SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2922773362> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W2922773362 endingPage "14" @default.
W2922773362 startingPage "1" @default.
W2922773362 abstract "We presented the applications of entropy generation for SWCNTs and MWCNTs based on kerosene oil for Casson nanofluid flow by rotating channels. Kerosene oil has advanced thermal conductivity and exclusive features and has a lot of practical uses due to its unique behavior. That is why we have used kerosene oil as a based fluid. For the entropy generation second law of thermodynamics is applied and implemented for the nanofluid transport mechanism. In the presence of magnetic field, the effects of thermal radiations and heat source/sink on the temperature profiles are studied. The fluid flow is supposed in steady state. With the help of suitable similitude parameters, the leading equations have been transformed to a set of differential equations. The solution of the modeled problem has been carried out with the homotopic approach. The physical properties of carbon nanotubes are shown through tables. The effects of the imbedded physical parameters on the velocities, temperature, entropy generation rate, and Bejan number profiles are investigated and presented through graphs. Moreover, the impact of significant parameters on surface drag force and heat transfer rate is tabulated." @default.
W2922773362 created "2019-04-01" @default.
W2922773362 creator A5025158703 @default.
W2922773362 creator A5030166628 @default.
W2922773362 creator A5036720066 @default.
W2922773362 creator A5040226905 @default.
W2922773362 creator A5067564042 @default.
W2922773362 date "2019-03-26" @default.
W2922773362 modified "2023-10-16" @default.
W2922773362 title "Entropy Generation in MHD Radiative Flow of CNTs Casson Nanofluid in Rotating Channels with Heat Source/Sink" @default.
W2922773362 cites W1966226718 @default.
W2922773362 cites W1977210444 @default.
W2922773362 cites W2003951568 @default.
W2922773362 cites W2005577829 @default.
W2922773362 cites W2032037595 @default.
W2922773362 cites W2034876226 @default.
W2922773362 cites W2035685097 @default.
W2922773362 cites W2043652197 @default.
W2922773362 cites W2058135277 @default.
W2922773362 cites W2061241949 @default.
W2922773362 cites W2069843714 @default.
W2922773362 cites W2071486616 @default.
W2922773362 cites W2072242143 @default.
W2922773362 cites W2148277138 @default.
W2922773362 cites W2324686027 @default.
W2922773362 cites W2527882639 @default.
W2922773362 cites W2550814887 @default.
W2922773362 cites W2559342065 @default.
W2922773362 cites W2564061967 @default.
W2922773362 cites W2594170268 @default.
W2922773362 cites W2606391841 @default.
W2922773362 cites W2752088214 @default.
W2922773362 cites W2768965466 @default.
W2922773362 cites W2791169542 @default.
W2922773362 cites W2804174039 @default.
W2922773362 cites W2809400618 @default.
W2922773362 cites W2887224319 @default.
W2922773362 cites W2888001543 @default.
W2922773362 cites W2888210399 @default.
W2922773362 cites W2888717846 @default.
W2922773362 cites W2889281295 @default.
W2922773362 cites W2891243262 @default.
W2922773362 cites W2892733120 @default.
W2922773362 cites W2896466150 @default.
W2922773362 cites W2898681768 @default.
W2922773362 cites W2899214609 @default.
W2922773362 cites W2905488611 @default.
W2922773362 cites W2909185943 @default.
W2922773362 cites W2911404001 @default.
W2922773362 cites W2912884522 @default.
W2922773362 cites W2913683773 @default.
W2922773362 cites W2914369633 @default.
W2922773362 cites W2914827243 @default.
W2922773362 cites W2932804846 @default.
W2922773362 doi "https://doi.org/10.1155/2019/9158093" @default.
W2922773362 hasPublicationYear "2019" @default.
W2922773362 type Work @default.
W2922773362 sameAs 2922773362 @default.
W2922773362 citedByCount "60" @default.
W2922773362 countsByYear W29227733622019 @default.
W2922773362 countsByYear W29227733622020 @default.
W2922773362 countsByYear W29227733622021 @default.
W2922773362 countsByYear W29227733622022 @default.
W2922773362 countsByYear W29227733622023 @default.
W2922773362 crossrefType "journal-article" @default.
W2922773362 hasAuthorship W2922773362A5025158703 @default.
W2922773362 hasAuthorship W2922773362A5030166628 @default.
W2922773362 hasAuthorship W2922773362A5036720066 @default.
W2922773362 hasAuthorship W2922773362A5040226905 @default.
W2922773362 hasAuthorship W2922773362A5067564042 @default.
W2922773362 hasBestOaLocation W29227733621 @default.
W2922773362 hasConcept C106301342 @default.
W2922773362 hasConcept C115260700 @default.
W2922773362 hasConcept C119820323 @default.
W2922773362 hasConcept C121332964 @default.
W2922773362 hasConcept C130230704 @default.
W2922773362 hasConcept C181587685 @default.
W2922773362 hasConcept C182748727 @default.
W2922773362 hasConcept C186937647 @default.
W2922773362 hasConcept C192562407 @default.
W2922773362 hasConcept C196558001 @default.
W2922773362 hasConcept C204530211 @default.
W2922773362 hasConcept C21946209 @default.
W2922773362 hasConcept C3020116064 @default.
W2922773362 hasConcept C31532427 @default.
W2922773362 hasConcept C50517652 @default.
W2922773362 hasConcept C57879066 @default.
W2922773362 hasConcept C62520636 @default.
W2922773362 hasConcept C89394759 @default.
W2922773362 hasConcept C97346530 @default.
W2922773362 hasConcept C97355855 @default.
W2922773362 hasConceptScore W2922773362C106301342 @default.
W2922773362 hasConceptScore W2922773362C115260700 @default.
W2922773362 hasConceptScore W2922773362C119820323 @default.
W2922773362 hasConceptScore W2922773362C121332964 @default.
W2922773362 hasConceptScore W2922773362C130230704 @default.
W2922773362 hasConceptScore W2922773362C181587685 @default.
W2922773362 hasConceptScore W2922773362C182748727 @default.