Tritium Technologies for Thermonuclear Fusion Reactors
Auteurs : Perevezentsev Alexander, Rozenkevich Mikhail
Tritium Technologies for Thermonuclear Fusion Reactors summarizes the most recent research and practice in tritium technologies for the processing of hydrogen isotopes in fuel cycles. Authors Dr. Perevezentsev and Professor Rozenkevich combine their wealth of first-hand experience to present this comprehensive guide which promotes the best radiation protection practices and a more sustainable way to produce power in a thermonuclear reactor plant. Applicable to both magnetic and inertial confinements of plasma, this book covers tritium processing systems, tritium recovery from the plasma chamber, and various safety systems devoted to lessening the impact on the public and environment.
The readers are also led through various modeling techniques, such as the separation of hydrogen isotopes, and the detritiation of liquid and gaseous streams in dynamic and steady state operation modes. This book is a practical guide which includes various case studies and examples which will help solidify the reader?s learning. It combines the latest research of tritium technologies with applications for fusion nuclear reactors, and includes solutions and directions for the resolution of various common challenges faced. Engineers, researchers, and students of tritium technologies, fusion energy, and nuclear power generation will gain a detailed and integrated understanding of how tritium can be used within a nuclear setting, for cleaner and more efficient power generation.
1. Purpose of the fuel cycle for fusion reactor2. Fuel storage and supply3. Processing unburned plasma4. Separation of hydrogen isotopes5. Tritium recovery from components of plasma chamber6. Fuel cycle of fusion reactor - protection of personnel, public and the environment7. Modelling of fuel cycle and safety systems
Mikhail ROZENKEVICH is professor and Head of the Department of Hydrogen Energy and Technology of Isotopes at Russian Mendeleev University of Chemical Technology, Moscow. He is an expert of Russian state corporations “Rosatom and “Rosnanotech, as well as a recognized expert in separation of isotopes of light elements. Professor Rozenkevich is author of more than 350 publications, including the monograph Separation of Isotopes of Biogenic Elements in Two-phases Systems published by Elsevier.
- Guides the reader through problem solving via step-by-step processes and models
- Includes case studies and examples throughout, from two of the most recognized experts in the field with firsthand knowledge of the subject
- Presents a comprehensive, practical reference on the tritium fuel cycle for fusion reactors
Date de parution : 06-2021
Ouvrage de 366 p.
15x22.8 cm
Thèmes de Tritium Technologies for Thermonuclear Fusion Reactors :
Mots-clés :
Nuclear energy; fusion reactors; fusion fuel cycle; tritium processing; tritium safety; radiological protection; tritium confinement; nuclear safety; tritium recovery; waste disposal; tritium technologies; Tritium removal technologies; Treatment of tritiated water; tritium inventory; tritium recycling; fuel storage; fuel supply; plasma; hydrogen isotopes; thermodynamics; separation techniques; Cryogenic distillation