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    Heat and mass transfer analysis of MWCNT‐kerosene nanofluid flow over a wedge with thermal radiation

    New search for: Sreedevi, Paluru

    A comparison between the unsteady and steady magnetohydrodynamics Tiwari‐Das model Williamson nanofluid flow through a wedge occupied by carbon nanotubes of multiwalled type nanoparticles and kerosene as base fluid is presented in this analysis. A suitable similarity variable technique is adopted to transmute the governing partial differential equations into a set of nonlinear ordinary differential equations (ODEs). To solve these ODEs together along with boundary conditions, we have utilized finite element analysis. The behavior of concentration, temperature, and velocity sketches for diverse values of the pertinent parameters is plotted through graphs. The impact on the above parameters on the rates of velocity, heat, and concentration is also evaluated and depicted through tables. It is noted that as the values of nanoparticle volume fraction parameter rises, the rates of temperature increase in both the unsteady and steady cases.

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    Heat and mass transfer analysis of MWCNT‐kerosene nanofluid flow over a wedge with thermal radiation

    New search for: Sreedevi, Paluru

    A comparison between the unsteady and steady magnetohydrodynamics Tiwari‐Das model Williamson nanofluid flow through a wedge occupied by carbon nanotubes of multiwalled type nanoparticles and kerosene as base fluid is presented in this analysis. A suitable similarity variable technique is adopted to transmute the governing partial differential equations into a set of nonlinear ordinary differential equations (ODEs). To solve these ODEs together along with boundary conditions, we have utilized finite element analysis. The behavior of concentration, temperature, and velocity sketches for diverse values of the pertinent parameters is plotted through graphs. The impact on the above parameters on the rates of velocity, heat, and concentration is also evaluated and depicted through tables. It is noted that as the values of nanoparticle volume fraction parameter rises, the rates of temperature increase in both the unsteady and steady cases.

    Access

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    Order at Subito €

    Heat and mass transfer analysis of MWCNT‐kerosene nanofluid flow over a wedge with thermal radiation

    New search for: Sreedevi, Paluru

    A comparison between the unsteady and steady magnetohydrodynamics Tiwari‐Das model Williamson nanofluid flow through a wedge occupied by carbon nanotubes of multiwalled type nanoparticles and kerosene as base fluid is presented in this analysis. A suitable similarity variable technique is adopted to transmute the governing partial differential equations into a set of nonlinear ordinary differential equations (ODEs). To solve these ODEs together along with boundary conditions, we have utilized finite element analysis. The behavior of concentration, temperature, and velocity sketches for diverse values of the pertinent parameters is plotted through graphs. The impact on the above parameters on the rates of velocity, heat, and concentration is also evaluated and depicted through tables. It is noted that as the values of nanoparticle volume fraction parameter rises, the rates of temperature increase in both the unsteady and steady cases.

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    Title:

    Heat and mass transfer analysis of MWCNT‐kerosene nanofluid flow over a wedge with thermal radiation

    Contributors:

    Sreedevi, Paluru (author) / Sudarsana Reddy, Patakota (author)

    Published in:

    Heat Transfer ; 50 ; 10-33

    Publication date:

    2021-01-01

    Size:

    24 pages

    ISSN:

    2688-4542 , 2688-4534

    DOI:

    https://doi.org/10.1002/htj.21892

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    chemical reaction , kerosene , thermal radiation , carbon nanotubes of multiwalled type , finite element method

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