Modelling in Transport Phenomena 1st Edition by Gianpaolo Ruocco ISBN 0080549500 9780080549507 by Ismail Tosun 0444510524, 9780444510525 instant download after payment.

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ISBN 10: 0080549500 
ISBN 13: 9780080549507
Author: Gianpaolo Ruocco

This textbook offers an introduction to multiple, interdependent transport phenomena as they occur in various fields of physics and technology like transport of momentum, heat, and matter. These phenomena are found in a number of combined processes in the fields of chemical, food, biomedical, and environmental sciences. The book puts a special emphasis on numerical modeling of both purely diffusive mechanisms and macroscopic transport such as fluid dynamics, heat and mass convection.
To favor the applicability of the various concepts, they are presented with a simplicity of exposure, and synthesis has been preferred with respect to completeness. The book includes more than 130 graphs and figures, to facilitate the understanding of the various topics. It also presents many modeling examples throughout the text, to control that the learned material is properly understood.

Modelling in Transport Phenomena 1st Table of contents:

Part I: Fundamental Concepts and Conservation Laws

• Chapter 1: Introduction to Transport Phenomena and Modelling
  • What are Transport Phenomena? (Momentum, Heat, Mass)
  • The Role of Mathematical Modelling in Chemical Engineering and Beyond
  • Types of Models: Empirical, Semi-Empirical, Phenomenological, First-Principles
  • The Modelling Process: From Problem Definition to Solution
  • Units, Dimensions, and Dimensional Homogeneity
• Chapter 2: The Conservation Laws
  • The Reynolds Transport Theorem
  • Conservation of Mass (Continuity Equation)
  • Conservation of Momentum (Newton's Second Law for Fluid Elements)
  • Conservation of Energy (First Law of Thermodynamics for Fluid Elements)
  • Conservation of Species (Mass Balance for Components)
• Chapter 3: Constitutive Equations and Transport Properties
  • Newton's Law of Viscosity (Momentum Transport)
  • Fourier's Law of Heat Conduction (Heat Transport)
  • Fick's Law of Diffusion (Mass Transport)
  • Rheology of Non-Newtonian Fluids
  • Temperature and Concentration Dependence of Properties

Part II: Momentum Transport (Fluid Flow Modelling)

• Chapter 4: Introduction to Fluid Dynamics and the Navier-Stokes Equations
  • Stress Tensor and Velocity Gradients
  • Derivation of the Navier-Stokes Equations
  • Boundary Conditions for Fluid Flow
  • Simplifying the Navier-Stokes Equations: Assumptions and Approximations
• Chapter 5: Laminar Flow Models
  • Flow in Pipes and Channels (Poiseuille Flow)
  • Flow Around Submerged Objects (Creeping Flow)
  • Film Flow on Inclined Surfaces
  • Lubrication Theory
• Chapter 6: Turbulent Flow Modelling
  • Introduction to Turbulence: Characteristics and Challenges
  • Reynolds Averaged Navier-Stokes (RANS) Equations
  • Turbulence Models (k-epsilon, k-omega, Reynolds Stress Models)
  • Large Eddy Simulation (LES) and Direct Numerical Simulation (DNS) (Brief Overview)

Part III: Heat Transport (Heat Transfer Modelling)

• Chapter 7: Conduction Heat Transfer Modelling
  • The Heat Conduction Equation (Cartesian, Cylindrical, Spherical Coordinates)
  • Steady-State Conduction: 1D and Multi-D Problems
  • Transient Conduction: Lumped Capacitance, Semi-Infinite Solids
  • Heat Generation and Boundary Conditions
• Chapter 8: Convection Heat Transfer Modelling
  • Forced Convection: Boundary Layer Theory, Empirical Correlations
  • Natural (Free) Convection: Buoyancy-Driven Flows
  • Heat Transfer Coefficients and Analogies
  • Modelling Heat Exchangers (LMTD, Effectiveness-NTU Methods)
• Chapter 9: Radiation Heat Transfer Modelling
  • Blackbody Radiation, Emissivity, Absorptivity
  • View Factors
  • Radiation Exchange between Surfaces
  • Combined Modes of Heat Transfer

Part IV: Mass Transport (Mass Transfer Modelling)

• Chapter 10: Diffusion Mass Transfer Modelling
  • Fick's Second Law of Diffusion
  • Steady-State Molecular Diffusion in Various Geometries
  • Unsteady-State Diffusion
  • Diffusion in Porous Media
• Chapter 11: Convective Mass Transfer Modelling
  • Mass Transfer Coefficients and Analogies
  • Interphase Mass Transfer: Gas-Liquid, Liquid-Liquid, Solid-Fluid
  • Modelling Absorption, Stripping, and Distillation
  • Adsorption and Ion Exchange Models

Part V: Coupled and Advanced Modelling Topics

• Chapter 12: Simultaneous Heat, Mass, and Momentum Transport
  • Coupled Transport Equations: Energy and Species Balances with Flow
  • Drying and Evaporation Processes
  • Combustion Modelling (Reactive Flows - Introduction)
  • Multiphase Flow Modelling (Gas-Liquid, Liquid-Solid Systems)
• Chapter 13: Dimensional Analysis and Scaling
  • Buckingham Pi Theorem
  • Dimensionless Numbers (Reynolds, Nusselt, Sherwood, Peclet, Schmidt, etc.)
  • Scaling Up and Down in Engineering Design
  • Similarity Criteria
• Chapter 14: Introduction to Numerical Methods for Transport Phenomena
  • Finite Difference Method (FDM)
  • Finite Volume Method (FVM)
  • Introduction to Computational Fluid Dynamics (CFD)
  • Discretization Techniques and Grid Generation
  • Solving Coupled Systems of Equations
• Chapter 15: Case Studies and Applications
  • Modelling in Chemical Reactors
  • Environmental Transport (Pollutant Dispersion)
  • Biomedical Applications (Blood Flow, Drug Delivery)
  • Food Processing and Manufacturing
  • Emerging Areas in Transport Phenomena Modelling

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Tags: Gianpaolo Ruocco, Modelling, Phenomena