SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3194920668> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W3194920668 endingPage "105518" @default.
W3194920668 startingPage "105518" @default.
W3194920668 abstract "For heating a room, air flow heat exchanger with involving wavy PCM layers were employed in current study. FVM was incorporated to model current unsteady process and RT30 was utilized as base PCM which is mixed with alumina nano-powders. Cold turbulent air flow enters the channel with temperature of 12 oC. Liquid paraffin converts to solid phase and heat release from the layers. So, warm air exits the domain. Amplitude of paraffin layers and fraction of alumina have been scrutinized in results. Validation with experimental paper illustrates nice agreement of current modeling. Air reaches the heat from paraffin layers and its temperature increases. Rise of time decline the outlet temperature. Augment of amplitude has various influences on outlet temperature at various time stages. The longest process belong to case with pure paraffin and a=5mm which it takes 5.33hr to finish the process. When a=20mm, φ=0.04, the best discharging rate can be obtained and process takes 3.19hr to reach full solidification. Dispersing nano-powders makes freezing time to decrease about 5.49% when a=20mm. Employing greatest amplitude cause required time to reduce about 35.82% when φ=0.04." @default.
W3194920668 created "2021-08-30" @default.
W3194920668 creator A5017100236 @default.
W3194920668 date "2021-10-01" @default.
W3194920668 modified "2023-10-15" @default.
W3194920668 title "Heat transfer during solidification of PCM layers with inclusion of nano-powders" @default.
W3194920668 cites W1227374044 @default.
W3194920668 cites W1967419564 @default.
W3194920668 cites W2037836334 @default.
W3194920668 cites W2044139275 @default.
W3194920668 cites W2056195613 @default.
W3194920668 cites W2069240395 @default.
W3194920668 cites W2524087644 @default.
W3194920668 cites W2606070252 @default.
W3194920668 cites W2617405387 @default.
W3194920668 cites W2737205237 @default.
W3194920668 cites W2789359416 @default.
W3194920668 cites W2802585477 @default.
W3194920668 cites W2803262170 @default.
W3194920668 cites W2889971609 @default.
W3194920668 cites W2896124512 @default.
W3194920668 cites W2898139052 @default.
W3194920668 cites W2912283239 @default.
W3194920668 cites W2925545840 @default.
W3194920668 cites W2930786780 @default.
W3194920668 cites W2970982185 @default.
W3194920668 cites W2975129743 @default.
W3194920668 cites W2980951195 @default.
W3194920668 cites W2992032327 @default.
W3194920668 cites W2997456677 @default.
W3194920668 cites W3007091668 @default.
W3194920668 cites W3012900875 @default.
W3194920668 cites W3015229152 @default.
W3194920668 cites W3020896071 @default.
W3194920668 cites W3024962536 @default.
W3194920668 cites W3029129033 @default.
W3194920668 cites W3030723095 @default.
W3194920668 cites W3031940260 @default.
W3194920668 cites W3034949262 @default.
W3194920668 cites W3045659971 @default.
W3194920668 cites W3047926331 @default.
W3194920668 cites W3080853225 @default.
W3194920668 cites W3080899881 @default.
W3194920668 cites W3082191133 @default.
W3194920668 cites W3084513542 @default.
W3194920668 cites W3090224042 @default.
W3194920668 cites W3092042382 @default.
W3194920668 cites W3092528445 @default.
W3194920668 cites W3097672338 @default.
W3194920668 cites W3110258865 @default.
W3194920668 cites W3112321676 @default.
W3194920668 cites W3119255593 @default.
W3194920668 cites W3125775775 @default.
W3194920668 cites W3125959803 @default.
W3194920668 cites W3131914545 @default.
W3194920668 cites W3131991723 @default.
W3194920668 cites W3134879059 @default.
W3194920668 cites W3138780978 @default.
W3194920668 cites W3143847447 @default.
W3194920668 cites W3147070028 @default.
W3194920668 cites W3154941021 @default.
W3194920668 cites W3161477490 @default.
W3194920668 cites W3170971694 @default.
W3194920668 cites W3173357637 @default.
W3194920668 cites W3174722728 @default.
W3194920668 cites W3177106049 @default.
W3194920668 cites W3184906679 @default.
W3194920668 doi "https://doi.org/10.1016/j.icheatmasstransfer.2021.105518" @default.
W3194920668 hasPublicationYear "2021" @default.
W3194920668 type Work @default.
W3194920668 sameAs 3194920668 @default.
W3194920668 citedByCount "3" @default.
W3194920668 countsByYear W31949206682022 @default.
W3194920668 countsByYear W31949206682023 @default.
W3194920668 crossrefType "journal-article" @default.
W3194920668 hasAuthorship W3194920668A5017100236 @default.
W3194920668 hasConcept C107706546 @default.
W3194920668 hasConcept C121332964 @default.
W3194920668 hasConcept C148043351 @default.
W3194920668 hasConcept C159985019 @default.
W3194920668 hasConcept C180205008 @default.
W3194920668 hasConcept C192562407 @default.
W3194920668 hasConcept C196558001 @default.
W3194920668 hasConcept C2777777821 @default.
W3194920668 hasConcept C2780357685 @default.
W3194920668 hasConcept C29700514 @default.
W3194920668 hasConcept C38349280 @default.
W3194920668 hasConcept C50517652 @default.
W3194920668 hasConcept C57879066 @default.
W3194920668 hasConcept C62520636 @default.
W3194920668 hasConcept C97355855 @default.
W3194920668 hasConceptScore W3194920668C107706546 @default.
W3194920668 hasConceptScore W3194920668C121332964 @default.
W3194920668 hasConceptScore W3194920668C148043351 @default.
W3194920668 hasConceptScore W3194920668C159985019 @default.
W3194920668 hasConceptScore W3194920668C180205008 @default.
W3194920668 hasConceptScore W3194920668C192562407 @default.
W3194920668 hasConceptScore W3194920668C196558001 @default.