Implication of Arrhenius Activation Energy and Temperature-Dependent Viscosity on Non-Newtonian Nanomaterial Bio-Convective Flow with Partial Slip

In the era of nano-engineering, the decomposition of nanoparticles with base liquids enhances the thermal performances of such base materials. Owing to the tremendous demand for high thermal performances in industries, the use of nanoparticles becomes more fascinating. In most nanofluid analyses, th...

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Published inArabian journal for science and engineering (2011) Vol. 47; no. 6; pp. 7559 - 7570
Main Authors Khan, Sami Ullah, Usman, Al-Khaled, Kamel, Hussain, Syed Modassir, Ghaffari, Abuzar, Khan, M. Ijaz, Ahmed, M. Waqar
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.06.2022
Springer Nature B.V
Subjects
Activation energy
Convective flow
Engineering
Humanities and Social Sciences
Inspection
Microorganisms
multidisciplinary
Nanoengineering
Nanofluids
Nanomaterials
Nanoparticles
Research Article-Physics
Science
Shooting algorithms
Slip
Temperature
Temperature dependence
Thermal radiation
Viscosity
Numerical method
Maxwell nanofluid
Bioconvection flow
Temperature-dependent viscosity
Activation energy
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Abstract In the era of nano-engineering, the decomposition of nanoparticles with base liquids enhances the thermal performances of such base materials. Owing to the tremendous demand for high thermal performances in industries, the use of nanoparticles becomes more fascinating. In most nanofluid analyses, the thermal inspection of non-Newtonian is based on the assumption of constant viscosity. However, considering viscosity as a function of temperature is more beneficial to improve the transportation of mass and heat transfer phenomenon. This theoretical analysis addresses the narrative role of partial slip and temperature-dependent viscosity in the bioconvection assessment of Maxwell nanofluid confined by a stretched surface. The nonlinear thermal radiation and activation energy applications are encounter as a novel impact. The formulated set of coupled and nonlinear flow problems is numerically presented with proper execution of shooting algorithm. The comparative task for verifications is done against previous investigations with excellent confirmation claim. The graphical exploration because of flow parameters is reported for the nanofluid velocity, temperature, concentration, and microorganisms. The observations are summarized in the conclusion part.
AbstractList In the era of nano-engineering, the decomposition of nanoparticles with base liquids enhances the thermal performances of such base materials. Owing to the tremendous demand for high thermal performances in industries, the use of nanoparticles becomes more fascinating. In most nanofluid analyses, the thermal inspection of non-Newtonian is based on the assumption of constant viscosity. However, considering viscosity as a function of temperature is more beneficial to improve the transportation of mass and heat transfer phenomenon. This theoretical analysis addresses the narrative role of partial slip and temperature-dependent viscosity in the bioconvection assessment of Maxwell nanofluid confined by a stretched surface. The nonlinear thermal radiation and activation energy applications are encounter as a novel impact. The formulated set of coupled and nonlinear flow problems is numerically presented with proper execution of shooting algorithm. The comparative task for verifications is done against previous investigations with excellent confirmation claim. The graphical exploration because of flow parameters is reported for the nanofluid velocity, temperature, concentration, and microorganisms. The observations are summarized in the conclusion part.
Author Al-Khaled, Kamel
Hussain, Syed Modassir
Khan, M. Ijaz
Ahmed, M. Waqar
Ghaffari, Abuzar
Khan, Sami Ullah
Usman
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  givenname: M. Waqar
  surname: Ahmed
  fullname: Ahmed, M. Waqar
  organization: Department of Physics, Riphah International University
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Keywords Numerical method
Maxwell nanofluid
Bioconvection flow
Temperature-dependent viscosity
Activation energy
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Snippet In the era of nano-engineering, the decomposition of nanoparticles with base liquids enhances the thermal performances of such base materials. Owing to the...
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SubjectTerms Activation energy
Convective flow
Engineering
Humanities and Social Sciences
Inspection
Microorganisms
multidisciplinary
Nanoengineering
Nanofluids
Nanomaterials
Nanoparticles
Research Article-Physics
Science
Shooting algorithms
Slip
Temperature
Temperature dependence
Thermal radiation
Viscosity
Title Implication of Arrhenius Activation Energy and Temperature-Dependent Viscosity on Non-Newtonian Nanomaterial Bio-Convective Flow with Partial Slip
URI https://link.springer.com/article/10.1007/s13369-021-06274-3
https://www.proquest.com/docview/2673004754
Volume 47
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