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Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
Radiation shielding is a key subsystem in tokamak reactors. Design of this shield must evolve from economic and technological trade-off studies that account for the strong interrelations among the various components of the reactor system. These trade-offs are examined for the bulk shield on the inner side of the torus and for the special shields of major penetrations. Results derived are applicable for a large class of tokamak-type reactors.
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
Radiation shielding is a key subsystem in tokamak reactors. Design of this shield must evolve from economic and technological trade-off studies that account for the strong interrelations among the various components of the reactor system. These trade-offs are examined for the bulk shield on the inner side of the torus and for the special shields of major penetrations. Results derived are applicable for a large class of tokamak-type reactors.
Author: Rafael Juarez Manas Publisher: Woodhead Publishing ISBN: 9780081027967 Category : Technology & Engineering Languages : en Pages : 400
Book Description
Advances in Radiation Shielding for Fusion Reactors provides complete guidance on radiation shielding principles and their application to nuclear fusion facilities, incorporating the lessons learnt from the design and construction of the latest major modern nuclear fusion facilities such as ITER. It provides an insight of the main challenges and the computational approach to deal with them efficiently. Although applicable to general radiation shielding problems, specific attention is given to problems associated with conceptual fusion reactors. This includes neutron and gamma-ray shielding in deep penetration and streaming geometries, activation, radio-active waste, occupational radiation exposure and ALARA. Descriptions of shielding issues for fusion reactors, and shielding principles and strategies, and lessons learnt from the conception and construction of ITER Advanced and modern computation methods to predict and analyse radiation fields in 3D to identify shielding needs or validate shielding proposals Revision of the main sources of uncertainty to be considered in these calculations and a methodology to determine and apply safety factors to mitigate the impact of uncertainties
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
An optimization study is carried out for the outboard bulk shielding of the STARFIRE reactor. The optimization criteria used include: (1) reactor accessibility shortly after shutdown; (2) minimization of high-level long-term induced activation; and (3) radiation protection of reactor components. It is shown that with a 1.1 m-thick shield, the biological dose inside the reactor room decreases to approx. 1.5 mrem/h within 24 h after shutdown. It is also shown that more than 90% of the total mass of the radioactive material inventory in STARFIRE has a high potential for recycling within 30 to 50 yr after component replacement or reactor decommissioning.
Author: Cameron T. French Publisher: ISBN: Category : Languages : en Pages : 28
Book Description
A significant effort is being made by fusion researchers to minimize the total size of magnetic fusion devices on the path toward developing fusion energy. The spherical tokamak, which has a very low aspect ratio, is the most promising of the compact magnetic fusion reactor designs. This compactness imposes a severe material constraint on the design, as a highly compact device will have very thin inner shielding. This inner shielding, which in traditional designs is required to be around 1 meter thick, acts to protect the central solenoid and return toroidal field coil legs from material damage and nuclear heating resulting from high neutron fluxes. The use of a sub-meter inner shield creates potential for the design of a proof of principle magnetic fusion device, sacrificing the central component materials for a demonstration of temporary fusion power production. The nuclear heating of thin shields (~ 0.1 - 0.2m) of various compositions was explored using the Monte Carlo N-Particle (MCNP) transport code. The principal finding was that nuclear heating is the largest concern to the central inboard components. Nuclear heating of these sensitive materials was found to be minimized by the use of a magnesium borohydride blanket with a tungsten first wall. The resulting nuclear heating density for a 100MW, R=1m D-T tokamak employing 0.1 - 0.2m shields is shown to have the potential to threaten the ability of such a device to sustain net electricity.
Author: Vasilij A. Glukhikh Publisher: Woodhead Publishing ISBN: 0081024711 Category : Technology & Engineering Languages : en Pages : 476
Book Description
Fundamentals of Magnetic Thermonuclear Reactor Design is a comprehensive resource on fusion technology and energy systems written by renowned scientists and engineers from the Russian nuclear industry. It brings together a wealth of invaluable experience and knowledge on controlled thermonuclear fusion (CTF) facilities with magnetic plasma confinement – from the first semi-commercial tokamak T-3, to the multi-billion international experimental thermonuclear reactor ITER, now in construction in France. As the INTOR and ITER projects have made an immense contribution in the past few decades, this book focuses on its practical engineering aspects and the basics of technical physics and electrical engineering. Users will gain an understanding of the key ratios between plasma and technical parameters, design streamlining algorithms and engineering solutions. - Written by a team of qualified experts who have been involved in the design of thermonuclear reactors for over 50 years - Outlines the most important features of the ITER project in France which is building the largest tokamak, including the design, material selection, safety and economic considerations - Includes data on how to design magnetic fusion reactors using CAD tools, along with relevant regulatory documents
Author: Thomas J. Dolan Publisher: Springer Science & Business Media ISBN: 1447155564 Category : Technology & Engineering Languages : en Pages : 816
Book Description
Magnetic Fusion Technology describes the technologies that are required for successful development of nuclear fusion power plants using strong magnetic fields. These technologies include: • magnet systems, • plasma heating systems, • control systems, • energy conversion systems, • advanced materials development, • vacuum systems, • cryogenic systems, • plasma diagnostics, • safety systems, and • power plant design studies. Magnetic Fusion Technology will be useful to students and to specialists working in energy research.
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Author: Rafael Juarez Manas
Author: Sergei Zimin
Author: S. Sato
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Author: Cameron T. French
Author: Vasilij A. Glukhikh
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Author: Thomas J. Dolan
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