Heat transfer engineering : fundamentals and techniques /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Balaji, C. (Mechanical engineer) (Autor), Srinivasan, Balaji, 1967- (Autor), Gedupudi, Sateesh (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Academic Press, 2020.
Temas:
Heat > Transmission.
Chaleur > Transmission.
heat transmission.
Heat > Transmission
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title
  • Copyright
  • Dedication
  • Contents
  • Preface
  • Chapter 1
  • Introduction
  • 1.1
  • Thermodynamics and heat transfer
  • 1.2
  • Heat transfer and its applications
  • 1.3
  • Modes of heat transfer
  • 1.4
  • Conduction
  • 1.5
  • Convection
  • 1.5.1
  • Mechanism of convection
  • 1.6
  • Thermal radiation
  • 1.7
  • Combined modes of heat transfer
  • 1.8
  • Phase-change heat transfer
  • 1.9
  • Concept of continuum
  • Problems
  • References
  • Chapter 2
  • One-dimensional, steady state heat conduction
  • 2.1
  • Introduction
  • 2.2
  • Three-dimensional conduction equation
  • 2.2.1
  • Boundary conditions
  • 2.3
  • Steady state, one-dimensional conduction in a few commonly encountered systems
  • 2.3.1
  • Heat transfer in a plane wall
  • 2.4
  • Electrical analogy and thermal resistance
  • 2.5
  • Heat transfer in cylindrical coordinates
  • 2.5.1
  • Critical radius of insulation for cylinder
  • 2.6
  • Steady state conduction in a spherical shell
  • 2.7
  • Steady state conduction in a composite wall, cylinder and sphere
  • 2.7.1
  • Composite wall
  • 2.7.1.1
  • Parallel connection
  • 2.7.1.2
  • Series-parallel connection
  • 2.7.1.3
  • Thermal contact resistance
  • 2.7.2
  • Composite cylinder
  • 2.7.3
  • Composite sphere
  • 2.8
  • One-dimensional, steady state heat conduction with heat generation
  • 2.8.1
  • Plane wall with heat generation
  • 2.9
  • Fin heat transfer
  • 2.10
  • Analysis of fin heat transfer
  • 2.10.1
  • Case 1: Insulated tip
  • Fin efficiency
  • Effectiveness of the fin
  • Rectangular fin
  • 2.10.2
  • Case 2: Long fin
  • 2.10.3
  • Case 3: Convecting tip
  • 2.10.4
  • Variable area fins
  • References
  • Chapter 3
  • Conduction: One-dimensional transient and two-dimensional steady state
  • 3.1
  • Introduction
  • 3.2
  • Lumped capacitance method
  • 3.3
  • Semi-infinite approximation
  • 3.4
  • The method of separation of variables
  • 3.5
  • Analysis of two-dimensional, steady state systems
  • References
  • Chapter 4
  • Fundamentals of convection
  • 4.1
  • Introduction
  • 4.2
  • Fundamentals of convective heat transfer
  • 4.2.1
  • Conduction, advection, and convection
  • 4.2.2
  • The microscopic picture
  • 4.2.3
  • Fundamental definition of convection
  • 4.3
  • The heat transfer coefficient
  • 4.3.1
  • Newton's law vs. the fundamental definition
  • 4.3.2
  • Average heat transfer coefficient
  • 4.3.3
  • Methods of estimating the heat transfer coefficient
  • 4.4
  • Governing equations
  • 4.4.1
  • General approach to conservation laws
  • 4.4.2
  • Law of conservation of mass
  • 4.4.3
  • Momentum equations
  • 4.4.4
  • Energy equation
  • 4.4.5
  • Summary of equations
  • 4.5
  • Summary
  • References
  • Chapter 5
  • Forced convection
  • 5.1
  • Introduction
  • 5.2
  • Approximation using order of magnitude analysis
  • 5.3
  • Nondimensionalization of the governing equations
  • 5.4
  • Approximate solution to the boundary layer equations
  • Solution to integral momentum and energy equations with trial velocity and temperature profiles
  • Integral method for fluids with

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