413603 @default.
• W2016169626 hasConcept C138171918 @default.
• W2016169626 hasConcept C161790260 @default.
• W2016169626 hasConcept C171146098 @default.
• W2016169626 hasConcept C178790620 @default.
• W2016169626 hasConcept C185592680 @default.
• W2016169626 hasConcept C192562407 @default.
• W2016169626 hasConcept C2779096019 @default.
• W2016169626 hasConcept C2780804531 @default.
• W2016169626 hasConcept C39432304 @default.
• W2016169626 hasConcept C528095902 @default.
• W2016169626 hasConcept C52896960 @default.
• W2016169626 hasConcept C96618451 @default.
• W2016169626 hasConcept C97355855 @default.
• W2016169626 hasConceptScore W2016169626C121332964 @default.
• W2016169626 hasConceptScore W2016169626C127413603 @default.
• W2016169626 hasConceptScore W2016169626C138171918 @default.
• W2016169626 hasConceptScore W2016169626C161790260 @default.
• W2016169626 hasConceptScore W2016169626C171146098 @default.
• W2016169626 hasConceptScore W2016169626C178790620 @default.
• W2016169626 hasConceptScore W2016169626C185592680 @default.
• W2016169626 hasConceptScore W2016169626C192562407 @default.
• W2016169626 hasConceptScore W2016169626C2779096019 @default.
• W2016169626 hasConceptScore W2016169626C2780804531 @default.
• W2016169626 hasConceptScore W2016169626C39432304 @default.
• W2016169626 hasConceptScore W2016169626C528095902 @default.
• W2016169626 hasConceptScore W2016169626C52896960 @default.
• W2016169626 hasConceptScore W2016169626C96618451 @default.
• W2016169626 hasConceptScore W2016169626C97355855 @default.
• W2016169626 hasLocation W20161696261 @default.
• W2016169626 hasOpenAccess W2016169626 @default.
• W2016169626 hasPrimaryLocation W20161696261 @default.
• W2016169626 hasRelatedWork W1540432841 @default.
• W2016169626 hasRelatedWork W2063666507 @default.
• W2016169626 hasRelatedWork W2139247793 @default.
• W2016169626 hasRelatedWork W2187494868 @default.
• W2016169626 hasRelatedWork W2392304477 @default.
• W2016169626 hasRelatedWork W3056681803 @default.
• W2016169626 hasRelatedWork W3156912300 @default.
• W2016169626 hasRelatedWork W4234403495 @default.
• W2016169626 hasRelatedWork W4286486468 @default.
• W2016169626 hasRelatedWork W951266134 @default.
• W2016169626 hasVolume "117" @default.
• W2016169626 isParatext "false" @default.
• W2016169626 isRetracted "false" @default.
• W2016169626 magId "2016169626" @default.
• W2016169626 workType "article" @default.