Introduction to nuclear engineering 3rd Edition by Anthony John Baratta, John R Lamarsh ISBN 1292025816 9781292025810
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ISBN 10: 1292025816
ISBN 13: 9781292025810
Author: Anthony John Baratta, John R Lamarsh
Introduction to nuclear engineering 3rd Table of contents:
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Chapter 1: The Atomic Nucleus
- 1.1 Introduction
- 1.2 Nuclear Structure and Properties
- 1.3 Nuclear Forces
- 1.4 Nuclear Stability and Radioactive Decay
- 1.5 Binding Energy and Mass Defect
- 1.6 Nuclear Reactions
- 1.7 Radiation and its Interaction with Matter
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Chapter 2: Interaction of Radiation with Matter
- 2.1 Introduction
- 2.2 Charged Particle Interactions (Heavy Charged Particles, Electrons)
- 2.3 Photon Interactions (Photoelectric Effect, Compton Scattering, Pair Production)
- 2.4 Neutron Interactions (Scattering, Absorption, Fission)
- 2.5 Attenuation Coefficients
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Chapter 3: Nuclear Reactors and Nuclear Power
- 3.1 Introduction
- 3.2 Components of a Nuclear Reactor
- 3.3 Types of Nuclear Reactors (PWR, BWR, CANDU, Gas-Cooled, etc.)
- 3.4 The Fission Chain Reaction
- 3.5 Reactor Criticality
- 3.6 Reactor Control
- 3.7 Reactor Safety and Licensing
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Chapter 4: The Fission Process
- 4.1 The Fission Reaction
- 4.2 Fission Products and Fission Yields
- 4.3 Energy Release from Fission
- 4.4 Prompt and Delayed Neutrons
- 4.5 Neutron Life Cycle
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Chapter 5: Diffusion of Neutrons
- 5.1 Introduction to Neutron Transport
- 5.2 The Diffusion Equation
- 5.3 Solutions to the Diffusion Equation for Simple Geometries
- 5.4 Boundary Conditions
- 5.5 The Diffusion Length
- 5.6 Multigroup Diffusion Theory (briefly)
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Chapter 6: Reactor Kinetics
- 6.1 The Point Reactor Kinetic Equations
- 6.2 Reactor Period
- 6.3 Reactivity and Reactivity Feedback
- 6.4 Reactor Transients
- 6.5 Reactor Control Systems
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Chapter 7: Heat Removal from Nuclear Reactors
- 7.1 Introduction to Reactor Thermal-Hydraulics
- 7.2 Heat Generation in a Reactor Core
- 7.3 Heat Transfer Mechanisms in Reactors
- 7.4 Coolant Systems
- 7.5 Temperature Distribution in Reactor Fuel Elements
- 7.6 Boiling Heat Transfer and Critical Heat Flux
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Chapter 8: Radiation Protection
- 8.1 Introduction
- 8.2 Units of Radiation Dose
- 8.3 Biological Effects of Radiation
- 8.4 Radiation Exposure Limits and Regulations
- 8.5 Radiation Shielding Principles
- 8.6 Dosimetry
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Chapter 9: Reactor Shielding
- 9.1 Introduction
- 9.2 Gamma Ray Shielding
- 9.3 Neutron Shielding
- 9.4 Shielding Materials
- 9.5 Design of Reactor Shields
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Chapter 10: Reactor Materials
- 10.1 Introduction
- 10.2 Fuel Materials (Uranium, Plutonium, Thorium)
- 10.3 Cladding Materials
- 10.4 Moderator Materials
- 10.5 Coolant Materials
- 10.6 Structural Materials
- 10.7 Effects of Radiation on Materials
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Chapter 11: Nuclear Fuel Cycle
- 11.1 Introduction
- 11.2 Uranium Mining and Milling
- 11.3 Uranium Enrichment
- 11.4 Fuel Fabrication
- 11.5 Reactor Operation and Fuel Burnup
- 11.6 Spent Nuclear Fuel Management
- 11.7 Reprocessing
- 11.8 Radioactive Waste Management and Disposal
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Chapter 12: Nuclear Fusion
- 12.1 Introduction to Fusion
- 12.2 Fusion Reactions
- 12.3 Conditions for Fusion (Lawson Criterion)
- 12.4 Magnetic Confinement Fusion (Tokamaks, Stellarators)
- 12.5 Inertial Confinement Fusion
- 12.6 Fusion Reactor Concepts and Challenges
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