Zobrazeno 1 - 10
of 30
pro vyhledávání: '"E Fauve"'
Autor:
V Ravindranath, A Apte, E Fauve, V Heloin, D Pflueckhahn, T Peterson, D Robinson, S Shrishrimal, D Arenius, R Bhattacharya, M Bevins, J Creel, J Hogan, R Norton
Publikováno v:
IOP Conference Series: Materials Science and Engineering. 1240:012112
LCLS-II is major up-grade to the SLAC Facility. It adds a 4 GeV superconducting accelerator, which will generate an extremely bright and continuous (million pulses/sec) X-ray laser beam. The LCLS-II superconducting accelerator comprises 37 cryomodule
Autor:
D Pflueckhahn, E Fauve, V Heloin, S Kaminski, T Peterson, J Pucci, V Ravindranath, J Sevilla, A Dalesandro², A Klebaner, A Martinez, W Soyars², D Arenius, M Bevins, J Hogan
Publikováno v:
IOP Conference Series: Materials Science and Engineering. 1240:012113
The helium cryoplant and cryo distribution system (CDS) are key elements of the new superconducting Linac Coherent Light Source (LCLS-II) and will provide superfluid helium to the accelerator. The cryoplant consists of two helium refrigerators with a
Autor:
G. Flavien, E. Monneret, G. Vincent, David Grillot, E. Fauve, C. Chodimella, M. Bonneton, Y. Fabre, M. Chalifour, H.-S. Chang
Publikováno v:
Physics Procedia. 67:42-47
The ITER Cryogenic System includes three identical liquid helium (LHe) plants, with a total average cooling capacity equivalent to 75 kW at 4.5 K.The LHe plants provide the 4.5 K cooling power to the magnets and cryopumps. They are designed to operat
Autor:
S. Badgujar, M. Chalifour, A. Forgeas, H.-S. Chang, M. Bonneton, N. Navion-Maillot, Biswanath Sarkar, N. Shah, E. Fauve
Publikováno v:
Physics Procedia. 67:48-53
The cryoline (CL) systemof ITER consists of a complex network of vacuum insulated multi and single process pipe lines distributed over three different areas with a total length of about 5 km. The thermal performance of the CL system will be measured
Autor:
M. Bonneton, M. Chalifour, E. Fauve, S. Badgujar, E. Monneret, T. Voigt, G. Vincent, H.-S. Chang
Publikováno v:
Physics Procedia. 67:35-41
The ITER cryoplant is composed of helium and nitrogen refrigerators and generator combined with 80 K helium loop plants and external purification systems. Storage and recovery of the helium inventory is provided in warm and cold (80 K and 4.5 K) heli
Autor:
E. Fauve, S. Badgujar, D. Henry, L Benkheira, H.-S. Chang, G. Vincent, E. Monneret, T. Voigt, N. Navion-Maillot, A. Forgeas
Publikováno v:
IOP Conference Series: Materials Science and Engineering. 171:012031
The ITER Tokamak supraconducting magnets, thermal shields and cryopumps will require tremendous amount of cooling power. With an average need of 75 kW at 4.5 K and of 600 kW at 80 K, ITER requires a world class cryogenic complex. ITER then relies on
Publikováno v:
IOP Conference Series: Materials Science and Engineering. 171:012008
The ITER Tokamak requires an average 75 kW of refrigeration power at 4.5 K and 600 kW of refrigeration Power at 80 K to maintain the nominal operation condition of the ITER thermal shields, superconducting magnets and cryopumps. This is produced by t
Autor:
H.-S. Chang, E. Fauve, D.-S. Park, J.-J. Joo, K.-M. Moon, K.-W. Cho, H. K. Na, M. Kwon, S.-H. Yang, G. Gistau-Baguer, J. G. Weisend
Publikováno v:
AIP Conference Proceedings.
The “first plasma” (100 kA of controllable plasma current for 100 ms) of KSTAR has been successfully generated in July 2008. The major outstanding feature of KSTAR compared to most other Tokamaks is that all the magnet coils are superconducting (
Autor:
P. Dauguet, G. M. Gistau-Baguer, M. Bonneton, J. C. Boissin, E. Fauve, J. M. Bernhardt, J. Beauvisage, F. Andrieu, J. G. Weisend, John Barclay, Susan Breon, Jonathan Demko, Michael DiPirro, J. Patrick Kelley, Peter Kittel, Arkadiy Klebaner, Al Zeller, Mark Zagarola, Steven Van Sciver, Andrew Rowe, John Pfotenhauer, Tom Peterson, Jennifer Lock
Publikováno v:
AIP Conference Proceedings.
Fusion of Hydrogen to produce energy is one of the technologies under study to meet the mankind raising need in energy and as a substitute to fossil fuels for the future. This technology is under investigation for more than 30 years already, with, fo
Autor:
P. Dauguet, P. Briend, I. Abe, E. Fauve, J. M. Bernhardt, F. Andrieu, J. Beauvisage, J. G. Weisend, John Barclay, Susan Breon, Jonathan Demko, Michael DiPirro, J. Patrick Kelley, Peter Kittel, Arkadiy Klebaner, Al Zeller, Mark Zagarola, Steven Van Sciver, Andrew Rowe, John Pfotenhauer, Tom Peterson, Jennifer Lock
Publikováno v:
AIP Conference Proceedings.
The KSTAR (Korean Superconducting Tokamak Advanced Research) project makes intensive use of superconducting (SC) magnets operated at 4.4 K. The cold components of KSTAR require a forced flow of supercritical helium for magnets and structure, boiling