A magneto-plasma-dynamic (MPD) generator, comprising: a conveying duct shaped for conveying a high velocity, conductive fluid; a magnetic field generator arranged to generate a magnetic field across the conveying duct, substantially perpendicular to the direction of travel of the fluid, such that th
A magneto-plasma-dynamic (MPD) generator, comprising: a conveying duct shaped for conveying a high velocity, conductive fluid; a magnetic field generator arranged to generate a magnetic field across the conveying duct, substantially perpendicular to the direction of travel of the fluid, such that the fluid passes through the magnetic field (2) when conveyed by the duct; electrodes provided in the conveying duct to conduct a current induced in the fluid as it is conveyed by the conveying duct through the magnetic field; and an electrode supplying mechanism configured to supply a conductive liquid for replenishing the electrodes.
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1. A magnetoplasmadynamic (MPD) generator comprising: a conveying duct shaped for conveying a high velocity conductive fluid;a magnetic field generator arranged to generate a magnetic field across the conveying duct, substantially perpendicular to a direction of travel of the high velocity conductiv
1. A magnetoplasmadynamic (MPD) generator comprising: a conveying duct shaped for conveying a high velocity conductive fluid;a magnetic field generator arranged to generate a magnetic field across the conveying duct, substantially perpendicular to a direction of travel of the high velocity conductive fluid, such that the high velocity conductive fluid passes through the magnetic field when conveyed by the conveying duct;electrodes provided in the conveying duct to conduct a current induced in the high velocity conductive fluid as the high velocity conductive fluid is conveyed by the conveying duct through the magnetic field; andan electrode supplying mechanism configured to supply a liquid metal or molten salt for use as the electrodes, wherein the electrode supplying mechanism includes a pumping means for varying a height of the liquid metal or molten salt electrodes in the conveying duct,the conveying duct comprises a channel provided in a lower region of the conveying duct,the liquid metal electrodes or molten salt electrodes are arranged in wells at a bottom of the channel, andthe channel has a sloping base region between the liquid metal or molten salt electrodes. 2. An MPD generator as claimed in claim 1, further comprising a repelling device for generating a magnetic field that repels the induced current in the high velocity conductive fluid away from an inner surface of the conveying duct. 3. An MPD generator as claimed in claim 2, wherein the repelling device is a repelling circuit arranged to have a current flowing in an opposite direction to a flow of the induced current in the high velocity conductive fluid, so as to repel the induced current away from the inner surface of the conveying duct. 4. An MPD generator as claimed in claim 3, wherein the repelling device is arranged beneath the sloping base region of the conveying duct. 5. An MPD generator as claimed in claim 4, wherein the repelling circuit comprises a first variable impedance connected to an anode electrode and a positive terminal,a first conductor arranged beneath the sloping base region of the conveying duct, the first conductor being connected to the anode electrode and being connected to the positive terminal via a second variable impedance,a third variable impedance connected to a cathode electrode and a negative terminal, anda second conductor arranged beneath the sloping base of the conveying duct, the second conductor being connected to the cathode electrode and being connected to the negative terminal via one of the first variable impedance, the second variable impedance and the third variable impedance. 6. An MPD generator as claimed in claim 1, wherein an anode and a cathode are provided as the electrodes, a conduit is provided to link the anode and the cathode, and a liquid metal outlet is provided from the conduit in the vicinity of the cathode. 7. The use of an MPD generator as claimed in claim 6, for metal smelting by supplying a molten metal salt as the anode and the cathode, using the electrode supplying mechanism. 8. An MPD generator as claimed in claim 1, further comprising: a condenser arranged to receive the high velocity conductive fluid from the conveying duct after it has passed through the magnetic field so as to condense any liquid metal or molten salt contained in an exhaust gas. 9. An electricity generating system comprising: an MPD generator as claimed in claim 8; andan electricity generator which generates hot gas, wherein the MPD generator and the electricity generator are arranged to operate in a closed cycle. 10. An electricity generating system as claimed in claim 9, wherein the electricity generator is selected from the group comprising a gas cooled nuclear reactor, a geothermal generator and a solar generator. 11. A method of starting the MPD generator as claimed in claim 1, the method comprising: using the pumping means to adjust the height of the liquid metal or molten salt in the conveying duct so that the liquid electrodes touch;passing a large starting current between the electrodes;reducing the height of the liquid metal or molten salt so as to separate the electrodes; andinitiating the magnetic field and the flow of the high velocity conductive fluid through the conveying duct. 12. A magnetoplasmadynamic (MPD) generator comprising: a conveying duct shaped for conveying a high velocity conductive fluid;a magnetic field generator arranged to generate a magnetic field across the conveying duct, substantially perpendicular to a direction of travel of the high velocity conductive fluid, such that the high velocity conductive fluid passes through the magnetic field when conveyed by the conveying duct;electrodes provided in the conveying duct to conduct a current induced in the high velocity conductive fluid as the high velocity conductive fluid is conveyed by the conveying duct through the magnetic field; andan electrode supplying mechanism configured to supply a liquid metal or molten salt for use as the electrodes, wherein the electrode supplying mechanism includes a pumping means for varying a height of the liquid metal or molten salt electrodes in the conveying duct, andthe electrode supplying mechanism includes a flow electrical isolator configured to prevent an electrically conductive path forming in the flow of liquid metal or molten salt for use as the liquid metal electrodes. 13. An MPD generator as claimed in claim 12, wherein the flow electrical isolator is a gravity flow or inverse gravity flow electrical isolator arranged to break up the flow of liquid metal or molten salt into drops that pass through an electrically insulating fluid. 14. An MPD generator as claimed in claim 12, wherein the flow electrical isolator is a pumped flow or inverted pumped flow electrical isolator including an electrically insulating conduit and a pump operable to pump an electrically insulating fluid into a conduit to separate the liquid metal or molten salt into mutually insulated globules.
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이 특허에 인용된 특허 (10)
Aaron Arnold M. (Everett MA) Dickinson Stuart C. (Bristol RI), Bubble capture electrode configuration.
Barros Maurice Jay (541 Westwood Drive Dover DE 19901), Non-pollutant fuel generator and fuel burner with a non-pollutant exhaust and supplementary D.C. generator.
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