Abstract: Method for manufacturing small wind energy gathering devices, for example, of geometrical dimensions tip to ?th of an inch (microdevices), employing micro-fabrication techniques. For example, three-dimensional single chemical composition parts of a small wind energy gathering device are manufactured using two-photon three dimensional lithography. Preferably, a plurality of such parts are manufactured in parallel, thereby optimizing the production process. The plurality of parts may be handled and assembled using precision instruments such as micro-tweezers, micro-scissors, and holographic lasers. Nanowires may be used to interconnect a plurality of the microdevices together, or to connect components of a particular microdevice. These nanowires are produced in nanowire arrays and are attached to a common base structure.

Abstract: Installing large-sized wind turbines creates numerous challenges and limitations, hindering acceptance of wind generated energy. With small-sized wind turbines, such hindrances are omitted or minimized. Sized ever smaller, more small-sized wind turbines may be installed per installation. Accordingly, a method and corresponding apparatus for maximizing wind energy gathering potential of a plurality of wind turbines, each wind turbine having a sweep height, for a given location is provided. The present invention includes sizing sweep heights of substantially all wind turbines of the plurality of wind turbines to intersect at least one horizontal plane unique from horizontal planes intersected by a sweep height of at least one immediately adjacent wind turbine.

Abstract: A roadway system for energy generation and distribution is presented. In accordance with one embodiment of the invention, the roadway system comprises a plurality of ground-based wind energy generating devices, one or more roads, and a roadway system electricity grid. The roadway system may additionally include, for example, a plurality of ground-based solar energy generating devices, one or more vehicle-based solar energy generating devices and one or more vehicle-based wind energy generating devices. The energy generating devices are connected to the roadway system electricity grid and substantially all of the ground-based wind energy generating devices are positioned on part of one of the roads or near to one or more of the roads to thereby allow energy generation from wind created from passing vehicles in addition to energy generation from atmospheric wind.

Abstract: A roadway system for energy generation and distribution is presented. In accordance with one embodiment of the invention, the roadway system comprises a plurality of solar energy generating devices, and a roadway system electricity grid. The solar energy generating devices are electrically connected to the roadway system electricity grid and are positioned on part of or near to a road in a system of roads and being optionally fixed in a position such that a multi-form, solar energy gathering network can be formed.

Abstract: A roadway system for energy generation and distribution is presented. In accordance with one embodiment of the invention, the roadway system comprises a plurality of wind energy generating devices, and a roadway system electricity grid. The wind energy generating devices are electrically connected to the roadway system electricity grid and are positioned on part of or near to a road in a system of roads and are optionally fixed in a position such that a multi-form, wind energy gathering network can be formed.

Abstract: A roadway system for energy generation and distribution is presented. In accordance with one embodiment of the invention, the roadway system comprises a plurality of ground-based hybrid solar-wind energy generating devices, one or more roads, and a roadway system electricity grid. The energy generating devices are connected to the roadway system electricity grid and substantially all of the ground-based hybrid solar-wind energy generating devices are positioned on part of one of the roads or near to one or more of the roads to thereby allow energy generation from wind created from passing vehicles in addition to energy generation from atmospheric wind.

Abstract: Disclosed is a method and system for providing an energy gathering sheet to harness and provide energy to homes, businesses, and/or a utility grid. The energy gathering sheet is configured to receive solar or wind energy gathering devices or any combination thereof. The very small energy gathering devices (micrometer to nanometer range) are mounted onto a single installation sheet for the purposes of creating efficient and complimentary clean energy power to meet both small and large power demands. The single sheet of installable solar panels and/or wind turbines may be loosely rolled or stacked in sheets to protect the integrity of the solar panels and wind turbines. The single sheet is capable of being rolled out for efficient installations.

Abstract: A roadway system and method for energy generation and distribution are presented. This system allows a geothermal infrastructure to be tied into the roadway system electricity grid. The geothermal infrastructure may include energy exchangers that are electrically connected to the roadway system electricity grid. By connecting the energy exchangers electrically to the roadway system electricity grid, the energy exchangers may be powered by solar and/or wind generating devices. In one embodiment of the invention, a roadway system for energy generation and distribution comprises a plurality of energy harnessing devices (e.g., solar and/or wind generating devices). The roadway system electricity grid is configured for mass distribution of electricity. The energy exchangers are configured to electrically connect to the roadway system electricity grid.