SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3214098214> ?p ?o ?g. }

Showing items 1 to 100 of ±120 with 100 items per page.

W3214098214 endingPage "105752" @default.
W3214098214 startingPage "105752" @default.
W3214098214 abstract "The aim of this study is to explore the hydrothermal attributes of three types of nanofluid containing the silver nanoparticles, aluminum oxide nanoparticles, and hybrid silver–aluminum oxide nanoparticles in two different types of microchannel, namely Left-Right and Up-Down wavy microchannels. The multi-phase mixture model is utilized to numerically simulate the flow at constant pumping powers. The results unmask that the secondary flow formed due to the wavy structure is more severe for the Left-Right wavy microchannel compared to the Up-Down one. Also, a maximum 330% enhancement in the convective heat transfer coefficient was observed for the Up-Down wavy microchannel working with the silver nanofluid, while the same value for the Left-Right one was 200%. Although the impact of using the nanofluids is more dominant for the Up-Down wavy microchannel, the Left-Right one exhibited better cooling performance in terms of the Nusselt number. It was observed that utilizing the nanofluids has minor impact on improving the bottom surface temperature uniformity for the Left-Right wavy microchannel, while for the Up-Down one this effect is more dominant. Lower amounts of thermal resistance were obtained in the case of using the nanofluids for both wavy structures, with more impact on the Up-Down one." @default.
W3214098214 created "2021-11-22" @default.
W3214098214 creator A5025235881 @default.
W3214098214 creator A5070855448 @default.
W3214098214 date "2021-12-01" @default.
W3214098214 modified "2023-10-14" @default.
W3214098214 title "Hydrothermal performance of single and hybrid nanofluids in Left-Right and Up-Down wavy microchannels using two-phase mixture approach" @default.
W3214098214 cites W1047199651 @default.
W3214098214 cites W1980703214 @default.
W3214098214 cites W2027701856 @default.
W3214098214 cites W2073051327 @default.
W3214098214 cites W2154818575 @default.
W3214098214 cites W2156259175 @default.
W3214098214 cites W2166168295 @default.
W3214098214 cites W2209037605 @default.
W3214098214 cites W2317425039 @default.
W3214098214 cites W2507892620 @default.
W3214098214 cites W2568860323 @default.
W3214098214 cites W2588330178 @default.
W3214098214 cites W2609285363 @default.
W3214098214 cites W2610559214 @default.
W3214098214 cites W2616847743 @default.
W3214098214 cites W2726506818 @default.
W3214098214 cites W2727516417 @default.
W3214098214 cites W2738499236 @default.
W3214098214 cites W2748597578 @default.
W3214098214 cites W2789425942 @default.
W3214098214 cites W2801348916 @default.
W3214098214 cites W2806705113 @default.
W3214098214 cites W2893325517 @default.
W3214098214 cites W2895369152 @default.
W3214098214 cites W2898113456 @default.
W3214098214 cites W2905272168 @default.
W3214098214 cites W2913331929 @default.
W3214098214 cites W2928905197 @default.
W3214098214 cites W2945030139 @default.
W3214098214 cites W2968503701 @default.
W3214098214 cites W2972027064 @default.
W3214098214 cites W2976340001 @default.
W3214098214 cites W2995426309 @default.
W3214098214 cites W2996666364 @default.
W3214098214 cites W3007297381 @default.
W3214098214 cites W3011558381 @default.
W3214098214 cites W3019184619 @default.
W3214098214 cites W3030438014 @default.
W3214098214 cites W3044405683 @default.
W3214098214 cites W3045337047 @default.
W3214098214 cites W3048191148 @default.
W3214098214 cites W3048771265 @default.
W3214098214 cites W3089561039 @default.
W3214098214 cites W3093099171 @default.
W3214098214 cites W3108248965 @default.
W3214098214 cites W3109297643 @default.
W3214098214 cites W3116906161 @default.
W3214098214 cites W3117713070 @default.
W3214098214 cites W3120705370 @default.
W3214098214 cites W3126804988 @default.
W3214098214 cites W3129239072 @default.
W3214098214 cites W3132465187 @default.
W3214098214 cites W3162743915 @default.
W3214098214 cites W3164913014 @default.
W3214098214 cites W3168102516 @default.
W3214098214 doi "https://doi.org/10.1016/j.icheatmasstransfer.2021.105752" @default.
W3214098214 hasPublicationYear "2021" @default.
W3214098214 type Work @default.
W3214098214 sameAs 3214098214 @default.
W3214098214 citedByCount "14" @default.
W3214098214 countsByYear W32140982142022 @default.
W3214098214 countsByYear W32140982142023 @default.
W3214098214 crossrefType "journal-article" @default.
W3214098214 hasAuthorship W3214098214A5025235881 @default.
W3214098214 hasAuthorship W3214098214A5070855448 @default.
W3214098214 hasConcept C121332964 @default.
W3214098214 hasConcept C130230704 @default.
W3214098214 hasConcept C155672457 @default.
W3214098214 hasConcept C171250308 @default.
W3214098214 hasConcept C182748727 @default.
W3214098214 hasConcept C192562407 @default.
W3214098214 hasConcept C196558001 @default.
W3214098214 hasConcept C21946209 @default.
W3214098214 hasConcept C2777777821 @default.
W3214098214 hasConcept C29700514 @default.
W3214098214 hasConcept C38349280 @default.
W3214098214 hasConcept C50517652 @default.
W3214098214 hasConcept C57879066 @default.
W3214098214 hasConcept C63662833 @default.
W3214098214 hasConceptScore W3214098214C121332964 @default.
W3214098214 hasConceptScore W3214098214C130230704 @default.
W3214098214 hasConceptScore W3214098214C155672457 @default.
W3214098214 hasConceptScore W3214098214C171250308 @default.
W3214098214 hasConceptScore W3214098214C182748727 @default.
W3214098214 hasConceptScore W3214098214C192562407 @default.
W3214098214 hasConceptScore W3214098214C196558001 @default.
W3214098214 hasConceptScore W3214098214C21946209 @default.
W3214098214 hasConceptScore W3214098214C2777777821 @default.
W3214098214 hasConceptScore W3214098214C29700514 @default.
W3214098214 hasConceptScore W3214098214C38349280 @default.
W3214098214 hasConceptScore W3214098214C50517652 @default.