Magnetohydrodynamic converter

MHD converters involving plasmas were highly studied in the 1960s and 1970s, with many government funding and dedicated international conferences.

One major conceptual application was the use of MHD converters on the hot exhaust gas in a coal fired power plant, where it could extract some of the energy with very high efficiency, and then pass it into a conventional steam turbine.

The research almost stopped after it was considered the electrothermal instability would severely limit the efficiency of such converters when intense magnetic fields are used,[2] although solutions may exist.

The Lorentz force then acts upon the trajectory of the incoming electrons and positive ions, separating the opposite charge carriers according to their sign.

As negative and positive charges are spatially separated within the chamber, an electric potential difference can be retrieved across the electrodes.

Crossed-field magnetohydrodynamic converters (linear Faraday type with segmented electrodes). A: MHD generator. B: MHD accelerator.
Crossed-field magnetohydrodynamic converters (linear Faraday type with segmented electrodes). A: MHD generator. B: MHD accelerator.