Abstract: An articulated erection structure is disclosed for use in mobilizing a wind energy extraction device. The wind turbine has blades capable of being disposed in side-by-side, parallel alignment for transportation. The erection structure has a mast that can be configured in a horizontal orientation for transportation with the turbine generator lowered, and reconfigured for power-generating operations in a vertical orientation with the turbine raised. The turbine generator may be mounted with an erection structure to a variety of transportation platforms, such as on a self-propelled vehicle, towed trailer, or transportation pallet. A hybrid system may integrate photovoltaic cells in addition to a wind energy extraction device.

Abstract: A wind power extraction device has a rotor with a hub and a rim coupled to the hub through a plurality of blades. The blades rotate the rotor about an axis of rotation passing through the hub in response to a wind moving generally parallel to the axis of rotation. A mount coupled to the rotor extends and retracts the rotor between a first configuration aligning the rotor axis of rotation substantially horizontally, and a second configuration aligning the rotor axis of rotation substantially vertically. The device may have components of an electric generator mounted in or near the rim.

Abstract: A turbine system includes a turbine positioned so that its blades are exposed during at least part of their rotation to a region of fluid flow accelerated by a columnar structure, such as a building or a bridge pylon. A protective casing moves to isolate the turbine blades from the fluid flow, thereby protecting the turbine from overpowering conditions. Upwind and downwind fairings may be used when retrofitting pre-existing buildings. Turbines may be positioned on opposing sides of a building. Multiple turbine modules may be positioned in line along peripheries of a building. Turbines may be mounted on in-water structures, such as buoys.

Abstract: The present invention relates to an environmentally acceptable method of producing glycine betaine esters that produces no toxic by-products during the synthesis. The method produces only product, recyclable material for reuse in the process, and recovered material which can be sold for uses, such as fertilizer.

Abstract: An apparatus and method that allows a user to exert a force to control a motive machine. The exerted force is transferred by a force transferring means to force sensors which detect the amount and direction in which the force is exerted. The force sensors convert the applied force into an electrical signal which is used to control the motive features of a machine.

Abstract: Disclosed is a process for growing living cellular material in a reaction zone having a membrane in contact with an aqueous medium. The concentration of nutrient in samples from the process is measured using a spectrometric instrument to obtain spectral data characteristic of nutrient components. This spectral data is analyzed using a chi-squared mathematical technique to determine the unknown concentration of nutrient components in said samples. Then the rate at which nutrient is fed to the reaction zone is altered based on the determination of concentration of nutrient components as required to optimize the process.