MAGNETOHYDRODYNAMIC CONVERSION

Big Word, Simple Concept

Magnetohydrodynamic (MHD) conversion is very unlike thermoelectric or thermionic conversion. The MHD generators use high-velocity electrically conducting gases to produce power and are generically closer to dynamic conversion concepts. The only concept they carry forward from the preceding conversion ideas is that of the plasma, the electrically conducting gas. Yet they are commonly classified as direct because they replace the rotating turbogenerator of the dynamic systems with a stationary pipe or duct.

Figure 9 In the MHD duct (a), the electrons in the hot plasma move to the right under influence of force F in the magnetic field B. The electrons collected by the right-hand side of the duct are carried to the load. In a wire in the armature of a conventional generator (b) the electrons are forced to the right by the magnetic field.

a MHD Duct HOT PLASMA IN COOL GAS OUT TO RADIATOR Magnetic Field LOAD ELECTRONS b CONVENTIONAL GENERATOR SHAFT LOAD Magnetic Field ARMATURE WIRE ELECTRONS

In the conventional dynamic generator, an electromotive force is created in a wire that cuts through magnetic lines of force, as shown in [Figure 9]b. It may be helpful to visualize the conduction electrons as leaving one end of the wire and moving to the other under the influence of the magnetic field.

The force on the electrons in the wire is given by

F = qvB

where