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Introduction to Nuclear Reactor Physics

Langue : Anglais

Auteur :

Couverture de l’ouvrage Introduction to Nuclear Reactor Physics

INTRODUCTION TO NUCLEAR REACTOR PHYSICS is the most comprehensive, modern and readable textbook for this course/module. It explains reactors, fuel cycles, radioisotopes, radioactive materials, design, and operation. Chain reaction and fission reactor concepts are presented, plus advanced coverage including neutron diffusion theory. The diffusion equation, Fisk?s Law, and steady state/time-dependent reactor behavior. Numerical and analytical solutions are also covered. The text has full color illustrations throughout, and a wide range of student learning features.

1. Nuclear Power in the World Today 2. Neutrons and Other Important Particles of Reactor Physics 3. Nuclear Particles, Processes, and Reactions 4. Nuclear Cross Sections, Reaction Probabilities, and Reaction Rates 5. Cross Section Libraries and Sources of Practical Nuclear Data 6. Nuclear Fuels, Nuclear Structure, the Mass Defect, and Radioactive Decay 7. Nuclear Fission and Nuclear Energy Production 8. Neutron Slowing Down Theory, Neutron Moderators, and Reactor Coolants 9. The Neutron Multiplication Factor, the Reactivity, and the Four-Factor Formula 10. Neutron Leakage, Reactor Criticality, and the Six-Factor Formula 11. An Introduction to Neutron Diffusion Theory and Fick’s Law of Diffusion 12. Multigroup Neutron Diffusion Theory 13. Solutions to the Steady-State Neutron Diffusion Equation 14. Solving the Neutron Diffusion Equation with a Radioactive Source Term 15. Time-Dependent Reactors and Their Behavior 16. The Point Kinetics Approximation and the Inhour Equation 17. Burnup, Depletion, and Temperature Feedback 18. Long-Term Changes to the Reactivity of the Core 19. Fuel Assembly Homogenization and Reaction Rate Conservation 20. Control Rods, Burnable Poisons, and Chemical Shim 21. Fission Products, Xenon Transients, and Reactor Accidents 22. An Introduction to Neutron Transport Theory 23. The Monte Carlo Method and Its Applications to Nuclear Science and Engineering

Dr. Robert E. Masterson holds an M.S. and a PhD (ScD) in nuclear science and engineering from the Massachusetts Institute of Technology and a B.S. in physics from the University of Notre Dame. The author has published extensively in the Transactions of the ANS (the American Nuclear Society) and has been a member of the society for many years.

Dr. Masterson has also served over the years as Affiliate Professor of nuclear science and engineering at the Virginia Polytechnic Institute and has an extensive background in the fields of reactor safety, reactor design and analysis, reactor thermal hydraulics, numerical analysis, reactor physics, reactor dynamics, nuclear medicine, and nuclear particle transport. The author has more than 20 years of experience in the field of nuclear science and engineering and has worked for Westinghouse Nuclear Energy Systems at the Hanford site. He is president of a major technology consulting firm and is also the author of the book "Introduction to Nuclear Reactor Physics", which can also be obtained from CRC Press. In addition to his work in nuclear science and engineering, he has founded and cofounded several companies and has held many noteworthy management, advisory, and strategic positions.

His global email address is drbobmasters@gmail.com , where he welcomes additional feedback and suggestions regarding his books.

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