TY - JOUR
T1 - Numerical investigation on the comparison of the MHD flow features of lithium and eutectic lead-lithium alloy in a conduit with four-parallel ducts
AU - Luo, Yang
AU - Kim, Chang Nyung
N1 - Publisher Copyright:
© 2020 Elsevier B.V.
PY - 2021/1
Y1 - 2021/1
N2 - At present, the magnetohydrodynamic (MHD) flows of liquid-metal (LM) Pb-17Li and pure Li through a conduit with four-parallel ducts having partly different electrical conductivity are numerically analyzed. Here, the conduit system can cause counter flow and co-flow, which can be a good candidate for the design of duct flow in the liquid-metal blanket. Meanwhile, since lithium (Li) and eutectic lead-lithium (LiPb) are the promising liquid metal materials for a self-cooled blanket, the MHD flow characteristics of these two liquid metals become important and have to be taken into account during the design of a fusion liquid-metal blanket. The current study focuses on the electromagnetic features of the two liquid-metal flows, and considers the flow imbalance that is affected by different wall electrical conductivity in four-parallel ducts. The results present that the pressure drop and mass flow rate in the case with Pb-17Li is larger than those in the case with pure Li because of different properties of the liquid metals used therein. Furthermore, the influence of the local electrical conductivity of the structural walls on the flow imbalance among the outlet ducts is analyzed for the two different working fluids, and the mechanism governing the flow imbalance in the outlet ducts is discussed.
AB - At present, the magnetohydrodynamic (MHD) flows of liquid-metal (LM) Pb-17Li and pure Li through a conduit with four-parallel ducts having partly different electrical conductivity are numerically analyzed. Here, the conduit system can cause counter flow and co-flow, which can be a good candidate for the design of duct flow in the liquid-metal blanket. Meanwhile, since lithium (Li) and eutectic lead-lithium (LiPb) are the promising liquid metal materials for a self-cooled blanket, the MHD flow characteristics of these two liquid metals become important and have to be taken into account during the design of a fusion liquid-metal blanket. The current study focuses on the electromagnetic features of the two liquid-metal flows, and considers the flow imbalance that is affected by different wall electrical conductivity in four-parallel ducts. The results present that the pressure drop and mass flow rate in the case with Pb-17Li is larger than those in the case with pure Li because of different properties of the liquid metals used therein. Furthermore, the influence of the local electrical conductivity of the structural walls on the flow imbalance among the outlet ducts is analyzed for the two different working fluids, and the mechanism governing the flow imbalance in the outlet ducts is discussed.
KW - Electromagnetic flow coupling
KW - Flow imbalance
KW - Lead-lithium
KW - Lithium
KW - Magnetohydrodynamics
UR - http://www.scopus.com/inward/record.url?scp=85096476315&partnerID=8YFLogxK
U2 - 10.1016/j.fusengdes.2020.112104
DO - 10.1016/j.fusengdes.2020.112104
M3 - Article
AN - SCOPUS:85096476315
SN - 0920-3796
VL - 162
JO - Fusion Engineering and Design
JF - Fusion Engineering and Design
M1 - 112104
ER -