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Ratio of Momentum Diffusivity to Thermal Diffusivity

Isaac Lare Animasaun | Nehad Ali Shah | Abderrahim Wakif | Basavarajappa Mahanthesh | Ramachandran Sivaraj | Olubode Kolade Koriko
€210.80
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A01=Abderrahim Wakif
A01=Basavarajappa Mahanthesh
A01=Isaac Lare Animasaun
A01=Nehad Ali Shah
A01=Olubode Kolade Koriko
A01=Ramachandran Sivaraj
advanced heat transfer in fluids
Alumina Water Nanofluid
Author_Abderrahim Wakif
Author_Basavarajappa Mahanthesh
Author_Isaac Lare Animasaun
Author_Nehad Ali Shah
Author_Olubode Kolade Koriko
Author_Ramachandran Sivaraj
boundary layer analysis
Buoyancy Forces
Category=PB
Category=PHU
Dimensionless Boundary Conditions
Dufour Number
energy transport processes
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eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
Fluid Mechanics
Forchheimer Number
Free Convection Flow
Free Stream
Heat Transfer Rate
Higher Prandtl Number
Hybrid Nanofluid
Lewis Number
Local Sherwood Number
Local Skin Friction
Local Skin Friction Coefficients
Marangoni Convection
mass transfer phenomena
Momentum Diffusivity
nanofluid dynamics
Nanofluid Flow
Nusselt Number
Nusselt Number Increases
Prandtl Number
Prandtl Number Increases
Sherwood Number
Soret Number
statistical regression methods
thermal conductivity modeling
Thermal Radiation Parameter
Viscous Dissipation
Viscous Fluid Flow

Product details

  • ISBN 9781032108520
  • Weight: 453g
  • Dimensions: 178 x 254mm
  • Publication Date: 26 Sep 2022
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Hardback
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Description

This book presents a systematic introduction, practical meaning, and measurement of thermo-physical properties (i.e. viscosity, density, thermal conductivity, specific heat capacity, and thermal diffusivity) associated with the Prandtl number. The method of slope linear regression through the data points is presented in this textbook as a methodology for a deeper and insightful scrutinization. The book serves as a reference book for scientific investigators, Teachers of Fluid Mechanics, Experts on Heat and Mass Transfer, Researchers on Boundary layer flows, Mechanical and Chemical Engineers, Physicists, and Postgraduate Students working on transport phenomena who need theoretical and empirical reviews on the impact of increasing the ratio of momentum diffusivity to thermal diffusivity.

Features:

  • A systematic overview of the state-of-the-art in statistical methodology for understanding changes between dependent and independent variables.

  • Pointers to some theoretical and empirical reviews on Prandtl number.

  • Presents in-depth analysis of various self-similar flows, emphasizing stretching induced flows, nanofluid dynamics, suction, injection, free convection, mixed convection, and forced convection.

  • Insightful study on thermal radiation, heat sour, heat sink, energy flux due to concentration gradient, mass flux due to temperature gradient, thermo-capillary convection flow, Joule heating, viscous dissipation, thermal stratification, thermophoresis, and Brownian motion of particles.
About Abderrahim Wakif | Basavarajappa Mahanthesh | Isaac Lare Animasaun | Nehad Ali Shah | Olubode Kolade Koriko | Ramachandran Sivaraj
Isaac Lare Animasaun, Basavarajappa Mahanthesh, Olubode Kolade Koriko

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