Study of liquid metal film flow characteristics under fusion relevant magnetic field conditions

Proceedings - Symposium on Fusion Engineering

Volumn , Issue , 2003, Pages 2-5

  Narula, M ^a   Abdou, M A ^a   Ying, A Y ^a   Sketchley, T ^a   Burris, J ^a  

^a UNIVERSITY OF CALIFORNIA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CONSTRAINT THEORY; MAGNETIC FIELDS; MAGNETOHYDRODYNAMICS; PUMPING (LASER); THICKNESS MEASUREMENT; THIN FILMS;

FILM THICKNESS; FREE SURFACE FILM FLOWS; LIQUID METAL FILMS; LIQUID SURFACE DIVERTOR MODULE;

LIQUID METALS;

EID: 17444401647     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (6)

1. A.Y. Ying, et. al., "Exploratory Studies of Flowing Metal Divertor Options for Fusion Relevant Magnetic Fields in the M-TOR Facility", Fusion Engineering and Design, submitted for publication.
2. A.Y. Ying, et. al., "MHD and Heat Transfer Issues and Characteristics for Li Free Surface Flows under NSTX Conditions", Fusion Technology, vol. 39, pp. 739-745, March 2001.
3. J. Burris, "Utilization of Ultrasonic Technique for Dynamic Measurements of Free Surface Flow Depths", UCLA Masters Thesis, 2002.
4. N.B. Morley and M.A. Abdou, "Modeling of fully-developed, liquid metal, thin film flows for fusion divertor applications", Fusion Engineering and Design, vol. 30, pp. 339-356, 1995.
5. N. B. Morley and J. Burris, "The M-TOR LM-MHD flow facility and preliminary experimental investigation of thin layer, liquid metal flow in a 1/R toroidal magnetic field", Fusion Technology, submitted for publication.
6. R. Munipalli, et. al., "Development of a 3-D incompressible free surface MHD computational environment for arbitrary geometries: HIMAG", DOE SBIR Phase-II Final Report, June 2003.