Zobrazeno 1 - 10
of 97
pro vyhledávání: '"J.S. Herring"'
Autor:
L Stewart, W Bishop, Craig F. Smith, J Herezeg, T Cotton, William G. Halsey, E Schweitzer, H. Ludewig, Denis Beller, Phillip J. Finck, J.S Herring, G. Van Tuyle, T Sanders, D.B. Lancaster, Jose March-Leuba, Michael Todosow, B Savage, C.E. Walter, David L. Hill
Publikováno v:
Progress in Nuclear Energy. 38:3-23
A roadmap has been established for development of ATW Technology. The roadmap defines a reference system along with preferred technologies, which require further development to reduce technical risk, associated deployment scenarios, and a detailed pl
Autor:
C.P.C. Wong, T. Kunugi, D.K. Sze, J.S. Herring, R. Martin, M.Z. Hasan, B. W. McQuillan, S. Sharafat, E.E. Reis, S.P. Grotz, Edward T. Cheng, K.R. Schultz, Farrokh Najmabadi
Publikováno v:
Fusion Technology. 19:938-943
Although there is a growing need for neutron and gamma irradiations by governmental and industrial organizations in the United States and in other countries, the number of facilities providing such irradiations are limited. At the Idaho National Engi
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::a78c5c2e2362e8ab516b100e5e4663e6
https://doi.org/10.1520/stp25686s
https://doi.org/10.1520/stp25686s
Autor:
J.S. Herring
Publikováno v:
Proceedings of the 25th Intersociety Energy Conversion Engineering Conference.
Autor:
Don Steiner, Yueng Kay Martin Peng, A.C. Klein, Layton J. Wittenberg, M.Z. Hasan, T. K. Mau, I.N. Sviatoslavsky, E. Greenspan, Ronald L. Miller, John F. Santarius, George H. Miley, M.J. Schaffer, Gilbert Emmert, James Blanchard, C.P.C. Wong, D.K. Sze, Nasr M. Ghoniem, W. Kernbichler, J.S. Herring
Publikováno v:
IEEE Thirteenth Symposium on Fusion Engineering.
High-efficiency energy conversion schemes for a D-/sup 3/He tokamak reactor are investigated. The loss channels for a D-/sup 3/He plasma are through charged particles, neutrons, and radiation (synchrotron and bremsstrahlung), with only a few percent
Autor:
E.T. Cheng, J.A. Leuer, J.T. Hogan, Farrokh Najmabadi, J.F. Santarius, J.S. Herring, S.P. Grotz, W. Kernbichler, G.A. Emmert, Shahram Sharafat, W.R. Beecraft, C.E. Singer, D.J. Ward, D.J. Stricker, Marc Klasky, L.J. Wittenberg, L. Snead, D.-K. Sze, S.A. Jardin, J. Brooks, T. K. Mau, I.N. Sviatoslavsky, M.Z. Hasan, J. Schwartz, J. Schultz, G.H. Miley, R.C. Martin, Y.-K.M. Peng, J.C. Whitson, J. Mandrekas, Robert W. Conn, L. Bromberg, R.A. Krakowski, E. Greenspan, P.I.H. Cooke, M.J. Schaffer, T. Kungi, D.A. Ehst, A.W. Hyatt, A.C. Klein, C.G. Bathke, R.L. Reid, J.R. Bartlit, James Blanchard, K. Evans, D.R. Cohn, K.R. Schultz, R.L. Creedon, D. Steiner, R.L. Miller, M. Valenti, C.P.C. Wong, Nasr M. Ghoniem, E. Ibrahim, J.E.C. Williams
Publikováno v:
IEEE Thirteenth Symposium on Fusion Engineering.
The Advanced Reactor Innovation and Evaluation Study (ARIES) is a community effort to develop several visions of the tokamak as a fusion power reactor. The aims are to determine its potential economics, safety, and environmental features and to ident
Publikováno v:
IEEE Thirteenth Symposium on Fusion Engineering.
The superconducting magnet set for a fusion reactor may store in excess of 100 GJ which must be controlled and, if necessary, safely dissipated under electrical fault conditions. While the radioactive inventory of the magnet set and its support equip
Autor:
Tomoaki Kunugi, Ronald L. Miller, Farrokh Najmabadi, J.A. Leuer, R.L. Creedon, Nasr M. Ghoniem, C.P.C. Wong, K.R. Schultz, Shahram Sharafat, S.P. Grotz, Edward T. Cheng, R.C. Martin, D.K. Sze, J.S. Herring, M.Z. Hasan, E. Greenspan
Publikováno v:
IEEE Thirteenth Symposium on Fusion Engineering.
For the Advanced Reactor Innovation and Evaluation Study-I (ARIES-I) tokamak power reactor design, the authors evaluated two gas-cooled, low-activation ceramic blanket designs, a 5-MPa helium-cooled design, and a 0.5-MPa CO/sub 2/ gas-carried, Li/sub
Publikováno v:
15th IEEE/NPSS Symposium. Fusion Engineering.
The ARIES-II and ARIES-IV designs are the final two designs of the ARIES study. The ARIES-II design uses liquid lithium and vanadium for low activation, multiple barriers between the lithium and air and an inert cover gas to prevent lithium-air react
Autor:
G.L. Kuleinski, J.H. Schultz, T. J. Dolan, J.S. Herring, Robert A. Krakowski, David A. Ehst, Shahram Sharafat, J.F. Santarius, Edward T. Cheng, Jeffrey N. Brooks, J. Mandrekas, S.A. Jardin, M. Valenti, P. Titus, E. A. Mogahed, Mohamed E. Sawan, J.E.C. Williams, Dai-Kai Sze, Daniel R. Cohn, Don Steiner, E. Ibrahim, E.E. Reis, P. Gierszewski, Laila El-Guebaly, Jeffrey A Holmes, S.P. Grotz, K.R. Schultz, Layton J. Wittenberg, R.W. Conn, Charles G. Bathke, I.N. Sviatoslavsky, T. K. Mau, J.H. Whealton, Dennis J Strickler, S.K. Ho, Leslie Bromberg, Gilbert Emmert, K.A. Werley, A. Hollies, M.S. Hasan, C.P.C. Wong, C.E. Kessel, H.Y. Khater, Farrokh Najmabadi, James Blanchard, George H. Miley, Ronald L. Miller
Publikováno v:
[Proceedings] The 14th IEEE/NPSS Symposium Fusion Engineering.
A description of the ARIES-III research effort is presented, and the general features of the ARIES-III reactor are described. The plasma engineering and fusion-power-core design are summarized, including the major results, the key technical issues, a