An electrostatic energy collector and an electrostatic energy collecting method. The electrostatic energy collector comprises: a vibrating table (101), the vibrating table being fixedly connected to a first end of a first cross beam (102) and a first end of a second cross beam (103), the first cross beam being parallel to the second cross beam, a vertical projection of the first cross beam being overlapped with that of the second cross beam, both of the first cross beam and the second cross beam being conductors, a first mass block (104) being fixedly arranged on the first cross beam, an electret layer (106) being coated at the side, close to the first cross beam, of the second cross beam, a second mass block (105) being fixed at the sided, facing away from the first cross beam, of the second cross beam, a first lead (107) being connected to the first cross beam and a first end of a load (109), and a second lead (108) being connected to the cross beam and a second end of the load. The electrostatic energy collector and the electrostatic energy collecting method can improve energy connection efficiency.

An electrostatic energy collector and an electrostatic energy collecting method. The electrostatic energy collector comprises: a vibrating table (101), the vibrating table being fixedly connected to a first end of a first cross beam (102) and a first end of a second cross beam (103), the first cross beam being parallel to the second cross beam, a vertical projection of the first cross beam being overlapped with that of the second cross beam, both of the first cross beam and the second cross beam being conductors, a first mass block (104) being fixedly arranged on the first cross beam, an electret layer (106) being coated at the side, close to the first cross beam, of the second cross beam, a second mass block (105) being fixed at the sided, facing away from the first cross beam, of the second cross beam, a first lead (107) being connected to the first cross beam and a first end of a load (109), and a second lead (108) being connected to the cross beam and a second end of the load. The electrostatic energy collector and the electrostatic energy collecting method can improve energy connection efficiency.

A circuit is operative to extract electromagnetic wave energy from the ground via a resonant transformer in which resonance is triggered by electrical charge arcing across a spark gap. A center tap of the primary winding of the transformer is capacitively coupled to an electrode buried in the ground. In-rush current from the ground electrode is converted to a useful form (e.g., one- or three-phase 60 Hz AC) by a power conversion circuit connected to the secondary winding of the resonant transformer. The ground electrode of the capacitor coupling the grounded electrode to the center tap primary winding is the shield of a Faraday cage enclosing the resonant transformer, spark gap, and a high-voltage power supply exciting the spark gap.

A circuit is operative to extract electromagnetic wave energy from the ground via a resonant transformer in which resonance is triggered by electrical charge arcing across a spark gap. A center tap of the primary winding of the transformer is capacitively coupled to an electrode buried in the ground. In-rush current from the ground electrode is converted to a useful form (e.g., one- or three-phase 60 Hz AC) by a power conversion circuit connected to the secondary winding of the resonant transformer. The ground electrode of the capacitor coupling the grounded electrode to the center tap primary winding is the shield of a Faraday cage enclosing the resonant transformer, spark gap, and a high-voltage power supply exciting the spark gap.

A system for harvesting atmospheric ionic energy to generate electricity is provided. The present invention embodies the utilization of the electric equipotential differences in the earth's electrostatic field through providing a generator device extending vertically into the atmosphere perpendicular to ground. The generator device includes electrical collectors adapted to conduct surface charge. A ground circuit coupled to the generator device is adapted to distribute the surface charge to attract oppositely charged atmospheric ions so that the electrostatic energy is converted to a low amperage, high voltage transaction of moving electrons up though the apparatus, reciprocal in direction to the electrostatic field previously mentioned so as to be useable for conventional electrical systems.

A system for harvesting atmospheric ionic energy to generate electricity is provided. The present invention embodies the utilization of the electric equipotential differences in the earth's electrostatic field through providing a generator device extending vertically into the atmosphere perpendicular to ground. The generator device includes electrical collectors adapted to conduct surface charge. A ground circuit coupled to the generator device is adapted to distribute the surface charge to attract oppositely charged atmospheric ions so that the electrostatic energy is converted to a low amperage, high voltage transaction of moving electrons up though the apparatus, reciprocal in direction to the electrostatic field previously mentioned so as to be useable for conventional electrical systems.

A system and method of collecting energy utilizing a management system for an energy collection device, for collecting, managing, and discharging energy. Management system creates an active collection, storage, and discharging device; diffusion circuits allow for controlling the collecting, and discharging of harvested charges to precisely set requirements; the circuit allows for maximized charge collection over a given time, by minimizing the collection devices resistance to collection, the reduction in resistance is a factor calculated using the inverse square law, to allow ultra high speed maximized transitions in the charging, and discharging oscillation cycle.

A method and apparatus for harvesting a static electric charge from suspended particles in an atmosphere includes exposing a charge conductor to the suspended particles in the atmosphere and selectively providing a conductive path between the charge conductor and a terrestrial ground including a rechargeable energy storage device. Energy may be selectively transferred to another energy storage device.

A method and apparatus for harvesting a static electric charge from suspended particles in an atmosphere includes exposing a charge conductor to the suspended particles in the atmosphere and selectively providing a conductive path between the charge conductor and a terrestrial ground including a rechargeable energy storage device. Energy may be selectively transferred to another energy storage device.

A device for collecting electricity from the atmosphere comprises: a collecting element adapted to draw electricity from the atmosphere; an electrically conductive element electrically connected to the collecting element for transmitting electricity collected by the collecting element to an output; and a support member capable of holding the collecting element in an elevated position, wherein the electrically conductive element comprises a composite structure extending at least partially along its length, the composite structure comprising a first layer comprising graphene.