SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2898877800> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W2898877800 endingPage "459" @default.
W2898877800 startingPage "435" @default.
W2898877800 abstract "Abstract Nonlinear, steady‐state, viscous flow, and heat transfer between two stretchable rotating disks spinning at dissimilar velocities are studied with a non‐Fourier heat flux model. A nondeformable porous medium is intercalated between the disks and the Darcy model is used to simulate matrix impedance. The conservation equations are formulated in a cylindrical coordinate system and via the von Karman transformations are rendered into a system of coupled, nonlinear ordinary differential equations. The emerging boundary value problem is controlled by number of dimensionless parameters, that is, Prandtl number, upper disk stretching, lower disk stretching, permeability, non‐Fourier thermal relaxation, and relative rotation rate parameters. A perturbation solution is developed and the impact of selected parameters on radial and tangential velocity components, temperature, pressure, lower disk radial, and tangential skin friction components and surface heat transfer rate are visualized graphically. Validation of solutions with the homotopy analysis method is included. Extensive interpretation of the results is presented which are relevant to rotating disk bioreactors in chemical engineering." @default.
W2898877800 created "2018-11-09" @default.
W2898877800 creator A5025207138 @default.
W2898877800 creator A5028292157 @default.
W2898877800 creator A5084202182 @default.
W2898877800 creator A5088174453 @default.
W2898877800 date "2018-10-31" @default.
W2898877800 modified "2023-10-16" @default.
W2898877800 title "Numerical study of heat transfer and viscous flow in a dual rotating extendable disk system with a non-Fourier heat flux model" @default.
W2898877800 cites W1965489130 @default.
W2898877800 cites W1966028046 @default.
W2898877800 cites W1966680340 @default.
W2898877800 cites W1971569033 @default.
W2898877800 cites W1971662623 @default.
W2898877800 cites W1972857605 @default.
W2898877800 cites W1975918613 @default.
W2898877800 cites W1977763988 @default.
W2898877800 cites W1981906286 @default.
W2898877800 cites W1987823761 @default.
W2898877800 cites W1997283000 @default.
W2898877800 cites W1998216051 @default.
W2898877800 cites W2005057251 @default.
W2898877800 cites W2010485275 @default.
W2898877800 cites W2011163188 @default.
W2898877800 cites W2018010344 @default.
W2898877800 cites W2026585318 @default.
W2898877800 cites W2026786290 @default.
W2898877800 cites W2031695383 @default.
W2898877800 cites W2035956081 @default.
W2898877800 cites W2045189945 @default.
W2898877800 cites W2046113879 @default.
W2898877800 cites W2052063706 @default.
W2898877800 cites W2052867016 @default.
W2898877800 cites W2054206325 @default.
W2898877800 cites W2059137613 @default.
W2898877800 cites W2059487143 @default.
W2898877800 cites W2060181896 @default.
W2898877800 cites W2060729275 @default.
W2898877800 cites W2067627643 @default.
W2898877800 cites W2068638783 @default.
W2898877800 cites W2071900610 @default.
W2898877800 cites W2072307683 @default.
W2898877800 cites W2075995986 @default.
W2898877800 cites W2079863474 @default.
W2898877800 cites W2083725180 @default.
W2898877800 cites W2134875316 @default.
W2898877800 cites W2141947956 @default.
W2898877800 cites W2343014201 @default.
W2898877800 cites W2344652846 @default.
W2898877800 cites W2402117264 @default.
W2898877800 cites W2405427957 @default.
W2898877800 cites W2481294173 @default.
W2898877800 cites W2529251618 @default.
W2898877800 cites W2530434970 @default.
W2898877800 cites W2537443733 @default.
W2898877800 cites W2560543379 @default.
W2898877800 cites W2566390775 @default.
W2898877800 cites W2581927141 @default.
W2898877800 cites W2611599555 @default.
W2898877800 cites W2614675807 @default.
W2898877800 cites W2615673852 @default.
W2898877800 cites W2617565529 @default.
W2898877800 cites W2625153239 @default.
W2898877800 cites W2735455495 @default.
W2898877800 cites W2772895527 @default.
W2898877800 cites W2782172594 @default.
W2898877800 cites W2802832497 @default.
W2898877800 cites W2884939910 @default.
W2898877800 doi "https://doi.org/10.1002/htj.21392" @default.
W2898877800 hasPublicationYear "2018" @default.
W2898877800 type Work @default.
W2898877800 sameAs 2898877800 @default.
W2898877800 citedByCount "28" @default.
W2898877800 countsByYear W28988778002019 @default.
W2898877800 countsByYear W28988778002020 @default.
W2898877800 countsByYear W28988778002021 @default.
W2898877800 countsByYear W28988778002022 @default.
W2898877800 countsByYear W28988778002023 @default.
W2898877800 crossrefType "journal-article" @default.
W2898877800 hasAuthorship W2898877800A5025207138 @default.
W2898877800 hasAuthorship W2898877800A5028292157 @default.
W2898877800 hasAuthorship W2898877800A5084202182 @default.
W2898877800 hasAuthorship W2898877800A5088174453 @default.
W2898877800 hasBestOaLocation W28988778001 @default.
W2898877800 hasConcept C121332964 @default.
W2898877800 hasConcept C158622935 @default.
W2898877800 hasConcept C159188206 @default.
W2898877800 hasConcept C173636693 @default.
W2898877800 hasConcept C192562407 @default.
W2898877800 hasConcept C201076478 @default.
W2898877800 hasConcept C50517652 @default.
W2898877800 hasConcept C57879066 @default.
W2898877800 hasConcept C62520636 @default.
W2898877800 hasConcept C72687893 @default.
W2898877800 hasConcept C74650414 @default.
W2898877800 hasConcept C97355855 @default.
W2898877800 hasConceptScore W2898877800C121332964 @default.
W2898877800 hasConceptScore W2898877800C158622935 @default.