Abstract: Innovative self-sustaining/self-supportive electrical-generating system to produce electrical energy, to power land vehicles with an electrical engine/motor, characterized, that this land vehicle can run without any fossil raw material and that rotational energy from motion of the vehicle is converted into electrical energy that can be stored by a battery/energy cell and power the electrical engine/motor by means of a generator.

Abstract: [Problem] The invention provides a unidirectionally-energized brushless DC motor including an AC voltage output winding, and the brushless DC motor simultaneously exerts a motor function of being able to continuously obtain a constant torque and a power generation function of being able to obtain a continuous electromotive force. [Solving Means] The brushless DC motor includes a disk 5 that is attached to a frame 3, a plurality of plate-like permanent magnets 6 that are disposed on the disk 5 at equal intervals around the disk 5, magnetic cores 70(A) that are fixed to the frame 3 according to the plurality of permanent magnets 6, windings 71(A) each of which is wound around the magnetic core 70(A) and to which DC power is supplied, a predetermined number of magnetic cores 70(B) that are fixed to the frame 3, and windings 71(B) each of which is wound around the magnetic core 70(B) and connected to a power consumption device.

Abstract: A system for generating energy using the rotating wheels of a vehicle and for collecting such energy is provided. An alternative system for powering vehicle engines using relatively inexpensive fuel sources is also provided.

Abstract: The present invention relates generally to a motor that may generate torque and produce energy. The motor comprises a drive shaft configured to rotate about an axis, a first flywheel coupled to the drive shaft, a force transmission device coupled to the drive shaft, and a first shielding device coupled to the drive shaft and positioned between the first flywheel and the force transmission device. A first piston dolly is coupled to the force transmission device, the first piston dolly configured to move laterally along the axis of the drive shaft. A first magnetic device is coupled to the first piston dolly. In addition, a second piston dolly is also coupled to the force transmission device, the second piston dolly configured to move laterally along the axis of the drive shaft. A second magnetic device is coupled to the second piston dolly.

Abstract: The uninterrupted battery operated generator system 50 of the present invention generates electrical and kinetic energy without using fossil fuel or external energy sources to recharge. It uses two sets of energy storage means 11, 12 alternatively, to power a rotational torque generating means 15. The rotational torque generating means 15 drives the rotational movement of a flywheel 31 coupled to gyroscopes 35, which store and multiply kinetic energy. An alternator 16 is driven by the rotational torque generating means to convert this kinetic energy into electrical energy. The flywheel 31 can also be fitted with a rail 42 engaging with a transmission roller 43 to transfer the kinetic energy via a transmission shaft 44 to a receiving system such as a vehicular or machinery transmission system. Some of the electrical energy generated can be used to recharge the energy storage means 11, 12, which have a charging time shorter than the operating time.

Abstract: A generator powered electric circuit is provided. The generator powered electric motor circuit includes a motor; a controller that monitors the power cycle corresponding to the motor; a fuel cell that initiates a power-up cycle corresponding to the motor; and a generator that is coupled to the motor.

Abstract: A power generation system 1 comprising a first water container, a hydropower system, a second water container and a pump system. The hydropower system 2,3,4 harness water energy coming from the first container and directed it to the second container. The water at the second container circulates to the first container by the pump system located at the second water container. The pump system is energized or powered by an external source and energy generated from the water displacement due to gravity at said pump.

Abstract: A magnet may move within a coil-wrapped set of concentric tubes. The magnet may be moved from one end to the other by energizing solenoids located on each end of the set of tubes. The power consumed by the solenoids may be less than the power generated by the movement of the magnet.

Abstract: A vertical wind turbine rotatable on its vertical axis in order to capture the most direct vector of the wind, the vertical wind turbine having a horizontal inlet port in communication with a vertical air shaft within which mounted vertically, a shaft having a plurality of horizontally disposed wind turbine blades, the lower end magnetically floating to reduce friction, the lower portion of the vertical wind turbine shaft in intersecting communication with one or more horizontal shafts having a venturi design so as to draw a partial vacuum or low pressure, enhancing the downward flow of the air in the vertical wind turbine, the vertical wind turbine in communication with a generator for the production of electricity, the vertical wind turbine being rotatably but stationary mounted on a stationary object or fixedly mounted on a vehicle with the inlet port of the vertical wind turbine forwardly facing.

Abstract: A magnetic motor system includes a brushless motor with interdigitated permanent magnets longitudinally mounted on a rotor at equal radial positions, and stator windings to drive the rotor in response to pulses from a timer/driver, and stationary recapture windings to recover energy that would otherwise go to waste. One set of batteries is used to drive the motor through the timer/driver, and bridge rectifiers connected to the stationary recapture windings provide electrical current to charge a second set of batteries. The rotor shaft output provides kinetic energy to drive electrical generators, air compressors, etc. A shaft encoder connected to the rotor provides the information needed by the timer/driver to know which stator winding should be pulsed and with what polarity. A power pulse is provided at least every 12.5 degrees of rotation, making the motor self starting.

Abstract: A device for generating substantially vertically-reciprocating motion uses a plurality of chambers in substantial vertical alignment. Each chamber has an air pocket and a buoyant member which floats at the air/water interface, and such air pockets expand and contract upon receipt of additional amounts of air from below and release of some of the air, usually to a chamber above. As the air pockets expand and contract, the interfaces are raised and lowered, and the buoyant elements are raised and lowered with the interfaces. A method uses such device to generate such reciprocating motion, which optionally may be used to drive electric generators.

Abstract: A turbine unit (11) comprising a passage (23) through which a fluid may pass. Located within the passage (23) is a driving turbine blade set (25) upstream from a pumping turbine blade set (27) wherein the diameter of the pumping turbine blade is larger than the diameter of the driving turbine blade set. The driving turbine blade set and pumping turbine blade set are mounted in opposed relation whereby the turbine blade sets are in reversed orientation with respect to each other such that in simultaneous operation a region between the two turbine blade sets has a lower pressure than the fluid pressure at an opening of the passage. This induces a greater mass flow rate through the turbine unit than would otherwise be created by a pumping turbine blade set equal to or smaller in diameter than the driving turbine blade set.

Abstract: A vehicle mounted wind powered generator has a self-contained housing with an open, forward airflow intake section and a rear airflow exhaust section. The housing is configured to be mounted on the roof of a vehicle by conventional mounting supports. Airflow is directed into the housing where it is constricted in order to increase the airflow velocity past one or more wind turbines. The airflow is then directed through a channel within the housing and is ultimately discharged through the exhaust section. Power generated by the wind turbines is used to create electricity by means of an attached electricity-generating device, e.g. an alternator/generator. The electricity produced operates a hydrogen production system having its components located within the housing of the hydrogen generator. The resultant hydrogen gas is directed to the engine of the vehicle to increase its efficiency and reduce its emissions.

Abstract: The present disclosure describes a low-wind, dual-stage, vertical-axis, wind-generated power turbine comprising a structural support tower, at least four turbine assemblies stacked on top of one another within individual turbine bays, a central drive shaft connecting the turbine assemblies, a draft induction channel surrounding the drive shaft, a spiral blade running through the induction channel, a paddle turbine assembly at the base of the tower which propels the spiral blade, a blower source which powers the paddle turbine, a built-in solar system which feeds the blower, external, natural wind directional slats, and a high pressure, fluid-drive, Hydrabine turbine mechanically coupled to a transmission or CTV, coupled to a one Mega Watt output generator.

Abstract: Provided is dual machine and method of power generation and electromotive operation. The dual machine includes a left and a right assembly. The left and right assemblies have first and second magnets, use magnetic current and force, and operate alternately varying polarity under control of a control device. When the assemblies simultaneously operate while performing a stroke, magnetic vector by the first magnets is converted into rotational torque at the second magnets by interaction and harmony between vector and current motion by the magnet parts of the left and right assemblies, and allows the dual machine to function as a motor. Magnetic current motion by the first magnets allows the dual machine to function as a generator due to harmony between attractive and repulsive current at the second magnets. Electromotive force and torque force are output based on the dual function of the motor and the generator.

Abstract: The invention encompasses a method for production of electric power from a system of contacts of nanostructured conductive surfaces with a thin water-containing layer, and a hydroelectric generator for carrying out the method. The basis of the invention is a discovery, confirmed by experiments, that the contacts of the conductive surfaces, having nano-dimensional structural and/or parametrical heterogeneities, with the water-containing layer, having a thickness from several nanometers to a fraction of a millimeter, under certain conditions, described in the present disclosure, generate electromotive force in an external electrical load. The invention utilizes new principles for building power systems, which can find further wide application in various areas of science and technology.

Abstract: An energy module utilizing permanent magnets arranged on a moveable inner shaft (33) which interact with an arrangement of permanent magnets on a rotating outer shaft (32) thereby producing torque. By moving the inner shaft (33) in and out of the rotating outer shaft (32) magnets, a continuous rotation is achieved which is similar in function to an electric motor while mainly using the power of permanent magnets. A magnetic energy advantage is created since the power to move the moveable inner shaft (33) is less than the power output of the torque generated on the rotating outer shaft (32).

Abstract: An improved power generation apparatus 100 has one or more moving permanent magnets 10, the rapid movement of the one or more permanent magnets 10 successively switches on and off the different electromagnets 20 in sequence to pull the one or more magnets 10 in a circular motion. This circular movement of the one or more magnets 10 generates an electric current in each central coil 40 to power the activating means 30 and to charge the battery 50 for storage or any excess electricity generated can be used to power other devices. Alternatively, as described in a second embodiment, the electromagnets 20 can be switched on when the same polarity of the one or more permanent magnets 10 pass to create a repulsive force which pushes the one or more permanent magnets 10 along the guide means 2 to propel the permanent magnets 10.

Abstract: An electromechanical device or magnetic motor includes a plurality of rotor magnet assemblies, a plurality of drive magnet assemblies that are laterally moveable with respect to the rotor magnet assemblies, a timing assembly for generating power pulses selectively supplied to the drive magnet assemblies, and electromagnetic coils associated with the drive magnet assemblies to receive the power pulses from the timing assembly to momentarily disrupt the magnetic field of such assemblies at selected times. The magnetic assemblies of the rotor mechanically rotate a shaft and interact with alternator windings to generate electrical power. The magnetic motor is self-contained with start/stop, rotational speed, diagnostics, global positioning, CPU and interface capability.

Abstract: A portable power supply system comprising several portable power sources coupled to a power supply charging circuit, wherein said power supply charging circuit comprises an inverter, a charger and a control unit that controls the portable power source delivery of energy in order to reduce damages to said portable power source.

Abstract: A device for utilizing water flow kinetic energy continuously comprises at least one water pump, at least one flume and plural hydro-generators. The water pump is employed to continuously supply water from a water supply to an upper head end of a flume, and then the water will naturally flow from the upper head end of the flume to a lower tail end to drive the plural hydro-generators disposed on the flume to generate power. The flume has a length larger than a distance between the water supply and an upper head end of the flume. The water is finally discharged to a desired position or back to the upper head end by a water pump disposed at the lower tail end of the flume.

Abstract: A universal three dimensional motor generator system is provided with magnets and permanent magnetic and/or electromagnetic windings on rotors and stator for compounding and multiplying the order of voltage or potential to or from a machine. Three rotating rotors mechanically interconnected through gears and coils are strategically positioned within a housing that allows the multiple input and/or output of single and/or three phases A/C, D/C or in combination. When input power is supplied to rotor one, rotor two and rotor three start rotating along with rotor one due to gear arrangement to generate/ produce power which is fed back to rotor one. This generated/produced power can/will be utilize to supplement the input power to maintain the synchronous speed across the designed load or combined to increase the output rating of machine.

Abstract: A method of powering a multi-level structure is provided, which includes disposing a climate control system in the building. The system has a cooling tower, a fluid cooled chiller, a return line connecting an output of the chiller to an input of the cooling tower, and a condenser pump for pumping fluid therebetween. The system further includes a supply line connecting an output of the cooling tower to an input of the chiller, fluid being gravity fed from the cooling tower to the chiller. A turbine generator is disposed in the return line, the turbine generator being powered by fluid flowing through the return line. The method provides for transferring power generated from the turbine generator to a power supply for the structure.

Abstract: A rotating-energy electrical production system includes an elongate central substantially vertically extending bar structure including an exterior helical thread portion extending therearound from an upper region thereof to lower region thereof, and a free-to-rotate disk structure encircling the bar structure, the disk structure having an interior helical thread portion engaging the exterior helical thread portion of the bar structure for helically winding counter-rotation therebetween under the force of gravity acting on the disk structure.

Abstract: Sustainable process of clean energy generation and distribution, belonging to the field of energy production, comprising a generator system that contains engine, reductor, tension transformer, current rectificator, also named electric-electronic switched power supply, and battery banks, which waive re-feeding, either by means of gas, alcohol, gasoline, diesel, and coal, wind, nuclear, thermoelectric, hydroelectric or any other, since the energy is supplied by the very system.

Abstract: A system, method and computer program product for producing renewable electrical power energy which does not require the consumption of fossil-based, petroleum-based or other combustible fuels, nor release hazardous emissions or byproducts to the atmosphere or otherwise to the environment. The system utilizes closed-loop fluid recirculation and is not dependent upon an external unlimited sources of water flow and head as with dam-style hydro-electric power systems and is not dependant upon predefined favorable environmental and/or weather conditions to function. The system includes a DC magnetic system adapted to be coupled between an AC generator and a hydro-rotor/centrifugal pump system; a DC power source and charging system; a propulsion pump system; and a containment housing with a plurality of thrust producing vanes, fluid management infrastructure and reservoir.

Abstract: A renewable energy power system includes activating wind turbine apparatus generating renewable energy power and thereby a controller is employed to furnish desired voltage to vehicle applications as well as a household or building applications also, a controller directs unspent energy to necessitate other operations or send net energy back to the electrical grid, and as a consequence, electric vehicle recharge no longer applies plus, grid demand is reduced therefore energy technology for transportation, and habitat, and industry can improve.

Abstract: A magnetically driving device includes a first supporting member, a second supporting member, a first magnet set and a second magnet set. The second supporting member is movable with respect to the first supporting member. The first magnet set includes at least one first magnet unit. The first magnet unit has a first magnetic pole and a second magnetic pole of different polarities. The second magnet set includes at least one second magnet unit. The second magnet unit has a first magnetic pole and a second magnetic pole of different polarities. The magnetization directions of the first magnetic poles of the first magnet unit and the second magnet unit are not parallel with each other, so that a magnetic force generated between the first magnet unit and the second magnet unit drives movement of the second supporting member with respect to the first supporting member.

Abstract: The fluid-based electrical generator utilizes driven flow of a fluid to power an electrical generator for driving an external electrical device. The generator includes a reservoir having at least one sidewall and a floor. A motor coupled to a rotating shaft is mounted external to the reservoir, and a propeller is secured to the rotating shaft. The propeller is driven by the motor and is positioned within the reservoir for generating fluid flow. A rotating support having at least one vane secured thereto is rotatably secured to the floor of the reservoir, and the rotating support is driven to rotate by the fluid flow. An axle is further provided, with a lower end thereof being secured to the rotating support. The electrical generator is coupled to an upper end of the axle, with rotation of the axle driving the electrical generator to produce electricity for the external device.

Abstract: This invention is intended to produce enough electricity to power a household or supply a utility grid. The core system includes a DC or AC electric motor which has higher horsepower than required and lower wattage than its generator or alternator counterpart. Both share a power supply. The generator or alternator is regulated to a higher voltage than the shared power source. These core components are wired in either series or parallel. The system may run by direct drive assembly, or the motor and generator or alternator shafts may be connected by torque converter. Additional components enhance the generator's performance, reliability, and utility. The derivative generator is intended to serve consumers by producing the same energy with no air pollutants. This is technology that promotes a cleaner, safer, and more environmentally sound future. The invention will respond to the demands consumers, businesses, and utility companies.

Abstract: A wind power generator structure includes a wind power generating module, a man-made wind generating module, a hollow receiving module and a wind-guiding module. The wind power generating module has a generator set and a fan pivoted on the generator set. The man-made wind generating module has a man-made wind generator. The man-made wind generator has an outlet facing the fan, and an external power device supplies a power source to the man-made wind generator for generating wind that passes through the outlet. The hollow receiving module has a hollow receiving casing, and the hollow receiving casing has an inlet portion and an outlet portion respectively formed on its inlet side and outlet side. The fan is received in the hollow receiving casing, and the wind-guiding module has a wind-guiding tube communicating with the outlet of the man-made wind generator and the inlet portion of the hollow receiving casing.

Abstract: The magnetic drive for electrical generation is a magnetically driven mechanical device in which two opposing arrays of permanent magnets are set in electromagnetic fields arranged with their positive polarity ends facing each other and that are set at an angle relative to the exterior of an interior shaft with a gap between the two opposing arrays necessary to allow for the rotation of the arrays. The exterior magnetic array is fixed, while the interior magnetic array is connected to a rotating shaft. The exterior magnetic forces work to push against the interior magnets causing the interior magnetic array to rotate. The interior shaft is inserted through and connected to an electric generator, converting the mechanical rotation into electrical power.

Abstract: An arrangement of magnets or magnetically charged materials incorporated in a fan like machinery that provides rotational driving force and further assists the electric generation, based only on the repulsion or attraction forces between magnetic fields. This system can be implemented in both horizontal axis systems as well as vertical axis systems to assist in the rotational driving forces as well as in any other oriented type of axis.

Abstract: A self-contained intelligent cascaded synchronous electric motor-generator tandem of cumulative compound excitation comprises at least a synchronous electric motor-generator tandem (namely MG tandem), a storage battery cluster and an autotransformer. Each MG tandem comprises at least a pair of motor and generator having a common stator and a common rotor shaft. The storage battery cluster, which provides a DC power to general loads and motor, serves as a DC power reservoir to be recharged by generator. The autotransformer serves to regulate the AC voltage output from generator via multiple output taps thereon for supplying various AC voltages to different external loads. By integrating all components aforesaid with common magnetic flux interacted mutually, upon being energized by DC power from storage battery cluster, the motor will transfer rotational torque to drive the generator in enhanced synergistic manner.

Abstract: Herein disclosed is an electrical power generation apparatus that produces more power than the apparatus consumes for operation and the excess power can be used for clean environmentally friendly energizing of additional devices of user choice. The overall apparatus is operational due to centrifugal force created within the assembly of the apparatus.

Abstract: A method of constructing self-powered air-conditioner comprises a convergent divergent nozzle where powered fan pushes air into said nozzle. While the pushed air accelerates toward the nozzle throat it becomes colder as air internal energy transformed into kinetic energy. An axial turbine installed within the nozzle throat extracts energy from the air in the nozzle and drives an electrical generator that provides electricity to the fan electric motor. Alternatively the turbine and fan are installed on common shaft, which could be the electric generator shaft. The cold air within the nozzle throat cools the nozzle throat skin, which serves as air-conditioner core. The cold nozzle skin is wrapped with coiled pipes in which liquid flows, becomes colder and this cold liquid flows away to heat exchanger where air is flowing through it and becomes colder. This cold air is then flows into spaces needed to be air-conditioned.

Abstract: A device for inducing the rotation of a plurality of rotors by use of magnetically charged materials includes at least a pair of rotors rotatably mounted. Each rotor includes at least one outwardly extending element having magnetic material attached to the opposing ends of the element. The elements of the two rotors are positioned co-planarly with respect to one another, such that each element of one rotor is paired with a corresponding co-planarly positioned element of the other rotor. The elements are positioned sufficiently proximate to one another such that the polarity of one element's end may interact with the polarity of its paired element of the other rotor to induce a rotation of one or both of the two rotors.

Abstract: A dual motor has a shaft and a first motor connected to the shaft. The first motor is a standard electrical motor receiving voltage steps. The first motor provides a rotational force to the shaft when the voltage is applied. A second motor is also connected to the shaft, and the second motor is a permanent magnet motor comprising a flexible member connected to the shaft at a flexible member inside end. The permanent magnet motor also has an inside magnet mounted to a flexible member outside end, and the inside magnet moves relative to the shaft. The permanent magnet motor also has an outside housing. An outside magnet is mounted to the outside housing, and stepped voltage application flexes the flexible member. Optionally, stepped voltage application flexes the flexible member so that the outside magnet rotates relative to the inside magnet.

Abstract: A magnet motor comprises a first ferromagnetic member and a second ferromagnetic member reciprocated in working direction relative to the first ferromagnetic member. A controller displaces a permanent magnet between an engaged position adjacent to the ferromagnetic members with the flux being perpendicular to the working direction and a disengaged position spaced from the first and second ferromagnetic members. The controller also displaces the second ferromagnetic member towards the first ferromagnetic member when the permanent magnet is in the disengaged position and captures energy from the resulting displacement of the first ferromagnetic member away from the second ferromagnetic member when the permanent magnet is in the engaged position.

Abstract: An electric power system comprising an electric generator, an electric motor, and a variable ratio transmission system. The electric generator and the electric motor are operatively connected via the variable ratio transmission system. The variable ratio transmission system provides mechanical energy from the electric motor to the electric generator which provides for the generation of electric energy. The variable ratio transmission system including an electric motor sprocket hub, an electric generator sprocket hub, a chain connecting said electric motor hub with the electric generator hub, and at least one derailleur for moving the chain to different sprockets within the electric motor hub or the electric generator hub as variations in power are needed.

Abstract: A water purification system has a water electrolysis system, combustion water vapor production, and condensation chambers; hydrogen and oxygen channels; and a water vapor conduit. The water electrolysis system generates hydrogen and oxygen from water. The hydrogen and oxygen are transported to the oxygen chamber in channels. The hydrogen is combusted in the oxygen in the combustion chamber to generate heated water vapor. The water vapor production chamber generates water vapor from water. The water vapor conduit is disposed between the water vapor production chamber and the condensation chamber. Heated water vapor from the combustion chamber traveling from the combustion chamber into the condensation chamber generates a vacuum on the water vapor conduit, drawing water vapor from the water vapor production chamber into the condensation chamber. The condensation chamber receives water vapor from both the combustion chamber and the water vapor production chamber.

Abstract: The present disclosure relates to a magnetic motor including a drive magnet, a motion magnet, and an acceleration field. The drive magnet includes magnetic shielding, typically on a portion thereof, altering the magnetic field of the drive magnet. In some embodiments, the motion magnet has a cross-section that is generally in the shape of a ‘V’ or ‘A’. The acceleration field is created by the interaction between the drive magnet and the motion magnet as the motion magnet is passed through the altered magnetic field of the drive magnet. The altered magnetic field of the drive magnet may often be near a first end of the drive magnet. In further embodiments, the motion magnet can be operably coupled to an output shaft and rotate around the central axis of the output shaft. The present disclosure, also relates to a device, including the magnetic motor, for generating energy from a turbine.

Abstract: A motor system and method thereof are provided, wherein the system includes an energy storage device, a piston assembly including a magnet, at least two end assemblies in operable communication with the piston assembly, and includes first and second end assemblies, each having an electromagnet. The motor system further includes a controller that controls a supply of electrical power to first and second electromagnets of the first and second end assemblies, such that a first polarity of the first electromagnet is opposite a second polarity of the second electromagnet, and the first and second polarities are intermittingly altered by the supply of electrical power, so the magnet of the piston assembly is attracted and repelled from the first and second end assemblies.

Abstract: This invention has been developed to source low cost, reliable, clean electrical power. Its compact size, portability and self-sufficient drive means and associated generator make it ideal for numerous different applications where electrical power is required. The invention utilizes a partially rotating disk, a magnet connected to the rotating disk that moves through a chamber of copper wires and per Faraday's Law of Induction generates voltage and current. The output is connected to electronic circuitry that conditions the generated signal for battery storage. The batteries DC voltage is connected to an inverter that converts the DC battery voltage to an 117 VAC, 60 cycle electrical energy.

Abstract: A magnetic piston includes a housing having a tapered bore extending along an axis thereof and a piston having a tapered outside wall mating with the tapered bore of the housing for providing radial and longitudinal movement within the tapered bore about a rotational axis of the piston. A shaft is connected to the piston for movement along its longitudinal axis thereof, wherein the axes of the tapered bore and piston are generally aligned along the longitudinal axis. A first set of magnets is embedded within the outside wall of the piston and a second set of magnets is embedded within a surface of a wall forming the bore of the housing. The polarity for each of the magnets within the sets provides attracting and repelling forces causing rotation of the piston relative to the housing and a linear movement of the shaft along the longitudinal axis.

Abstract: A magnet shield that has openings to expose or hide magnets from each other. An actuator or indexing motor that moves the magnet shield at a desired event. An assembly combining a magnet shield and an actuator.

Abstract: The present application relates to THE IZUOGU MACHINE (the time-limited self sustaining emagnetodynamics machine). The abstract of the disclosure is submitted herewith as required by 37 C.F.R.§1.72(b). As stated in 37 C.F.R.§1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading “Abstract of the Disclosure.” The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

Abstract: An integrated generator unit is provided to generate electrical energy. One or more integrated generator units are mounted in an enclosure and in communication with a battery to store electrical energy. Each unit has a plurality of rotational elements that rotate about an axis as fluid passes through the enclosure. A magnet is provided in communication with at least one end of the rotational elements and in close proximity to electrically conductive material. As the rotational element is exposed to fluid flow, fluid passes through the enclosure and causes the rotational element(s) to rotate. This rotation causes the magnet to pass by the electrically conductive material and to generate electrical energy.

Abstract: The present invention is directed to wind powered apparatus for recharging batteries in an electric powered vehicle, the system includes at least one generator adapted to alternately recharge batteries that supply power to the vehicle, and at least one windmill with turbine blades that automatically adjust blade pitch and operate the generator. Each adjusting turbine blade includes at least one fluid handling system that contains a non-Newtonian pseudoplastic fluid, the handling system including means to reposition the non-Newtonian pseudoplastic fluid between a first location and a second location within the fluid handling system in response to a fluid viscosity is changed by shear created from blade rotation, the blade pitch changed by a shift in blade center of gravity from the repositioned fluid.

Abstract: As an example in this Patent Application which focuses on the need to have a battery system last longer in all battery applications in various devices. These devices are cell phones, generators of electricity and actually too many other types of devices which are too numerous to mention. Using the electric vehicle in this Application which is one of the best examples. Using the electric vehicle, which in the past has not been a practical means of transporting people as well as goods, due to the recharging of the Batteries. The most important negative reason is the length of time the Batteries could supply electric current in the operation of the vehicle. The batteries in an electric vehicle have kept this mode of transportation from becoming cost efficient. The recharging of the batteries in an electric vehicle has taken a required amount of time to recharge. The time required has meant the electric vehicle could not be used.