Thermal Hydraulic Analysis of Nuclear Reactors 2nd Edition by Bahman Zohuri ISBN 3319538292 9783319538297

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ISBN 10:  3319538292
ISBN 13: 978-3319538297
Author:      Bahman Zohuri

Thermal Hydraulic Analysis of Nuclear Reactors 2nd Table of contents:

Chapter 1: An Introduction to Thermal-Hydraulic Aspects of Nuclear Power Reactors

1. Introduction
2. Basics Understanding of Thermal-Hydraulic Aspects
3. Units
   3.1 Fundamental Units
   3.2 Thermal Energy Units
   3.3 Unit Conversion
4. System Properties
   4.1 Density
   4.2 Pressure
   4.3 Temperature
5. Properties of the Atmosphere
6. The Structure of Momentum, Heat, and Mass Transport
7. Common Dimensionless Parameters
8. Computer Codes
   8.1 Probabilistic Risk Assessment Codes
   8.2 Fuel Behavior Codes
   8.3 Reactor Kinetics Codes
   8.4 Thermal-Hydraulic Codes
   8.5 Severe Accident Codes
   8.6 Design-Basis Accident Codes
   8.7 Emergency Preparedness and Response Codes
   8.8 Health Effects/Dose Calculation Codes
   8.9 Radionuclide Transport Codes
9. Problems
10. References

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Chapter 2: Thermodynamics

1. Introduction
2. Work
3. First Law of Thermodynamics
4. Enthalpy
5. Energy Equation
6. The Carnot Cycle
7. Entropy
8. Waste Heat Recovery
   8.1 Recuperator
   8.2 Heat Recovery Steam Generator
   8.3 Reheater
   8.4 Feed Water Heaters
   8.4.1 Open or Direct Contact Feed Water Heaters
   8.4.2 Closed Feed Water Heaters with Drain Pumped Forward Second Type
   8.4.3 Closed Feed Water Heaters with Drain Pumped Forward Third Type
9. Power Plant and Thermal Cycle
   9.1 Rankine Cycle for Power Plant
   9.2 Brayton Cycle for Power Plant
   9.3 The Combined Brayton-Rankine Cycle
10. Raising Boiler Pressure
11. Superheat
12. Regeneration
13. Conclusion
14. Problems
15. References

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Chapter 3: Transport Properties

1. Introduction
2. Theory of Viscosity, Newtonian and Non-Newtonian Fluids
3. Gas Viscosity at Low Density
4. Liquid Viscosity (Newtonian)
5. Liquid Viscosity (Non-Newtonian)
6. Thermal Conductivity Theory
7. Fundamental Modes of Heat Transfer
   7.1 Conduction
   7.2 Convection
   7.3 Radiation
8. Theory of Thermal Conductivity of Gases at Low Density
9. Theory of Thermal Conductivity of Liquids
10. Theory of Mass Diffusion
11. Problems
12. References

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Chapter 4: General Conservation Equations

1. Introduction
2. Conservation of Mass
   2.1 The Divergence or Gauss Theorem
   2.2 Substantial Time Derivative
3. Conservation of Momentum
4. Momentum Flux Expression
5. Dimensionless Formulation for Momentum Equation
6. The Equation of Mechanical Energy
7. Conservation of Energy
8. Dimensionless Formulation for Energy Equation
9. Control Volume Analysis
10. Problems
11. References

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Chapter 5: Laminar Incompressible Forced Convection

1. Introduction
2. Fully Developed Laminar Flow
3. Transient Laminar Forced Convection in Ducts
4. Fully Developed Laminar Flow in Other Cross-Sectional Shape Tubes
5. Non-Newtonian Tube Flow
6. Counter-Current Liquid-Vapor Flow in a Tube
7. Sudden Motion of Flow at a Wall
8. Stagnation Point Flow
9. Boundary-Layer Theory
10. Similarity Solutions for Boundary Layers
11. Integral Solutions for Boundary Layers
12. Creeping and Potential Flow
    12.1 Creeping Flow or Stokes Flow Theory
    12.2 Potential Flow Theory
13. Flow in Porous Media
14. Problems
15. References

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Chapter 6: Turbulent Forced Convection

1. Introduction
2. Time-Averaged Conservation Equations for Turbulent Flow in Duct
   2.1 Time Averaging of the Equation of Motion
3. The Laminar Sublayer and Outer Turbulent Region
4. The Turbulent Boundary Layer
5. Fully Developed Turbulent Flow in a Pipe
6. Turbulent Flow in Other Cross-Sectional Shape
7. Effects of Surface Roughness
8. Numerical Modeling of Turbulence
9. Friction Factors
10. Flow in Conduits
11. Flow Around Submerged Objects
12. Turbulent Flow in Noncircular Tubes
13. Flow in Pipes and Ducts
14. Flow in Rod Bundles
15. Flow Parallel to Rod Bundles
16. Pressure Drop Across Spacers
17. Flow Across Rod Bundles
18. Problems
19. References

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Chapter 7: Compressible Flow

1. Introduction
2. Gas Dynamics
3. Speed of Sound in a Compressible Fluid
4. Critical Flow in a Compressible Fluid
5. Ideal Gas Relationships for Adiabatic Compressible Flow
6. Rayleigh and Fanno Process for Compressible Flow
7. Water Hammer (Hydraulic Shock)
   7.1 Instantaneous Valve Closure
   7.2 Valve Closure over Finite Time Periods
8. Problems
9. References

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Chapter 8: Conduction Heat Transfer

1. Introduction
2. Basic Heat Conduction Equations
   2.1 A Compact Form of Basic Heat Conduction Equations
   2.2 Special Cases of Heat Conduction Equations
3. Heat Conduction in a Cylinder with a Uniform Heat Flux
   3.1 Heat Conduction in a Cylinder with a Uniform Heat Flux (with Cladding)
4. Composite Walls: Summed Resistance
5. Conduction in Complex Systems: Fuel Elements
   5.1 Thermal Properties of Fuels
6. Other Problem in Heat Conduction
7. Problems
8. References

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Chapter 9: Forced Convection Heat Transfer

1. Introduction
2. Heat Transfer in Laminar Tube Flow
3. Heat Transfer in Laminar Boundary Layers
4. Heat Transfer in Turbulent Tube Flow
5. Heat Transfer in High-Speed Laminar Boundary-Layer Flow along a Flat Plate
6. Problems
7. References

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Chapter 10: Natural or Free Convection

1. Introduction
   1.1 Free Convection from a Vertical Plate
2. Similarity Solution for the Convection Boundary Layers
3. Empirical Relationships for Free Convection
4. Natural Convection in Enclosure
   4.1 Enclosure Heated from the Side
   4.2 Enclosure Heated from Below
5. Natural Circulation
6. Laminar Film Condensation
7. Characteristic Free-Convection Velocity
8. Problems
9. References

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Chapter 11: Mass Transfer

1. Introduction
2. Theory of Mass Diffusion
3. Noncondensables Gases and Evaporation
4. Noncondensables Gases and Condensation
5. Problems
6. References

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Chapter 12: Thermal Radiation

1. Introduction
2. Radiation Absorption and Emission at Solid Surfaces
3. Radiation Between Black Bodies
4. Radiation Between Nonblack Bodies
5. Radiation Energy Transport in Absorbing Media
6. Increasing Heat Using Fins as Extension of Surface Area
7. Problems
8. References

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Chapter 13: Multiphase Flow Dynamics

1. Introduction
   1.1 Flow Patterns for Vertical Channels, Upward Cocurrent Flow
   1.2 Flow Patterns for Horizontal Channels
2. Standard Notation for Two-Phase Flow
3. Governing Equations for Two-Phase Flow
4. Homogeneous Equilibrium Model
5. Homogeneous Flow Friction Pressure Drop
6. Separated Flow Model
7. Separated Flow Friction Pressure Drop
8. Sound Speed and Choking for Isentropic Homogeneous Equilibrium Flows
9. One-Dimensional Separated Internal Phases Flows
10. Flow with Phase Change
11. Problems
12. References

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