Electricity: measuring and testing – Particle precession resonance
Patent
1987-05-06
1988-04-12
Tokar, Michael J.
Electricity: measuring and testing
Particle precession resonance
324322, G01R 3320
Patent
active
047377119
ABSTRACT:
The mechanisms that operate in nuclear magnetic resonance spectroscopy are applied to the art of magnetohydrodynamics in order to provide a system that can separate one or more chemical species from a mixture in that these NMR principles are employed to achieve a stronger magnetomotive force acting upon some components of a mixture than on other components when all of the components of a mixture are situated in a magnetohydrodynamic condition in which physical force being applied to move the components results from an high frequency magnetic field extending through the mixture in a direction perpendicular to a synchronous high frequency alternating electric field also extending through the mixture, the stronger magnetomotive force acting selectively on some components being the result of an induced resonance in those components which enables those components to absorb energy from the high frequency alternating magnetic field and to thereby interact more energetically with the perpendicular electric field for a greater magnetomotive impulse. Those components that have received the greater magnetomotive impulse by virtue of induced nuclear magnetic resonance at the frequency at which they resonate are impelled to move through solution at a greater rate than others not resonating at that frequency and are separated by their relative positions in solution after a period of migration.
REFERENCES:
patent: 4184110 (1980-01-01), Hinshaw
patent: 4424487 (1984-01-01), Lauffer
patent: 4602213 (1986-07-01), Sugiura
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