SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3048131750> ?p ?o ?g. }

Showing items 1 to 100 of ±174 with 100 items per page.

W3048131750 endingPage "113965" @default.
W3048131750 startingPage "113965" @default.
W3048131750 abstract "This paper presents original experimental data regarding the rheological characterisation of nanofluids based on poly(ethylene glycol) s with molecular mass of either 200 or 300 g·mol−1 (i.e. PEG-200 or PEG-300) and containing 0.025–0.70 wt% of multi-walled carbon nanotubes (MWCNT). The shear rate dependence of dynamic viscosity (η) was first studied in the temperature range from 278.15 to 313.15 K. Such non-linear viscoelastic experiments revealed that, unlike the neat poly(ethylene glycol)s used as based fluids, MWCNT/PEG-200 and MWCNT/PEG-300 nanofluids exhibited a non-Newtonian pseudoplastic behaviour in the low shear rate region (even in the case of the dispersions prepared at lowest nanoparticle concentrations). Dynamic viscosities measured at ~800 s−1 were compared with the values provided by means of different theoretical or semi-empirical approaches and a good description of our experimental results was obtained (with absolute average deviations ~0.2–0.3%) by using the Maron–Pierce equation modified to take into account the presence of aggregates/agglomerates. Additionally, rheological oscillatory analyses of these nanofluids were also conducted at 288.15 K to identify the linear-viscoelastic region and deep in the analysis of the viscoelastic behaviour of designed dispersions." @default.
W3048131750 created "2020-08-13" @default.
W3048131750 creator A5022663996 @default.
W3048131750 creator A5030269986 @default.
W3048131750 creator A5041453386 @default.
W3048131750 creator A5053280369 @default.
W3048131750 creator A5064095602 @default.
W3048131750 creator A5071503472 @default.
W3048131750 creator A5091521044 @default.
W3048131750 date "2020-11-01" @default.
W3048131750 modified "2023-10-17" @default.
W3048131750 title "Influence of molecular mass of PEG on rheological behaviour of MWCNT-based nanofluids for thermal energy storage" @default.
W3048131750 cites W1082336934 @default.
W3048131750 cites W1944915281 @default.
W3048131750 cites W1971668954 @default.
W3048131750 cites W1976706778 @default.
W3048131750 cites W1976983448 @default.
W3048131750 cites W1978377220 @default.
W3048131750 cites W1979139461 @default.
W3048131750 cites W1979990940 @default.
W3048131750 cites W1990337654 @default.
W3048131750 cites W1993065545 @default.
W3048131750 cites W1996850304 @default.
W3048131750 cites W1997997177 @default.
W3048131750 cites W2000709651 @default.
W3048131750 cites W2005115326 @default.
W3048131750 cites W2009369982 @default.
W3048131750 cites W2010364254 @default.
W3048131750 cites W2011212917 @default.
W3048131750 cites W2019858338 @default.
W3048131750 cites W2024964627 @default.
W3048131750 cites W2038901632 @default.
W3048131750 cites W2042773037 @default.
W3048131750 cites W2053448154 @default.
W3048131750 cites W2057244130 @default.
W3048131750 cites W2057419798 @default.
W3048131750 cites W2060763653 @default.
W3048131750 cites W2066026130 @default.
W3048131750 cites W2067700949 @default.
W3048131750 cites W2088878807 @default.
W3048131750 cites W2090280496 @default.
W3048131750 cites W2090627946 @default.
W3048131750 cites W2092565174 @default.
W3048131750 cites W2094739448 @default.
W3048131750 cites W2094963548 @default.
W3048131750 cites W2117781308 @default.
W3048131750 cites W2135670934 @default.
W3048131750 cites W2143206278 @default.
W3048131750 cites W2150271451 @default.
W3048131750 cites W2151822993 @default.
W3048131750 cites W2157798571 @default.
W3048131750 cites W2170116274 @default.
W3048131750 cites W2278113840 @default.
W3048131750 cites W2319273688 @default.
W3048131750 cites W2320268843 @default.
W3048131750 cites W2324790499 @default.
W3048131750 cites W2332869123 @default.
W3048131750 cites W2417367996 @default.
W3048131750 cites W2559443634 @default.
W3048131750 cites W2589013534 @default.
W3048131750 cites W2602194826 @default.
W3048131750 cites W2620732430 @default.
W3048131750 cites W268689807 @default.
W3048131750 cites W2749064031 @default.
W3048131750 cites W2756872130 @default.
W3048131750 cites W2777954903 @default.
W3048131750 cites W2794019618 @default.
W3048131750 cites W2794673234 @default.
W3048131750 cites W2885853074 @default.
W3048131750 cites W2908556736 @default.
W3048131750 cites W2910785805 @default.
W3048131750 cites W2911924211 @default.
W3048131750 cites W2912169551 @default.
W3048131750 cites W2912476683 @default.
W3048131750 cites W2914366153 @default.
W3048131750 cites W2919126352 @default.
W3048131750 cites W2919720081 @default.
W3048131750 cites W2923949850 @default.
W3048131750 cites W2924069076 @default.
W3048131750 cites W2924197930 @default.
W3048131750 cites W2930246305 @default.
W3048131750 cites W2938621946 @default.
W3048131750 cites W2941812769 @default.
W3048131750 cites W2943094438 @default.
W3048131750 cites W2948136590 @default.
W3048131750 cites W2969509591 @default.
W3048131750 cites W2981582292 @default.
W3048131750 cites W2982738297 @default.
W3048131750 cites W2990872277 @default.
W3048131750 cites W3019052945 @default.
W3048131750 doi "https://doi.org/10.1016/j.molliq.2020.113965" @default.
W3048131750 hasPublicationYear "2020" @default.
W3048131750 type Work @default.
W3048131750 sameAs 3048131750 @default.
W3048131750 citedByCount "12" @default.
W3048131750 countsByYear W30481317502021 @default.
W3048131750 countsByYear W30481317502022 @default.
W3048131750 countsByYear W30481317502023 @default.