Electrostatic frictional generator has a movable member in form of flow of substance particles. The generator is a hollow cylinder and with a flow of air with substance particles along the cylinder surface. Materials of the cylinder and the substance are selected to provide induction of opposite electric charges on cylinder surface and on the substance particles due to friction of the substance particle flow against the cylinder surface. An electrode and a current collector connected to a load are located along axis of the cylinder with a gap between them. Means for providing the flow of air with substance particles has reflecting screens located in upper and lower portions of the cylinder, configured to repel flows of air with substance particles, and an axial fan located under the upper reflecting screen, which takes in air and has blades of smaller diameter than inner diameter of the cylinder.

A power generation device includes a filter holder that is a container filled with water and a filter member. The filter member is composed of porous glass in a form of a plate and arranged in the filter holder between a first space upstream from the filter member and a second space downstream from the filter member. The filter member allows hydrogen ions to pass therethrough more easily than hydroxide ions. The power generation device generates electric power based on a potential difference between the first space and the second space when a water flow from the first space toward the second space is produced in the filter member. The water flow flows along a direction of thickness of the filter member.

A power generation device includes a filter holder that is a container filled with water and a filter member. The filter member is composed of porous glass in a form of a plate and arranged in the filter holder between a first space upstream from the filter member and a second space downstream from the filter member. The filter member allows hydrogen ions to pass therethrough more easily than hydroxide ions. The power generation device generates electric power based on a potential difference between the first space and the second space when a water flow from the first space toward the second space is produced in the filter member. The water flow flows along a direction of thickness of the filter member.

A circuit for cooling is disclosed. The circuit uses a pulse generator in combination with a conductor. A cooling effect of the circuit on the conductor can be used and can be used in conjunction with a Carnot or Stirling engine. A resultant energy applied to a load is larger than the energy supplied by the pulse generator due to the absorption of external energy by the conductor.

A circuit for cooling is disclosed. The circuit uses a pulse generator in combination with a conductor. A cooling effect of the circuit on the conductor can be used and can be used in conjunction with a Carnot or Stirling engine. A resultant energy applied to a load is larger than the energy supplied by the pulse generator due to the absorption of external energy by the conductor.

A circuit for generating electrical energy is disclosed. The circuit uses a pulse generator in combination with an etalon. The etalon can be a tube can have material therein, such as solid material or fluid passing therethrough. A thyristor or other negative resistance can be in series with the etalon to increase a change of voltage with respect to time. A resultant energy applied to a load is larger than the energy supplied by the pulse generator due to the absorption of external energy by the etalon.

A circuit for generating electrical energy is disclosed. The circuit uses a pulse generator in combination with an etalon. The etalon can be a tube can have material therein, such as solid material or fluid passing therethrough. A thyristor or other negative resistance can be in series with the etalon to increase a change of voltage with respect to time. A resultant energy applied to a load is larger than the energy supplied by the pulse generator due to the absorption of external energy by the etalon.

An array of graphene sheets configured to generate electricity from a flow of an ion-containing fluid, wherein the array comprises a plurality of graphene sheets, each graphene sheet comprising first and second electrical contacts, having a surface extending between the first and second electrical contacts for contacting the flow of ion-containing fluid, and wherein each graphene sheet is in electrical contact with at least a further graphene sheet.

An array of graphene sheets configured to generate electricity from a flow of an ion-containing fluid, wherein the array comprises a plurality of graphene sheets, each graphene sheet comprising first and second electrical contacts, having a surface extending between the first and second electrical contacts for contacting the flow of ion-containing fluid, and wherein each graphene sheet is in electrical contact with at least a further graphene sheet.

The invention describes a metal container that comprises a cathode containing an insulated anode with gases at pressures less than a fraction (0.1-0.9) of a mmHg. Metallic normal glow discharge diode and triode devices with large cold cathode area as efficient charge generator to function as a power cell. A metallic glow discharge device comprising a cylindrical cathode and a coaxial insulated anode containing gas at very low pressure utilizing radial electric field. A metallic normal glow discharge diode device containing a planar geometry, with an insulated metallic plate parallel to the broad side of the container forms the anode, while the container acts as the cathode.