Zobrazeno 1 - 10
of 229
pro vyhledávání: '"A.e. Costley"'
Publikováno v:
Technological Forecasting and Social Change. 162:120415
Publikováno v:
Technological Forecasting and Social Change. 158:120064
Despite several decades of dedicated R&D, fusion, a potentially world-changing energy source, remains decades away from commercialisation. The majority of development thus far has been via publicly-funded programmes led by government laboratories foc
Autor:
A.E. Costley, B. Huang, J.G. Morgan, G. Hammond, Ziad Melhem, A. Sykes, J. Hugill, C. Windsor, D. Kingham, P. Buxton, S. Ball, George Davey Smith, M.P. Gryaznevich, J. Fanthome, S. Chappell
Publikováno v:
Fusion Science and Technology. 68:237-244
The realization of power from Magnetic Confinement Fusion is presently following a plan that will span several decades. The mainstream route is via ITER, combined with, or followed by, materials de...
Publikováno v:
Plasma Physics and Controlled Fusion. 61:035006
Experiments on NSTX and MAST have shown the thermal energy confinement time in spherical tokmaks (STs), , to have a stronger toroidal field and weaker plasma current dependence than in conventional large aspect ratio tokamaks. These scalings were der
Autor:
M Shimada, D.J Campbell, V Mukhovatov, M Fujiwara, N Kirneva, K Lackner, M Nagami, V.D Pustovitov, N Uckan, J Wesley, N Asakura, A.E Costley, A.J.H Donné, E.J Doyle, A Fasoli, C Gormezano, Y Gribov, O Gruber, T.C Hender, W Houlberg, S Ide, Y Kamada, A Leonard, B Lipschultz, A Loarte, K Miyamoto, T.H Osborne, A Polevoi, A.C.C Sips
Publikováno v:
Nuclear Fusion. 47:S1-S17
The 'Progress in the ITER Physics Basis' (PIPB) document is an update of the 'ITER Physics Basis' (IPB), which was published in 1999 [1]. The IPB provided methodologies for projecting the performance of burning plasmas, developed largely through coor
Autor:
A.J.H Donné, A.E Costley, R Barnsley, H Bindslev, R Boivin, G Conway, R Fisher, R Giannella, H Hartfuss, M.G. von Hellermann, E Hodgson, L.C Ingesson, K Itami, D Johnson, Y Kawano, T Kondoh, A Krasilnikov, Y Kusama, A Litnovsky, P Lotte, P Nielsen, T Nishitani, F Orsitto, B.J Peterson, G Razdobarin, J Sanchez, M Sasao, T Sugie, G Vayakis, V Voitsenya, K Vukolov, C Walker, K Young, the ITPA Topical Group on Diagnostics
Publikováno v:
Nuclear Fusion. 47:S337-S384
In order to support the operation of ITER and the planned experimental programme an extensive set of plasma and first wall measurements will be required. The number and type of required measurements will be similar to those made on the present-day la
Autor:
R. Barnsley, R. Gottfried, Takashi Kondoh, A.E. Costley, C. Walker, G.D. Loesser, A. Tesini, K. Itami, T. Sugie, Bernhard Haist, G. Vayakis, J. Palmer
Publikováno v:
Fusion Engineering and Design. 74:685-690
In-vessel diagnostic equipment in ITER integrated in six equatorial and 12 upper ports, 16 divertor cassettes and five lower ports is designed to be removed in modules and then repaired, tested and commissioned in the same location at the ITER hot ce
Publikováno v:
Fusion Engineering and Design. 74:109-119
The technological challenges associated with preparing and installing diagnostic systems on ITER are summarized and the solutions that have been developed to overcome them are described. Areas where further developments are needed are highlighted.
Autor:
Michiya Shimada, G. Federici, A.S. Kukushkin, A.E. Costley, Masayoshi Sugihara, K. Ioki, A. R. Polevoi, V. Mukhovatov
Publikováno v:
Journal of Nuclear Materials. :808-815
Recent progress in experiments, modeling and theory has increased confidence that ITER can achieve its goal of high Q (>10) in inductive operation. Further, experimental results in the ‘improved hybrid’ regime suggest a possibility of high Q (>10
Autor:
N. C. Hawkes, A.E. Costley, George Vayakis, S. Tugarinov, A Gorshkov, Ph. Lotte, M. von Hellermann, Mattias Kuldkepp, A. Malaquias, Chris Walker, Elisabeth Rachlew
Publikováno v:
Review of Scientific Instruments, 75, 3393-3398
An overview is given of the present design of the active beam spectroscopy diagnostics for the ITER. Present spatial resolution and signal-to-noise indicate that, in principle, all proposed measurements are possible covering the entire plasma minor r