SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1988394791> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W1988394791 endingPage "201" @default.
W1988394791 startingPage "194" @default.
W1988394791 abstract "Heat transfer enhancement utilizing nanofluids in a trapezoidal enclosure is investigated for various pertinent parameters. Transport equations are modelled by a stream-vorticity formulation and solved numerically by finite difference approach. The inclined sloping boundaries is treated by adopting staircase-like zigzag lines. Based upon the numerical predictions, the effects of Grashof number, inclination angle of the sloping wall, volume fraction of nanoparticles on flow and temperature patterns as well as the heat transfer rate within the enclosure are presented. Water–Cu and water–Al2O3 nanofluids were tested. We found that acute sloping wall and Cu nanoparticles with high concentration are effective to enhance the rate of heat transfer. We also developed a new correlation for the average Nusselt number as a function of the angle of the sloping wall, effective thermal conductivity and viscosity as well as Grashof number." @default.
W1988394791 created "2016-06-24" @default.
W1988394791 creator A5049271409 @default.
W1988394791 creator A5077515817 @default.
W1988394791 creator A5087958489 @default.
W1988394791 date "2011-01-01" @default.
W1988394791 modified "2023-09-30" @default.
W1988394791 title "Natural convection heat transfer in a nanofluid-filled trapezoidal enclosure" @default.
W1988394791 cites W1975274673 @default.
W1988394791 cites W1976664524 @default.
W1988394791 cites W1981816363 @default.
W1988394791 cites W1982565646 @default.
W1988394791 cites W1984661201 @default.
W1988394791 cites W1986142387 @default.
W1988394791 cites W1997617337 @default.
W1988394791 cites W2001680699 @default.
W1988394791 cites W2005856900 @default.
W1988394791 cites W2015590441 @default.
W1988394791 cites W2016261094 @default.
W1988394791 cites W2024257253 @default.
W1988394791 cites W2026924866 @default.
W1988394791 cites W2034002914 @default.
W1988394791 cites W2051024768 @default.
W1988394791 cites W2060147519 @default.
W1988394791 cites W2060342734 @default.
W1988394791 cites W2062365588 @default.
W1988394791 cites W2066904451 @default.
W1988394791 cites W2069512686 @default.
W1988394791 cites W2074317905 @default.
W1988394791 cites W2078584385 @default.
W1988394791 cites W2080768344 @default.
W1988394791 cites W2083139158 @default.
W1988394791 cites W2088710377 @default.
W1988394791 cites W2092580867 @default.
W1988394791 cites W2093717036 @default.
W1988394791 cites W2132130554 @default.
W1988394791 cites W2134188039 @default.
W1988394791 cites W2136419670 @default.
W1988394791 cites W2136719269 @default.
W1988394791 cites W2143061909 @default.
W1988394791 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2010.09.053" @default.
W1988394791 hasPublicationYear "2011" @default.
W1988394791 type Work @default.
W1988394791 sameAs 1988394791 @default.
W1988394791 citedByCount "141" @default.
W1988394791 countsByYear W19883947912012 @default.
W1988394791 countsByYear W19883947912013 @default.
W1988394791 countsByYear W19883947912014 @default.
W1988394791 countsByYear W19883947912015 @default.
W1988394791 countsByYear W19883947912016 @default.
W1988394791 countsByYear W19883947912017 @default.
W1988394791 countsByYear W19883947912018 @default.
W1988394791 countsByYear W19883947912019 @default.
W1988394791 countsByYear W19883947912020 @default.
W1988394791 countsByYear W19883947912021 @default.
W1988394791 countsByYear W19883947912022 @default.
W1988394791 countsByYear W19883947912023 @default.
W1988394791 crossrefType "journal-article" @default.
W1988394791 hasAuthorship W1988394791A5049271409 @default.
W1988394791 hasAuthorship W1988394791A5077515817 @default.
W1988394791 hasAuthorship W1988394791A5087958489 @default.
W1988394791 hasConcept C121332964 @default.
W1988394791 hasConcept C130230704 @default.
W1988394791 hasConcept C13027520 @default.
W1988394791 hasConcept C140820882 @default.
W1988394791 hasConcept C159985019 @default.
W1988394791 hasConcept C182748727 @default.
W1988394791 hasConcept C18932819 @default.
W1988394791 hasConcept C192562407 @default.
W1988394791 hasConcept C196558001 @default.
W1988394791 hasConcept C200114574 @default.
W1988394791 hasConcept C21946209 @default.
W1988394791 hasConcept C29700514 @default.
W1988394791 hasConcept C41008148 @default.
W1988394791 hasConcept C50517652 @default.
W1988394791 hasConcept C54791560 @default.
W1988394791 hasConcept C57879066 @default.
W1988394791 hasConcept C76155785 @default.
W1988394791 hasConcept C97346530 @default.
W1988394791 hasConcept C97355855 @default.
W1988394791 hasConcept C98375054 @default.
W1988394791 hasConceptScore W1988394791C121332964 @default.
W1988394791 hasConceptScore W1988394791C130230704 @default.
W1988394791 hasConceptScore W1988394791C13027520 @default.
W1988394791 hasConceptScore W1988394791C140820882 @default.
W1988394791 hasConceptScore W1988394791C159985019 @default.
W1988394791 hasConceptScore W1988394791C182748727 @default.
W1988394791 hasConceptScore W1988394791C18932819 @default.
W1988394791 hasConceptScore W1988394791C192562407 @default.
W1988394791 hasConceptScore W1988394791C196558001 @default.
W1988394791 hasConceptScore W1988394791C200114574 @default.
W1988394791 hasConceptScore W1988394791C21946209 @default.
W1988394791 hasConceptScore W1988394791C29700514 @default.
W1988394791 hasConceptScore W1988394791C41008148 @default.
W1988394791 hasConceptScore W1988394791C50517652 @default.
W1988394791 hasConceptScore W1988394791C54791560 @default.
W1988394791 hasConceptScore W1988394791C57879066 @default.
W1988394791 hasConceptScore W1988394791C76155785 @default.