论文信息 - Molten salt self-cooled solid first wall and blanket design based on advanced ferritic steel - 字舞流文

Molten salt self-cooled solid first wall and blanket design based on advanced ferritic steel

Richard F. Mattas | I. N. Sviatoslavsky | Siegfried Malang | Saurin Majumdar | Brad J. Merrill | Clement Wong | Mohamed E. Sawan | Sergey Smolentsev | Shahram Sharafat | E. A. Mogahed | S. Sharafat | I. Sviatoslavsky | S. Majumdar | M. Sawan | S. Smolentsev | C. Wong | S. Malang | B. Merrill | E. Mogahed | M. Friend | J Bolin | R. Mattas | M. Friend | J. Bolin

[1] Thomas S. Lundgren,et al. Duct flow in magnetohydrodynamics , 1961 .

[2] J. Whitelaw,et al. Convective heat and mass transfer , 1966 .

[3] D. Swift-hook. Book reviewMagnetohydrodynamic flows in ducts: Wiley, New York (1978) , 1980 .

[4] Y. Mikhailov,et al. Heat and mass transfer in MHD flows , 1987 .

[5] W. H. Williams,et al. HYLIFE-II: A Molten-Salt Inertial Fusion Energy Power Plant Design — Final Report , 1994 .

[6] R. S. Baker,et al. DANTSYS: A diffusion accelerated neutral particle transport code system , 1995 .

[7] C.P.C. Wong,et al. Evaluation of U.S. Demo helium-cooled blanket options , 1995, Proceedings of 16th International Symposium on Fusion Engineering.

[8] Richard F. Mattas,et al. Comparison of lithium and the eutectic lead lithium alloy, two candidate liquid metal breeder materials for self-cooled blankets , 1995 .

[9] H. Wienke,et al. FENDL/MG-2.0 and FENDL/MC-2.0 The Processed Cross-section Libraries for Neutron Photon Transport Calculations Version 1, March 1997 Summary Documentation , 1998 .

[10] Akira Kohyama,et al. Design studies of helical-type fusion reactor FFHR , 1998 .

[11] S. Smolentsev. Mathematical models for magnetohydrodynamic-flows in a fusion reactor blanket , 1999 .

[12] Mohamed A. Abdou,et al. Exploring novel high power density concepts for attractive fusion systems , 1999 .

[13] David A. Petti,et al. Modifications to the MELCOR code for application in fusion accident analyses , 2000 .

[14] O. Ogorodnikova,et al. Tritium permeation through the first wall of the EU-HCPB blanket , 2000 .

[15] Steven J. Zinkle,et al. Helium-Cooled Refractory Alloys First Wall and Blanket Evaluation , 2000 .

[16] A. R. Raffray,et al. ARIES-AT Blanket and Divertor , 2001 .

[17] C.P.C. Wong,et al. Evaluation of the Tungsten Alloy Vaporizing Lithium First Wall and Blanket Concept , 2001 .

[18] Naoyuki Hashimoto,et al. Tensile and creep properties of an oxide dispersion-strengthened ferritic steel , 2002 .

[19] L. Barleon,et al. The transpiration cooled first wall and blanket concept , 2002 .

[20] Shigeharu Ukai,et al. Perspective of ODS alloys application in nuclear environments , 2002 .

[21] Alice Ying,et al. Application of the “K–ε” model to open channel flows in a magnetic field , 2002 .

[22] J. Wesley,et al. Toroidal reactor designs as a function of aspect ratio and elongation , 2002 .

[23] Mark S. Tillack,et al. Fusion power core engineering for the ARIES-ST power plant , 2003 .

[24] Per F. Peterson,et al. Multiple-Reheat Brayton Cycles for Nuclear Power Conversion with Molten Coolants , 2003 .

[25] Lee C. Cadwallader,et al. Safety assessment of two advanced ferritic steel molten salt blanket design concepts , 2004 .