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FIG. 14 is a right side view of the second configuration of the wave energy converter of the present invention with flaps or blades pulled forward by the action of a wave. 20, as the flaps 11 a and 11 b move forward as indicated with arrow 20, pulled by the action of a passing wave, the gear rack or chain, or equivalent component 4 a moves upward as indicated by arrow 21. It is expected that at the same time, due to the force exerted on float 2 (not shown) by gravity, machine room 1 will move downward as indicated by arrow 22. This synchronize movement of components 11 a and 11 b, 4 a and 1 will result in a longer run of the pinions of the power take off system (not shown) over the gear rack or chain, or equivalent component 4 a, transmitting then simultaneously both vertical and horizontal movements of water molecules derived from both the potential energy and the kinetic energy of the waves to the pinions of the power take off system.

In this configuration, the device extract kinetic energy of the wave from the back and forth movement through a system of gears that conduct this back and forth movement to the main column or beam and them to the power take off system in the machine room. Very few devices are conceived to extract both the potential energy and kinetic energy of waves.

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SUMMARY OF THE INVENTION It is the main objective of the present invention to convert simultaneously both the mechanical potential and kinetic energy contained in the slow and random movement of waves into a more useful form of constant high speed rotation at a large range of different wave heights and periods. 21 is a front view of the first configuration of the wave energy converter of the present invention where the main column or beam 4 is attached to an underwater floating base 23 supported by support bars 24. The underwater floating base 23 could be anchored in a lax manner utilizing cable 28, anchor 25, float 26 and weight 27. The underwater floating base 23 could be anchored in a tight manner (not shown).

Dolor gif 7 » GIF Images Download FIG. 22 is a front view of the second configuration of the wave energy converter of the present invention where the main column or beam is attached to an underwater float for deep-water deployment. In deeper waters, the main column or beam is supported by column supports attached to an underwater float.

In this configuration, the device extracts kinetic energy of the wave from the back and forth movement of the flaps or blades attached to the floating structure through gears that transmit the movement to a power take off system in the machine room. FIG. 16 is a top view of the second configuration of the wave energy converter of the present invention in a first survival mode (longitudinal axis of the float structure perpendicular to the wave crest) with flaps or blades in a position parallel with respect to the wave crest.

It is another objective of the present invention to absorb the minimum amount of energy per wave crest in abnormal or stormy sea conditions when the design parameters of the device are being surpassed. The device may be constructed using standard ship building methods and materials or any appropriate materials and methods to allow efficiency and survivability. Dolor abdominal muscular . In normal sea conditions and in order to maintain the floating frame oriented in a manner to absorb the greatest amount of energy per wave crest (longitudinal axis of the float parallel to the wave crest), the frame or hull may have a system of fins, which interact with incoming waves and maintain a desired orientation. 50 per barrel. This scenario makes the development of alternative energy technology very viable. It is another objective of the present invention to absorb the maximum amount of energy per wave crest in normal sea conditions.

FIG. 2 is a general side view of the first configuration of the wave energy converter of the present invention. FIG. 13 is a top view of the second configuration of the wave energy converter of the present invention with flaps or blades pushed backward by the action of a wave. FIG. 6 is a right side view of the first configuration of the wave energy converter of the present invention with flaps or blades pulled forward by the action of a wave. FIG. 12 is a right side view of the second configuration of the wave energy converter of the present invention with flaps or blades 11 a and 11 b (only 11 b shown) pushed backward by the action of an incoming wave.

The reduction of emissions of green house gases (GHG) and relevance and importance of the introduction and use of renewable energy technologies, especially for clean electric power generation, to contribute to these reductions are by now obvious and need not to be explained more extensively here. For deep water deployment, FIG.

  • Atacar (o escapar) por sorpresa
  • Manejo fácil
  • 太極拳 en caracteres chinos tradicionales[2]
  • Presiona ligeramente las cuerdas
  • Herencia: factores hereditarios
  • Consumo de ciertos fármacos
  • Cruzas las piernas
  • Palpación del Cuadrante Superior

One purpose is to keep machine room 1 always above the water line to avoid flooding or water leakage. It is expected that the average growth in electricity generation based on marine renewable resources (wave and tidal) will be around 12% in the period 2007-2015. Realizing this, countries like Ireland and Portugal have developed national strategies for the introduction of marine renewable power and others, like New Zealand and the UK, created funds and other incentives for the same purpose. First, there are global warming issues-carbon dioxide emissions must be reduced in many industrialized countries due to ratification of the Kyoto Convention, and its future successor being discussed in Copenhagen 2009. Also, recent hurricane seasons have created growing concerns among some industrialized countries about climate change.

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