A power generation device includes a housing, chambers, and conductive fillers. The housing has a rotation axis. The chambers surround the rotation axis and located inside the housing. The conductive fillers respectively filled in the chambers. The chambers include electrodes. The electrodes are located on the chambers and in contact with the conductive fillers.

A buoyant hydrodynamic pump is disclosed that can float on a surface of a body of water over which waves tend to pass. The pump incorporates an open-bottomed tube with a constriction. The tube partially encloses a substantial volume of water with which the tube's constriction interacts, creating and/or amplifying oscillations therein in response to wave action. Wave-driven oscillations result in periodic upward ejections of portions of the water inside the tube that can be collected in a reservoir that is at least partially positioned above the mean water level of the body of water, or pressurized by compressed air or gas, or both. Water within such a reservoir may return to the body of water via a turbine, thereby generating electrical power (making the device a wave engine), or else the device's pumping action can be used for other purposes such as water circulation, propulsion, or cloud seeding.

Described are toroidal devices to produce steady state, helical, Taylor-Couette-like magnetohydrodynamic singular structure flows in plasma or other conductive fluids with full magnetohydrodynamic helicity. Linking of two or more such toroidal devices can be used to generate a laminar kinematic dynamo. Only one is required to confine plasma at the pressures and for times required to produce nuclear fusion. Such high-temperature plasma can also be used for centrifugal ionic separation, nuclear transmutations at production quantity, and in the near term as a study tool in the development of materials to withstand high temperature and neutron flux. Plasma is a high-energy state of matter capable of relativistic velocity en masse, and as such, relativistic plasma or other conductive fluid devices are a means to generate gravity.

A thermomagnetic apparatus for electric power production, comprising: a hollow toric vessel (30) delimited by a wall (31) having an outer toric surface (31a) having a toroidal direction, wherein the toric wall (31) encloses a volume containing a ferrofluid which comprises magnetic nanoparticles dispersed or suspended in a fluid carrier; a plurality of hydraulic conduits (36-39) in thermal contact with the outer toric surface (31a); a magnetic field source (62) coupled to the outer toric surface (62) and an extraction coil (65) which comprises a plurality of turns (65′) of electrical conductor wire arranged on the outer toric surface (31a).

A buoyant hydrodynamic pump is disclosed that can float on a surface of a body of water over which waves tend to pass. The pump incorporates an open-bottomed tube with a constriction. The tube partially encloses a substantial volume of water with which the tube's constriction interacts, creating and/or amplifying oscillations therein in response to wave action. Wave-driven oscillations result in periodic upward ejections of portions of the water inside the tube that can be collected in a reservoir that is at least partially positioned above the mean water level of the body of water, or pressurized by compressed air or gas, or both. Water within such a reservoir may return to the body of water via a turbine, thereby generating electrical power (making the device a wave engine), or else the device's pumping action can be used for other purposes such as water circulation, propulsion, or cloud seeding.

A magnetohydrodynamic cavitation fusion energy generator comprising an internal armature rotatably arranged within a reactor vessel. The generator further comprises a lithium-ammonia fuel dispersed between the internal armature and the reactor vessel. The reactor vessel further comprises a plurality of external magnets and at least one extraction electrode configured to extract current from fusion reactions in the fuel. The internal armature further comprises a plurality of cavitation cavities, a plurality of internal magnets, and at least one facilitation electrode configured to arc for the facilitation of fusion. The plurality of internal magnets and the plurality of external magnets are arranged relative to one another to create a magnetic field within the reactor vessel when the internal armature is rotated relative to the reactor vessel.

Embodiments of an apparatus for generating electric power from flowing seawater are disclosed. Embodiments form fluid channels having magnetic fields through which seawater will flow. Electrodes are arranged with respect to the fluid channels and connected together such that electric power is generated as seawater flows through the channels.

A thermomagnetic apparatus for electric power production, comprising: a hollow toric vessel (30) delimited by a wall (31) having an outer toric surface (31a) having a toroidal direction, wherein the toric wall (31) encloses a volume containing a ferrofluid which comprises magnetic nanoparticles dispersed or suspended in a fluid carrier; a plurality of hydraulic conduits (36-39) in thermal contact with the outer toric surface (31a); a magnetic field source (62) coupled to the outer toric surface (62) and an extraction coil (65) which comprises a plurality of turns (65′) of electrical conductor wire arranged on the outer toric surface (31a).

The invention relates to two-phase heat transfer devices based on a closed evaporation-condensation cycle wherein the circulation of a working fluid is provided by capillary forces. The pressure capillary pump (PCP) according to the invention comprises a sealed housing having an inner cavity divided with a lyophobic capillary-porous partition into an evaporator cavity and a condenser cavity. A wick is arranged in the evaporator cavity. The condenser and evaporator cavities are mutually connected with a pipeline system to form a closed loop. The housing is filled with a two-phase working fluid, wherein a porous space of the wick, the condenser cavity and the pipeline system are filled with the liquid phase, and the space between the wick and the lyophobic partition is filled with saturated vapor. The housing may be made in the form of two cylindrical shells arranged coaxially to form an annular cavity, wherein a heat-generating source is arranged along the axis of the shells. To directly convert the thermal energy into the electric one, the PCP may comprise a liquid-metal MHD generator, wherein the housing is filled with a working fluid in the form of a liquid metal. The technical result consists in an increase in pressure and more efficient conversion of the thermal energy into the mechanical energy of the liquid working fluid flow.

A buoyant hydrodynamic pump is disclosed that can float on a surface of a body of water over which waves tend to pass. The pump incorporates an open-bottomed tube with a constriction. The tube partially encloses a substantial volume of water with which the tube's constriction interacts, creating and/or amplifying oscillations therein in response to wave action. Wave-driven oscillations result in periodic upward ejections of portions of the water inside the tube that can be collected in a reservoir that is at least partially positioned above the mean water level of the body of water, or pressurized by compressed air or gas, or both. Water within such a reservoir may return to the body of water via a turbine, thereby generating electrical power (making the device a wave engine), or else the device's pumping action can be used for other purposes such as water circulation, propulsion, or cloud seeding.