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Maximizing energy extraction from moving fluids a two cycle fluid driven engine

A technology of flowing fluids, fluids, applied in the field of dual-cycle fluid-driven engines that maximize energy extraction from moving fluids

Inactive Publication Date: 2014-12-03
L·布朗
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But even though our efficiencies will be only 30%, the energy our methods and systems are able to extract from the oceans makes them like forever indestructible giants in the field of renewable energy

Method used

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  • Maximizing energy extraction from moving fluids a two cycle fluid driven engine
  • Maximizing energy extraction from moving fluids a two cycle fluid driven engine
  • Maximizing energy extraction from moving fluids a two cycle fluid driven engine

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Embodiment Construction

[0030] Reference is made to the drawings, wherein like structures will be designated with like reference numerals. It should be understood that the drawings are diagrams and representations of some embodiments of the invention and are neither limiting of the invention nor necessarily drawn to scale.

[0031] figure 1 The moving volume of fluid 100 is shown. In at least one embodiment, a fluid is a substance that deforms or flows continuously under any external force. Fluids are a subset of phases of matter and include liquids, gases, plasmas, and plastic solids (to some extent). In particular, fluids exhibit either no resistance to deformation, or only slight (viscosity) resistance to deformation and the ability to flow (also referred to as the ability to assume the shape of a container). Examples of fluids include liquids (such as water) and gases (such as air).

[0032] Those skilled in the art will appreciate that the fluid 100 has a mass (M). Furthermore, since the fl...

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PUM

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Abstract

A fundamental departure from previous methods of extracting energy from moving fluids - increasing by several orders of magnitude the quantities of energy extracted over currently used methods and systems: A part of a moving mass of fluid (FIG.3A - FLOW), or large aggregate thereof, are permitted to flow into encapsulation (305); the entire flowing mass is then decelerated to zero, or nearly zero velocity, with the entire original level of energy of the moving fluids transferred to the encapsulating / decelerating (340) means or directly to energy users.

Description

Background technique [0001] Prior art devices for extracting energy from large quantities of moving or flowing fluid typically use one or more blades that are immersed in the moving fluid. The blades are connected to the rotating shaft. Attempts are made to optimize energy extraction in the flowing fluid by proper design and positioning of the blades. Part of the energy extracted from the moving fluid by the blades is transferred by rotating the shaft connected to the blades with a torque, usually some form of energy that occurs through the moving fluid, that part of the energy is also sufficient to provide the connection Provide some energy to the loads on the shaft (such as pumps, motors, etc.). Examples of energy extraction devices in the prior art include wind turbines, water turbines, steam turbines, paddle wheels, and the like. [0002] While such prior art extraction devices have a long and successful history, in some cases such devices lack efficiency and otherwise ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F03B17/06F03B13/00F03B11/00F03G7/00
CPCF05B2260/421Y02E10/28F03B17/06Y02E10/30
Inventor L·布朗
Owner L·布朗