Reduction of MHD Pressure Drop of Liquid Metal Flow by Insulation, Part II: Three-Face Insulated Rectangular Duct

“…show only qualitative agreement with theory:formula (8) can not be applied to channel 16 in Table 1, since 13Mt/2= 1.1-1.2 and is beyond the range of the formula's applicability; for channel 15 in Table 1 the authors of [ 18] attribute the discrepancy between theory and experiment to additional Hartmann flow friction in duct comers due to excessive epoxy bond layers.…”

Present understanding of MHD and heat transfer phenomena for liquid metal blankets

“…show only qualitative agreement with theory:formula (8) can not be applied to channel 16 in Table 1, since 13Mt/2= 1.1-1.2 and is beyond the range of the formula's applicability; for channel 15 in Table 1 the authors of [ 18] attribute the discrepancy between theory and experiment to additional Hartmann flow friction in duct comers due to excessive epoxy bond layers.…”

Present understanding of MHD and heat transfer phenomena for liquid metal blankets

“…In addition, insulating materials with low thermal conductivity are not suitable for application on the first wall exposed to the high heat flux from the main plasma. To overcome this problem, Miyazaki et al [3] proposed the use of a three-surface insulated channel. * Corresponding author.…”

MHD pressure drop characteristics in a three-surface-multi-layered channel under a strong magnetic field

A D-T tokamak fusion reactor with advanced blanket using compact fusion advanced Rankine (CFAR) cycle