A typical wind power system includes two or three blades which rotate about an axis. 3A, an array 202 of power systems, including wind capturing devices 104, forms power unit 300 that can be to wind vane 304 so that power unit 300 can orient itself about a pivot point 306 to the wind direction W as the direction of the wind W changes. Although, power unit 300 may be expansive, each power system 100 is exposed to only a small portion of the impinging winds.
Dolor Neuropático Fisterra
The size of power unit 300 is only limited by the power need and space available and therefore can rival any of the largest propeller-type fan structures. Thus, each power system is more likely to receive wind from only one direction and so can still independently produce electrical power. In one embodiment, generator fan 102 is a 1 to 100 V DC motor having a capacity to generate between about 0.5 to about 10,000 Watts of electrical power. 1B, in one embodiment, wind W is captured in wind capturing devices 104 and a pressure P1 is created proximate to front face 112 of generator fan 102. Since a pressure P2 exists proximate to a rear face 114 of generator fan 102 which is less than pressure P1, wind travels across generator fan 102 to cause the fan blades to turn, thus generating a current in the fan.
Dolor De Garganta
Since the sail can be sized and shaped to take full advantage of suspected wind conditions in a given application, the size of the power generator can be optimized and made smaller. In one embodiment, the arrangement should be such that the generator fans 102 are arranged side-by-side horizontally as shown in FIG. In yet another embodiment, as shown in FIG.
Tipos De Dolor Lumbar
The size and shape of wind vane 304 can be determined based on the size of power unit 300. In one embodiment, shown in FIG. Accordingly, the average power output from power unit 300 can be higher than typical wind power generating systems. Dolor de espalda sintoma de cancer . In this embodiment, wind captured in wind capturing devices 110 creates a pressure P3 proximate to rear face 114 of generator fan 102. Since a pressure P4 exists proximate to front face 112 of generator fan 102, which is less than pressure P3, wind travels across generator fan 102 to cause the fan blades to turn, thus generating a current in the fan. Since wind capturing device 104 is made of wind capturing materials like canvas and nylon, it has a deformability that allows the wind capturing device to act similar to a sail on a sail boat when subjected to wind. Thus, during instances of low or moderate wind flow, the wind strength may not be able to overcome the torque.
The blades are provided perpendicular to the direction of wind flow, with suitable pitch so that the wind causes the blades to rotate about the axis. 5, in typical power system generators the total average power is the power generated over time relative to the strength of the wind in a single direction.
SUMMARY The present invention discloses a wind power generation system to operate in various wind conditions and with changing wind directions. The shape changing ability of wind capturing device 104 can generally be controlled by the wind as is done with a sail or using manual or automatic techniques, which employ the use of pulleys and motors.
What is needed therefore is a wind power generation system, which overcomes the shortcomings of typical wind power generation systems to provide a wind power generation system, which operates in varying wind conditions, in changing wind directions and with increased efficiency. Each of these factors contributes to the cost of the wind power system, operations, and maintenance, which add considerably to the cost of the power generated. Thus, the average power is the sum of the absolute value of each individual power system. The principles of the invention are described in connection with a relatively small power system 100 using any relatively small to medium sized generator fan 102. Generator fan 102 can be a direct current (DC) generator, or a generator producing alternating current (AC), also known as an alternator.
Dolor Muscular Sin Fiebre
The performance of wind vane 304 is well known. Motors suitable for use in the present invention are widely known and are available, for example, from McMaster-Carr Supply Company. 2A and 2B, a vertical stack of, for example, three vertical power systems 100 is mounted along side multiple stacks of three other power systems 100 to form an array 202 of power systems. It should be understood that while three generator fans have been shown for purposes of simplicity, the principles of the invention can be used for horizontal stacks containing a plurality of fans interposed between generator fans 102 a and 102 c. Large blades are generally required to ensure that the blades can be rotated with sufficient speed to overcome the torque inherent in the generator.
Dolor Sordo Significado
Unfortunately, typical wind power systems require large propeller-like blades, which can be inefficient, to the point of being useless. 1B, the at least one generator fan 102 can include any number of generator fans horizontally stacked. The horizontally stacked generator fans include front generator fan 102 a, a rear generator fan 102 c, and optionally, one or more middle generator fans 102 b disposed therebetween. The system also includes a first wind capturing sail positioned proximate to the front generator fan configured to capture wind to create a first pressure proximate to the front generator fan that is greater than a second pressure proximate to the rear generator fan which causes the captured wind to flow across the first plurality of generator fans. Dolor de espalda al tragar . The wind capturing device includes deformable portions to direct the captured wind and create the first pressure.
Tipos De Dolor Oms
The wind capturing device effectively forces captured wind to form a high pressure area on a first side of at least one generator fan. Alternatively, each generator fan 102 shown in power system array 202 of FIG. The sheet of wind capturing material is positioned on the four sides of generator fan 102 to create a funneling affect. Depending upon the amount of power desired to be produced and the location of power system 100, a plurality of generator fans 102 and a variety of arrangements of generator fans 102 can be used. Depending upon the specific use of power system 100, the current produced can be introduced directly into an existing power grid through the use of synchronizers or stored in an electrical storage device, such as a battery 108. Optionally, power system 100 can be used to directly drive or power specific pieces of electrical equipment. In this embodiment, as the wind travels across the front generator fan 102 a it can be assumed that not all of the wind’s kinetic energy is converted to electrical power.
In one aspect of the invention, a wind power system is provided including at least one generator fan having a front face and a rear face. Having thus described embodiments of the present invention, it will be evident to those of ordinary skill in the art that modifications can be made to the embodiments described herein without departing from the spirit and scope of the invention set forth in the following claims.
- Lavar con agua y jabón
- Episodios de neumonía (Por broncoaspiración)
- Problemas de hígado, vesícula biliar o páncreas
- Dedos hinchados
- Estrés excesivo y a largo plazo,
- Mejora el abastecimiento de oxígeno en el músculo cardíaco
- No expone su opinión ni da posibles conclusiones
- Trabajo con el ordenador,
In another aspect of the invention, a wind power system is provided including a first plurality of generator fans horizontally stacked including at least a front generator fan and a rear generator fan. 2A can be a front generator fan 102 a of a horizontally stacked configuration of power systems 100 like that shown in FIG.