The Frontier and Speculative Sciences / Applied Technology and Engineering / Nuclear and Fusion Energy / Plasma Physics and Tritium Breeding / Core Physics and Integrated Systems Engineering

Volume

Liquid Metal Dynamics

Mastering Magnetohydrodynamics in High-Conductivity Fluid Systems

Harness the power of fluid metal in the world's most extreme magnetic environments.

Strategic Objectives

• Master the principles of incompressible MHD flow dynamics.

• Optimize heat transfer in next-generation nuclear fusion blankets.

• Minimize Lorentz force resistance using advanced channel inserts.

• Predict and control liquid metal behavior in complex geometries.

The Core Challenge

Engineers face massive pressure drops and flow instabilities when pumping conductive liquids through intense magnetic fields.

01

Foundations of Magnetohydrodynamics

02

The Nature of Liquid Metals

03

Electrodynamics of Moving Media

04

The Lorentz Force

05

Navier-Stokes for Conductive Flows

06

Hartmann Flow Dynamics

07

The Role of Magnetic Reynolds Number

08

Pressure Drop Phenomena

09

Lithium-Lead Eutectics

10

Flow Channel Inserts (FCI)

11

Heat Transfer in Magnetic Fields

12

MHD Turbulence and Stability

13

Numerical Simulations in MHD

14

Electromagnetic Pumps

15

Sensors and Diagnostics

16

Corrosion and Compatibility

17

Fusion Reactor Applications

18

Magnetohydrodynamic Power Generation

19

The Alfvén Wave Phenomenon

20

Safety and Handling

21

Future Frontiers in Liquid Metal MHD

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