Thermofluids

Thermofluids

From Nature to Engineering

Ting, David

Elsevier Science & Technology

04/2022

434

Mole

Inglês

9780323906265

15 a 20 dias

700

Descrição não disponível.
Part 1 Introduction 1. Thermofluids 2. Energy and Thermodynamics 3. Moving Fluids 4. The Transfer of Thermal Energy

Part 2 An Ecological View on Engineering Thermodynamics 5. The Four Laws of Ecology 6. The First Law of Thermodynamics 7. The Second Law of Thermodynamics

Part 3 Environmental and Engineering Fluid Mechanics 8. Fluid Statics 9. Bernoulli Flow 10. Newton's Second Law Analysis 11. Internal Flows 12. External Flows

Part 4 Ecophysiology-flavored Engineering Heat Transfer 13. Steady Conduction of Thermal Energy 14. Transient Conduction of Thermal Energy 15. Natural Convection 16. Forced Convection 17. Thermal Radiation 18. Heat Exchangers
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Thermofluids; Thermodynamics; Fluid mechanics; Heat transfer; Dimensions; Units; Energy conservation; Energy quality; Thermodynamic systems; Thermodynamic state and properties; Fluid; Continuum fluid; Natural fluid; Newtonian fluids; Categorization of fluid motions; Thermal energy; Specific heat; Conduction; Convection; Radiation; Ecology; Thermoregulation; Endotherms; Ectotherms; Intelligent designs; Energy; Open, closed, and isolated systems; Work versus heat transfer; Moving-boundary work; Enthalpy; Internal energy; Thermodynamic cycle; Carnot cycle; Thermodynamic laws; Entropy and disorder; Thermal reservoirs; Heat engine; Carnot engine; Reverse heat engine; Fluid statics; Manometers; Barometers; Hydrostatic; Buoyancy; Stability of floats; Streamline; Streakline; Pathline; Bernoulli equation; Static pressure; Stagnation pressure; Dynamic pressure; Total pressure; Energy grade line; Hydraulic grade line; Dimensional homogeneity; Dimensional analysis; Buckingham Pi theorem; Dimensionless parameters; Internal flow; Laminar pipe flow; Turbulent pipe flow; Entrance length; Head loss; Major losses; Minor losses; Friction factor; Moody chart; External flows; Lift; Drag; Boundary layer; Flat plate; Bluff body aerodynamics; Vortex shedding; Streamlining; Flow around a circular cylinder; Fourier's law of heat conduction; Steady conduction; Thermal conductivity; Parallel-path method; Isothermal-plane method; Lumped system; Biot number; Transient heat conduction; Semi-infinite wall; Natural convection; Thermals; Rayleigh-Bernard convection; Natural convection along a vertical plate; Thermal plumes; Thermal jets; Forced convection; Convection heat transfer coefficient; Nusselt number; Reynolds number; Prandtl number; Constant-temperature boundary condition; Uniform-heat-flux boundary condition; Forced convection-wall shear relation;