Biomagnetic effects: a consideration in fusion reactor development.
نویسندگان
چکیده
منابع مشابه
Biomagnetic effects: a consideration in fusion reactor development.
Fusion reactors will utilize powerful magnetic fields for the confinement and heating of plasma and for the diversion of impurities. Large dipole fields generated by the plasma current and the divertor and transformer coils will radiate outward for several hundred meters, resulting in magnetic fields up to 450 gauss in working areas. Since occupational personnel could be exposed to substantial ...
متن کاملA New Consideration on New Product Development Models
In order to achieve a successful new product, and certainly the successful implementation of a new product into a company, it is necessary to have a structured and documented approach to New Product Development (NPD), therefore providing a clear roadmap for the development of new products.New product development is a multi-stage process. Many different models with a varying number of stages hav...
متن کاملInverse analysis of biomagnetic fields in consideration of the external magnetic noise
Even in magnetic shield, external magnetic field could not be neglected especially for magneto-meter system, and, it will be considered as uniform external noise. Also, the noise is caused by nearer external source, and is not uniform one of the noise. In this paper, the influence of the external uniform field and the external gradient noise on inverse problem solution by the SMN (Selective Min...
متن کاملChoice of coils for a fusion reactor.
In a fusion reactor a hot plasma of deuterium and tritium is confined by a strong magnetic field to produce helium ions and release energetic neutrons. The 3D geometry of a stellarator provides configurations for such a device that reduce net toroidal current that might lead to disruptions. We construct smooth coils generating an external magnetic field designed to prevent the plasma from deter...
متن کاملThe First Fusion Reactor: Iter
28 I n practical terms, the project’s goal is to construct and operate a tokamak experiment which can confine a deuterium-tritium plasma in which the α-particle heating dominates all other forms of plasma heating. Formally, the primary mission of the ITER project is to demonstrate sustainment of a DT plasma producing ~500 MW of fusion power for durations of 300 500 s with a ratio of fusion outp...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
ژورنال
عنوان ژورنال: Environmental Health Perspectives
سال: 1977
ISSN: 0091-6765,1552-9924
DOI: 10.1289/ehp.7720131