One step is to locate at least one drum-shaped drive element in a moving fluid medium such as wind or flowing water, and spinning the drive element or elements about a central axis as the impinging fluid medium pushes the drive element along an orbiting course around a base. The drive elements are guided parallel and at an equal distance to each other in the continuous orbiting course.
- Aparece tos y ronquera en especial por la mañana
- Marcapasos o prótesis metálicas subyacentes
- Meditación y mindfulness
- El dolor pélvico puede ocurrir cerca de tu periodo menstrual
- Fisioterapia, COVID19 y entorno
One track engages the drive element cog wheels (5 a), while the other track engages one of four base cog wheels (6 a) which are mounted to the base (1), as shown in FIG. The energy conversion efficiency of the Magnus Effect is influenced by additional parameters including the size of the drive elements, the size of the drive element cog wheels (5 a), and by the spinning speed of the drive elements (2). Generally, the faster the drive elements spin, the greater will be the Magnus Effect. According to still another embodiment of the invention, an orbiting drum wind turbine for capturing energy from a flowing fluid medium has a support located on a mast. Thus, when a drive element (2) moves along the continuous orbiting course, engagement with the stationary toothed belt (5) causes the drive element to spin, and engagement with the movable toothed belt (6) causes the movable toothed belt to advance with the drive element along the continuous orbiting course.
The fluid medium, wind in this case, blows on drive elements (2), creating impact pressure that urges the drive elements in a generally down-wind direction along the windward side of the base (1), somewhat linearly downward and from right to left in FIG. 6. Simply put, when a moving fluid such as wind impinges on a drive element (2), simple impact pressure results in an impact direction force F1. 4 and FIG. 5. When the drive elements (2) of the wind turbine (23) are impinged by the wind, the wind energy is transferred first to the drive elements (2), then to the movable toothed belt (6), next to the base cog wheels (6 a) and finally via an output shaft (6 b) via any necessary linkage to an external dynamo (17). It can be seen by one skilled in the art that other ways of practicing the present invention can involve means other than cog wheels and toothed belts.
Dolor Neuropático Fisterra
According to another embodiment of the invention, an orbiting drum wind turbine for capturing energy from a flowing fluid medium has solar power cells installed on the turbine, along with tracking automation and operational control that serve, during a calm, to position the turbine so as to optimize performance of the cells based on the position of the sun. Dolor lumbar cancer . The rotary crane (12) rotates to position the turbine (23) at an azimuth that will maximize the effect of the flowing fluid medium on the turbine. In addition, the angle of incidence of the flowing fluid medium on the base is adjusted in response to the flow speed of the fluid medium.
There is also at least one base cog wheel engaging the belt and receiving the mechanical energy from it. The turbine is configured so that when a flowing fluid medium such as wind impinges on the drive element, the drive element simultaneously spins and travels along the continuous orbiting course, thus capturing energy from the impinging fluid medium and transferring the energy to at least one base cog wheel via the belt.
Fisioterapia Querétaro Calendarios
The stationary surface is designed to grip the surface of the drive element wheel, permitting the drive element wheel to roll along over the stationary surface but preventing the drive element wheel from slipping on the stationary surface. Furthermore, in place of a gear wheel and toothed belt a smooth wheel could engage a stationary surface using only frictional forces to make the wheel turn as it rolls along the surface. Mounted to the end of the drive element shaft (2 a) in a fixed manner are the drive element cog wheels (5 a) that engage into the stationary toothed belt (5) on one side of the drive element cog wheels. The stationary toothed belt (5) provides an opposing surface for the drive element cog wheels (5 a) that engage the movable toothed belt (6) on the opposite side.