Thermofluids : From Nature to Engineering.

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Ting, David
Formato: Electrónico eBook
Idioma:Inglés
Publicado: San Diego : Elsevier Science & Technology, 2022.
Temas:
Thermofluids.
Thermofluids
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Intro
  • Title Page
  • Copyright
  • Dedication
  • Table of Contents
  • Textbook Cover Photo
  • List of figures
  • List of tables
  • Preface
  • Acknowledgments
  • Part 1 Introduction
  • Chapter 1 Thermofluids
  • Chapter Objectives
  • Nomenclature
  • Greek and other symbols
  • 1.1 What is Thermofluids?
  • 1.2 Thermodynamics, fluid mechanics, and heat transfer
  • 1.3 Dimensions and units
  • 1.4 Organization of the book
  • Problems
  • References
  • Chapter 2 Energy and thermodynamics
  • Chapter Objecives
  • Nomenclature
  • 2.1 The study of energy
  • 2.2 The conservation of energy
  • 2.3 The quality of energy
  • 2.4 Thermodynamic systems
  • 2.5 Thermodynamic state, equilibrium, and properties
  • Problems
  • References
  • Chapter 3 Moving fluids
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 3.1 What is a fluid?
  • 3.2 The continuum fluid
  • 3.3 Nature thrives in moving fluids
  • 3.4 What is viscosity?
  • 3.5 Newtonian fluids
  • 3.6 A classification of fluid motions
  • 3.7 Fluid mechanics textbooks
  • Problems
  • References
  • Chapter 4 The transfer of thermal energy
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 4.1 What is thermal energy?
  • 4.2 Specific heats
  • 4.3 Heat transfer versus thermodynamics
  • 4.4 The three heat transfer mechanisms
  • Problems
  • References
  • Part 2 An Ecological View on Engineering Thermodynamics
  • Chapter 5 The four laws of ecology
  • Chapter Objecives
  • Nomenclature
  • 5.1 What is ecology?
  • 5.2 The four laws of ecology
  • 5.3 Animal thermoregulation
  • 5.4 Learning from intelligent designs
  • Problems
  • References
  • Chapter 6 The first law of thermodynamics
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 6.1 Energy
  • 6.2 Thermodynamic systems
  • 6.3 Heat and work transfer
  • 6.4 Conservation of energy
  • 6.5 Moving boundary work
  • 6.6 Enthalpy.
  • 6.7 Thermodynamic cycle
  • Problems
  • References
  • Chapter 7 The second law of thermodynamics
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 7.1 Introduction
  • 7.2 One-way energy flow
  • 7.3 Entropy
  • 7.4 Heat source and sink
  • 7.5 Heat engine
  • 7.6 Reverse heat engines
  • Problems
  • References
  • Part 3 Environmental and Engineering Fluid Mechanics
  • Chapter 8 Fluid statics
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 8.1 What is pressure?
  • 8.2 Fluid statics
  • 8.3 Hydrostatic pressure
  • 8.4 Measuring pressure
  • 8.5 Hydrostatic force on a surface
  • 8.6 Buoyancy
  • Problems
  • References
  • Chapter 9 Bernoulli flow
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 9.1 Streamline, streakline, and pathline
  • 9.2 Streamline, streamtube, and Bernoulli's Wig
  • 9.3 The Bernoulli equation
  • 9.4 Bernoulli's pressures
  • 9.5 Flow rate measurements
  • 9.6 Energy line and hydraulic grade line
  • Problems
  • References
  • Chapter 10 Dimensional analysis
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 10.1 Dimensional homogeneity
  • 10.2 Scaling and dimensional analysis
  • 10.3 Buckingham Pi theorem
  • 10.4 Prevailing nondimensional parameters in fluid mechanics
  • 10.5 Some remarks on dimensional analysis
  • Problems
  • References
  • Chapter 11 Internal flow
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 11.1 Flow in a channel
  • 11.2 The Reynolds number and the type of pipe flow
  • 11.3 Developing pipe flow
  • 11.4 Fully developed horizontal pipe flow
  • 11.5 Fully developed inclined pipe flow
  • 11.6 Energy conservation and head loss in pipe flow
  • 11.7 Major and minor losses in pipe flow
  • Problems
  • References
  • Chapter 12 External flow
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 12.1 Everyday external flow.
  • 12.2 Lift and drag
  • 12.3 Boundary layer
  • 12.4 Flat plate boundary layer development
  • 12.5 Bluff body aerodynamics
  • Problems
  • References
  • Part 4 Ecophysiology-flavored Engineering Heat Transfer
  • Chapter 13 Steady conduction of thermal energy
  • Chapter Objecives
  • Nomenclature
  • 13.1 Fourier's law of heat conduction
  • 13.2 From electric resistance to thermal resistance
  • 13.3 One-dimensional heat conduction in cylindrical coordinates
  • 13.4 Heat conduction radially through a sphere
  • 13.5 Steady conduction through multilayered walls
  • 13.6 Multilayered inhomogeneous walls
  • Problems
  • References
  • Chapter 14 Transient conduction of thermal energy
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 14.1 A lumped system with homogeneous temperature
  • 14.2 Biot number
  • 14.3 One-dimensional transient problems
  • 14.4 Semi-infinite solid
  • Problems
  • References
  • Chapter 15 Natural convection
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 15.1 Natural convection and thermals
  • 15.2 Thermal expansion and buoyancy force
  • 15.3 Nondimensional parameters in natural convection
  • 15.4 The classical Rayleigh-Bernard convection
  • 15.5 Continuous thermal plumes and buoyant jets
  • 15.6 Free convection along a vertical plate
  • 15.7 Other free convection cases
  • Problems
  • References
  • Chapter 16 Forced convection
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 16.1 What is the force behind forced convection?
  • 16.2 The convection heat transfer coefficient
  • 16.3 Forcing heat to convect from a flat surface
  • 16.4 Primary parameters in forced convection
  • 16.5 Nusselt number, Reynolds number, and Prandtl number
  • 16.6 Nu-Re-Pr relationships
  • 16.7 Relating heat convection with flow shear at the wall
  • 16.8 Forced convection around a circular cylinder.
  • 16.9 Other nondimensional parameters of forced convection
  • 16.10 Internal forced convection
  • Problems
  • References
  • Chapter 17 Thermal radiation
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 17.1 The radiating Sun
  • 17.2 All bodies above absolute zero radiate heat
  • 17.3 Absorptivity, transmissivity, and reflectivity
  • 17.4 View or shape factors
  • 17.5 Further reading on thermal radiation
  • Problems
  • References
  • Chapter 18 Heat exchangers
  • Chapter Objecives
  • Nomenclature
  • Greek and other symbols
  • 18.1 Nature thrives by exploiting effective heat exchangers
  • 18.2 Counter-flow, parallel-flow, and crossflow heat exchangers
  • 18.3 Moving along a constant-temperature passage
  • 18.4 Heat exchange between a hot stream and a cold stream
  • 18.5 Log mean temperature difference
  • 18.6 Heat exchanger effectiveness and number of transfer units
  • Problems
  • References
  • Index.

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