Nuclear Reactor Physics
2nd Edition
Published on 11. May 2007
Book
Hardback
XXVIII, 707 pages
978-3-527-40679-1 (ISBN)
Description
Nuclear reactor physics is the core discipline of nuclear engineering. Nuclear reactors now account for a significant portion of the electrical power generated worldwide, and new power reactors with improved fuel cycles are being developed. At the same time, the past few decades have seen an ever-increasing number of industrial, medical, military, and research applications for nuclear reactors. The second edition of this successful comprehensive textbook and reference on basic and advanced nuclear reactor physics has been completely updated, revised and enlarged to include the latest developments.
Dieses Werk über Kernreaktorphysik wurde für die Neuauflage überarbeitet, korrigiert und erweitert. Mehr Informationen erwarten den Leser jetzt zur Wiederaufarbeitung von Kernbrennstoffen, zu Reaktoren der gegenwärtig erprobten Generation IV, zur Reaktoranalyse (auch computergestützt) und zur Transporttheorie. In den Anhängen D und F werden die Laplace-Transformation und Besselfunktionen ausführlicher erklärt.
Dieses Werk über Kernreaktorphysik wurde für die Neuauflage überarbeitet, korrigiert und erweitert. Mehr Informationen erwarten den Leser jetzt zur Wiederaufarbeitung von Kernbrennstoffen, zu Reaktoren der gegenwärtig erprobten Generation IV, zur Reaktoranalyse (auch computergestützt) und zur Transporttheorie. In den Anhängen D und F werden die Laplace-Transformation und Besselfunktionen ausführlicher erklärt.
Reviews / Votes
From reviews of the first edition: "...Stacey...developed the material in Part I dealing with basic concepts and theory, in teaching undergraduate and first-year graduate students... Part II is a more mathematically intense treatment of advanced topics." (SciTech Book News) "The first comprehensive book on the subject in 25 years." (La Doc STI) "I hope that the publication of this impressive text, whose strength lies in its breadth and it modernity, will accompany a renewed interest in nuclear power expressed through fission reactors." (Physics Today)More details
Other editions
New editions
Weston M. Stacey
Nuclear Reactor Physics
Book
04/2018
3rd Edition
Wiley-VCH
€195.00
Shipment within 5-7 days
Additional editions
Weston M. Stacey
Nuclear Reactor Physics
E-Book
06/2007
2nd Edition
Wiley-VCH
€156.99
Available for download
Previous edition
Weston M. Stacey
Nuclear Reactor Physics
Book
02/2001
1st Edition
Wiley
€135.00
Article exhausted; check for reprint
Person
Weston M. Stacey is Professor of Nuclear Engineering at the Georgia Institute of Technology. His career spans more than 40 years of research and teaching in nuclear reactor physics, fusion plasma physics and fusion and fission reactor conceptual design. He led the IAEA INTOR Workshop (1979-88) that led to the present ITER project, for which he was awarded the US Department of Energy Distinguished Associate Award and two Department of Energy Certificates of Appreciation. Professor Stacey is a Fellow of the American Nuclear Society and of the American Physical Society. He is the recipient of several prizes, among them the American Nuclear Society Seaborg Medal for Nuclear Research and the Wigner Reactor Physics Award, and the author of six previous books and numerous research papers.
Content
Preface
Part 1: Basic Reactor Physics
1. Neutron Nuclear Reactions
2. Neutron Chain Fission Reactors
3. Neutron Diffusion Theory
4. Neutron Energy Distribution
5. Nuclear Reactor Dynamics
6. Fuel Burnup
7. Nuclear Power Reactors
8. Reactor Safety
Part2: Advanced Reactor Physics
9. Neutron Transport Theory
10. Neutron Slowing Down
11. Resonance Absorption
12. Neutron Thermalization
13. Perturbation and Variational Methods
14. Homogenization
15. Nodal and Synthesis Methods
16. Space-Time Neutron Kinetics
Appendices
A. Some Useful Nuclear Data
B. Some Useful Mathematical Formulas
C. Step Functions, Delta Functions, and Other Exotic Beasts
D. Some Properties of Special Functions
E. Introduction to Matrices and Matris Algebra
F. Introduction to Laplace Transforms
Part 1: Basic Reactor Physics
1. Neutron Nuclear Reactions
2. Neutron Chain Fission Reactors
3. Neutron Diffusion Theory
4. Neutron Energy Distribution
5. Nuclear Reactor Dynamics
6. Fuel Burnup
7. Nuclear Power Reactors
8. Reactor Safety
Part2: Advanced Reactor Physics
9. Neutron Transport Theory
10. Neutron Slowing Down
11. Resonance Absorption
12. Neutron Thermalization
13. Perturbation and Variational Methods
14. Homogenization
15. Nodal and Synthesis Methods
16. Space-Time Neutron Kinetics
Appendices
A. Some Useful Nuclear Data
B. Some Useful Mathematical Formulas
C. Step Functions, Delta Functions, and Other Exotic Beasts
D. Some Properties of Special Functions
E. Introduction to Matrices and Matris Algebra
F. Introduction to Laplace Transforms