Experimental Nuclear Reactor Analysis: Theory, Numerical Models and Experimental Analysis presents a consolidated resource on reactor analysis, comprising theoretical concepts of reactor physics, dynamics and thermal-hydraulics. Sections cover various theoretical aspects required for the development of a computational model and experimental activities such as nuclear reactor physics, dynamics and control, and nuclear thermal hydraulics. They then apply these aspects to develop computational tools for modeling the thermal-hydraulic and neutronic behavior of reactors and explore experiments designed to verify results. This book serves as a complete guide, providing important theoretical background followed by more advanced exploration and analysis of experimental procedures and applications.Where readers do not have access to a test facility, the knowledge and practical understanding obtained from this book will ensure they are equipped with a very detailed insight and understanding of experimental reactor analysis that is ready to apply to their own research and professional projects.

• Includes coverage of the computational models for the prediction of nuclear reactor neutronics and thermal-hydraulics
• Presents a description of experimental setup and procedure using TRIGA reactor and detailed analysis of obtained results and validation of computational predictions
• Contains exercises and applications throughout to deepen knowledge and understanding