SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3136275086> ?p ?o ?g. }

Showing items 1 to 100 of ±182 with 100 items per page.

W3136275086 endingPage "116" @default.
W3136275086 startingPage "116" @default.
W3136275086 abstract "Ionic liquids have been suggested as new engineering fluids, specifically in the area of heat transfer, and as alternatives to current biphenyl and diphenyl oxide, alkylated aromatics and dimethyl polysiloxane oils, which degrade above 200 °C, posing some environmental problems. Addition of nanoparticles to produce stable dispersions/gels of ionic liquids has proved to increase the thermal conductivity of the base ionic liquid, potentially contributing to better efficiency of heat transfer fluids. It is the purpose of this paper to analyze the prediction and estimation of the thermal conductivity of ionic liquids and IoNanofluids as a function of temperature, using the molecular theory of Bridgman and estimation methods previously developed for the base fluid. In addition, we consider methods that emphasize the importance of the interfacial area IL-NM in modelling the thermal conductivity enhancement. Results obtained show that it is not currently possible to predict or estimate the thermal conductivity of ionic liquids with an uncertainty commensurate with the best experimental values. The models of Maxwell and Hamilton are not capable of estimating the thermal conductivity enhancement of IoNanofluids, and it is clear that the Murshed, Leong and Yang model is not practical, if no additional information, either using imaging techniques at nanoscale or molecular dynamics simulations, is available." @default.
W3136275086 created "2021-03-29" @default.
W3136275086 creator A5043422507 @default.
W3136275086 creator A5055681818 @default.
W3136275086 creator A5060689171 @default.
W3136275086 creator A5091173628 @default.
W3136275086 date "2021-03-12" @default.
W3136275086 modified "2023-09-25" @default.
W3136275086 title "Thermal Conductivity of Ionic Liquids and IoNanofluids. Can Molecular Theory Help?" @default.
W3136275086 cites W1554493015 @default.
W3136275086 cites W1634657447 @default.
W3136275086 cites W1966493820 @default.
W3136275086 cites W1968141989 @default.
W3136275086 cites W1974014039 @default.
W3136275086 cites W1975628855 @default.
W3136275086 cites W1982479518 @default.
W3136275086 cites W1983615853 @default.
W3136275086 cites W1983756379 @default.
W3136275086 cites W1985708287 @default.
W3136275086 cites W1988120079 @default.
W3136275086 cites W1988799961 @default.
W3136275086 cites W1988879013 @default.
W3136275086 cites W1992834341 @default.
W3136275086 cites W1999945096 @default.
W3136275086 cites W2004359286 @default.
W3136275086 cites W2005868029 @default.
W3136275086 cites W2006843022 @default.
W3136275086 cites W2011339767 @default.
W3136275086 cites W2013026297 @default.
W3136275086 cites W2013871555 @default.
W3136275086 cites W2032339998 @default.
W3136275086 cites W2043454037 @default.
W3136275086 cites W2043564226 @default.
W3136275086 cites W2046049069 @default.
W3136275086 cites W2047718404 @default.
W3136275086 cites W2047791995 @default.
W3136275086 cites W2048994035 @default.
W3136275086 cites W2049309711 @default.
W3136275086 cites W2050283948 @default.
W3136275086 cites W2051479078 @default.
W3136275086 cites W2056435912 @default.
W3136275086 cites W2057626905 @default.
W3136275086 cites W2057831874 @default.
W3136275086 cites W2058135277 @default.
W3136275086 cites W2063500131 @default.
W3136275086 cites W2065112789 @default.
W3136275086 cites W2068688940 @default.
W3136275086 cites W2072635744 @default.
W3136275086 cites W2076241364 @default.
W3136275086 cites W2076330154 @default.
W3136275086 cites W2079150039 @default.
W3136275086 cites W2087627509 @default.
W3136275086 cites W2089446230 @default.
W3136275086 cites W2094416577 @default.
W3136275086 cites W2100352756 @default.
W3136275086 cites W2104330751 @default.
W3136275086 cites W2109476240 @default.
W3136275086 cites W2120927994 @default.
W3136275086 cites W2130055272 @default.
W3136275086 cites W2150112758 @default.
W3136275086 cites W2153056190 @default.
W3136275086 cites W2154375622 @default.
W3136275086 cites W2161227557 @default.
W3136275086 cites W2163646971 @default.
W3136275086 cites W2163740573 @default.
W3136275086 cites W2164892836 @default.
W3136275086 cites W2170116274 @default.
W3136275086 cites W2170354095 @default.
W3136275086 cites W2175178136 @default.
W3136275086 cites W2214882819 @default.
W3136275086 cites W2218625255 @default.
W3136275086 cites W2322550053 @default.
W3136275086 cites W2325600448 @default.
W3136275086 cites W2332976160 @default.
W3136275086 cites W2334191638 @default.
W3136275086 cites W2417646665 @default.
W3136275086 cites W2554680113 @default.
W3136275086 cites W2617676297 @default.
W3136275086 cites W2617858990 @default.
W3136275086 cites W2765858366 @default.
W3136275086 cites W2801628857 @default.
W3136275086 cites W2802605666 @default.
W3136275086 cites W2998593176 @default.
W3136275086 cites W3040795117 @default.
W3136275086 cites W3087449677 @default.
W3136275086 cites W3111397591 @default.
W3136275086 cites W3134684717 @default.
W3136275086 cites W4205129087 @default.
W3136275086 cites W2332969734 @default.
W3136275086 doi "https://doi.org/10.3390/fluids6030116" @default.
W3136275086 hasPublicationYear "2021" @default.
W3136275086 type Work @default.
W3136275086 sameAs 3136275086 @default.
W3136275086 citedByCount "8" @default.
W3136275086 countsByYear W31362750862022 @default.
W3136275086 countsByYear W31362750862023 @default.
W3136275086 crossrefType "journal-article" @default.
W3136275086 hasAuthorship W3136275086A5043422507 @default.