SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2503708108> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2503708108 endingPage "929" @default.
W2503708108 startingPage "917" @default.
W2503708108 abstract "Abstract Experiments were carried out on the preparation, thermophysical properties' measurement and application of surfactant-free, sand-propylene glycol-water nanofluids for solar energy collection. Thermal conductivity enhancement of 16.3% and viscosity reduction of 47% were observed for 2 vol % sand-PG-water nanofluid at 28 °C. Microconvection caused by Brownian motion was identified as one of the mechanisms of thermal conductivity enhancement. The relative viscosity of sand-propylene glycol-water nanofluid was less than 1 over a temperature range of 10–60 °C and sand nanoparticle concentration range of 0.5–2 vol %. The lower viscosity of sand-PG-water nanofluids in comparison to that of propylene glycol-water mixture is attributed to non-covalent interactions between sand nanoparticles and propylene glycol, leading to perturbation of hydrogen bonding network. The use of 2 vol % sand-PG-water nanofluid resulted in enhancement of heat transfer and solar energy collection by 16.5%. Our results demonstrate that sand-PG-water nanofluids are suitable for use as heat transfer fluid in solar collectors." @default.
W2503708108 created "2016-08-23" @default.
W2503708108 creator A5003041923 @default.
W2503708108 creator A5078419178 @default.
W2503708108 date "2016-10-01" @default.
W2503708108 modified "2023-10-10" @default.
W2503708108 title "Sand-propylene glycol-water nanofluids for improved solar energy collection" @default.
W2503708108 cites W1200804020 @default.
W2503708108 cites W1227374044 @default.
W2503708108 cites W1614326716 @default.
W2503708108 cites W1657900817 @default.
W2503708108 cites W1790009829 @default.
W2503708108 cites W1803319533 @default.
W2503708108 cites W1866514920 @default.
W2503708108 cites W1973769190 @default.
W2503708108 cites W1980835746 @default.
W2503708108 cites W1981064594 @default.
W2503708108 cites W1985183963 @default.
W2503708108 cites W1992330844 @default.
W2503708108 cites W1994755603 @default.
W2503708108 cites W1995785836 @default.
W2503708108 cites W1997654159 @default.
W2503708108 cites W2003685175 @default.
W2503708108 cites W2006339090 @default.
W2503708108 cites W2006429699 @default.
W2503708108 cites W2021170834 @default.
W2503708108 cites W2024114679 @default.
W2503708108 cites W2025044360 @default.
W2503708108 cites W2025738924 @default.
W2503708108 cites W2031920954 @default.
W2503708108 cites W2036775033 @default.
W2503708108 cites W2038133462 @default.
W2503708108 cites W2040751782 @default.
W2503708108 cites W2044554025 @default.
W2503708108 cites W2049526702 @default.
W2503708108 cites W2052257293 @default.
W2503708108 cites W2058102653 @default.
W2503708108 cites W2064538273 @default.
W2503708108 cites W2066397082 @default.
W2503708108 cites W2067164947 @default.
W2503708108 cites W2070967093 @default.
W2503708108 cites W2080983512 @default.
W2503708108 cites W2094427678 @default.
W2503708108 cites W2115529205 @default.
W2503708108 cites W2141168263 @default.
W2503708108 cites W2142464734 @default.
W2503708108 cites W2165052032 @default.
W2503708108 cites W2167549064 @default.
W2503708108 cites W2190143774 @default.
W2503708108 cites W2216483306 @default.
W2503708108 cites W2218625255 @default.
W2503708108 cites W2284013287 @default.
W2503708108 cites W2315893634 @default.
W2503708108 cites W2320144903 @default.
W2503708108 cites W2321625317 @default.
W2503708108 cites W2324311782 @default.
W2503708108 cites W2439575765 @default.
W2503708108 cites W2562208875 @default.
W2503708108 cites W2741832490 @default.
W2503708108 cites W812192195 @default.
W2503708108 cites W940063239 @default.
W2503708108 cites W944912343 @default.
W2503708108 doi "https://doi.org/10.1016/j.energy.2016.07.120" @default.
W2503708108 hasPublicationYear "2016" @default.
W2503708108 type Work @default.
W2503708108 sameAs 2503708108 @default.
W2503708108 citedByCount "29" @default.
W2503708108 countsByYear W25037081082017 @default.
W2503708108 countsByYear W25037081082018 @default.
W2503708108 countsByYear W25037081082019 @default.
W2503708108 countsByYear W25037081082020 @default.
W2503708108 countsByYear W25037081082021 @default.
W2503708108 countsByYear W25037081082022 @default.
W2503708108 countsByYear W25037081082023 @default.
W2503708108 crossrefType "journal-article" @default.
W2503708108 hasAuthorship W2503708108A5003041923 @default.
W2503708108 hasAuthorship W2503708108A5078419178 @default.
W2503708108 hasConcept C119599485 @default.
W2503708108 hasConcept C121332964 @default.
W2503708108 hasConcept C127413603 @default.
W2503708108 hasConcept C155672457 @default.
W2503708108 hasConcept C171250308 @default.
W2503708108 hasConcept C192562407 @default.
W2503708108 hasConcept C21880701 @default.
W2503708108 hasConcept C21946209 @default.
W2503708108 hasConcept C2778551929 @default.
W2503708108 hasConcept C39432304 @default.
W2503708108 hasConcept C42360764 @default.
W2503708108 hasConcept C541104983 @default.
W2503708108 hasConcept C97355855 @default.
W2503708108 hasConceptScore W2503708108C119599485 @default.
W2503708108 hasConceptScore W2503708108C121332964 @default.
W2503708108 hasConceptScore W2503708108C127413603 @default.
W2503708108 hasConceptScore W2503708108C155672457 @default.
W2503708108 hasConceptScore W2503708108C171250308 @default.
W2503708108 hasConceptScore W2503708108C192562407 @default.
W2503708108 hasConceptScore W2503708108C21880701 @default.
W2503708108 hasConceptScore W2503708108C21946209 @default.