Thermofluids
-10%
portes grátis
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
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
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;
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
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
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
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;
