Advances in nuclear science and technology. Volume 5 /

Advances in Nuclear Science and Technology.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Henley, Ernest J. (Editor ), Lewins, Jeffery (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Academic Press, 1969.
Temas:
Nuclear engineering.
Nuclear physics.
G�enie nucl�eaire.
Physique nucl�eaire.
nuclear physics.
TECHNOLOGY & ENGINEERING > Mechanical.
Nuclear engineering
Nuclear physics
Periodicals
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Advances in Nuclear Science and Technology, Volume 5; Copyright Page; CONTRIBUTORS; PREFACE; Table of Contents; CONTENTS OF PREVIOUS VOLUMES; CHAPTER 1. OBJECTIVES AND DESIGN OF THE FAST FLUX FACILITY; I. Introduction; II. Objectives of the FFTF; III. FTR Nuclear Design Aspects; IV. FTR Mechanical Design Aspects; V. Fuel and Test Element Handling; VI. Present Status and Future Programs; References; CHAPTER 2. STABILITY ANALYSIS OF NONLINEAR SPACE DEPENDENT REACTOR KINETICS; I. Introduction; II. The Space-Time Kinetics Equations; III. Notation, Definitions, and Preliminaries
  • IV. Mathematical ConsiderationsV. Stability Techniques for Distributed Parameter Systems; VI. Examples and Applications to Various Feedback Models; VII. Conclusions; Acknowledgment; References; CHAPTER 3. METHODS AND DATA FOR REACTOR SHIELD CALCULATIONS; I. Introduction; II. Spherical Harmonics Expansion and Related Methods; III. Discrete Ordinates (SN); IV. Removal Cross Section; V. Transport-SlowingDown; VI. Multigroups Calculations; VII. The Moments Method; VIII. Gamma-RayBuildup Factors; IX. Neutron Attenuation Curves for Fission Sources; X. Geometrie Transformations; XI. Monte Carlo
  • XII. AlbedoXIII. Ducts and Voids; XIV. Secondary Gamma-Ray Dose; References; CHAPTER 4. VARIATIONAL METHODS IN NUCLEAR ENGINEERING; I. Introduction; II. What Is a Variational Principle?; III. The Equations of Euler; IV. Finding the Variational Problem; V. Variational Problems with Constraints; VI. The Method of Lewins and Pomraning; VII. Rayleigh-Ritz and Weighted Residual Methods; VIII. Discontinuous Approximations; IX. Extending the Domain; X. Canonical and Involutory Transformations of Variational Problems; XI. Bellman's Approach; XII. Transformation of Problems with Many Operators
  • XIII. DiscussionXIV. Extension of Canonical Principles-Use in Deriving Difference Equations; XV. Conclusion; References; CHAPTER 5. NUCLEAR POWER FOR SPACE APPLICATIONS; I. Introduction; II. Principal Isotope Systems; III. Principal Reactor Systems; IV. Other Systems; V. Radiators; VI. Concluding Remarks; Acknowledgment; References; CHAPTER 6. A ROUND-OFF FREE SOLUTION OF THE BOLTZMANN TRANSPORT EQUATION IN SLAB GEOMETRY; I. Introduction; II. A Brief Survey of Methods Employed for the Solution of the Transport Equation in Slab Geometry
  • III. Transformation of the Monoenergetic Transport EquationIV. An Example of Round-Off Error; V. A Round-Off Free Solution for the Monoenergetic One-Velocity Single-Region Transport Equation; VI. The Monoenergetic Distributed Source Problem; VII. The Multiregion Solution of the Slab Problem; VIII. Energy Dependence: The Slowing Down; IX. Applications of the Round-Off Free Solution; Appendix A; Appendix B: The Inverse of (MW); Acknowledgment; References; AUTHOR INDEX; SUBJECT INDEX

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