Patent Application
20140196765
This invention relates to the field of harvesting solar energy using a system of vertically mounting a high density array of cylindrical tubular solar photovoltaic cells.
There is a need in our world for a more effective method of harvesting solar energy. Developing more efficient solar photovoltaic cell is one way to increase the amount of solar energy collected. Another way to increase the harvesting of solar energy is by packing or mounting the photovoltaic cells in such a way as to increase the amount of solar energy collected without necessarily increasing the efficiency of the solar cell.
The prior arts have continuously strived for greater and greater efficiency in the design of the photovoltaic cell. However, there is a limit to the efficiency attainable because of the limitation of materials used in photovoltaic cell. For this reason, progress in increasing the efficiency of the individual solar cell must necessarily slow down. A better system to increase the amount of energy collected may be simply to change the configuration of the photovoltaic array or by automatically tracking the sun so that the solar panel may capture the maximum amount of sunlight. For example, Edmunds, in his patent U.S. Pat. No. 8,196,572, describes a new configuration for the solar panel in the shape of a cone. Buller et al, in their patent U.S. Pat. No. 7,235,736, describes a cylindrical tubular solar cell that can absorb sunlight in any direction from reflection, refraction, diffuse sunlight, as well as direct sunlight. Other prior arts have used an automatic tracking system which rotates the flat solar panels to face the sun as the position of the sun changes. Tracking the sun provides the best solution to harvest the greatest amount of energy. However, the control system required to track the sun makes such a solar panel system too expensive to be affordable. Cylindrical solar cells promise to be the best configuration for harvesting sunlight in any direction. However, the prior arts stack the cylindrical solar cells in a horizontal array, which collect the same amount of solar energy as conventional flat solar panel. The prior arts have many varieties of solar cells in different configurations and shapes. However, all these configurations in arraying the solar cells prove to be less than efficient in harvesting the maximum amount of solar energy. Our invention is a system of mounting the solar cells in such as way as to maximize the collection of solar energy.
The objective of this invention is to configure the solar cell array in a way that maximizes the amount of solar energy collected. Our system comprises a frame which supports the solar cells. The frame comprises of an array of vertical supporting rods, evenly spaced and perpendicular to the ground. Cylindrical tubular solar photovoltaic cells with a hollow inner core will be inserted over the supporting rods on the frame. Every supporting rod will support a cylindrical tubular solar cell. The supporting rods are inserted into the inner hollow core of the cylindrical tubular solar cells, providing structural support to the vertically aligned cylindrical tubular solar cell.
Our system utilizes an existing solar cell as described in Patent U.S. Pat. No. 7,235,736 which describes a cylindrical tubular solar cell. This type of tubular solar cells was mass produced by the former Solyndra company. This type of solar cell is tubular in shape, resulting in an empty core in the center, which is filled by a volume compensator material. Our system proposes to use this type of tubular solar cell, but with the volume compensator material removed from the inner core, resulting in an empty core. Other solar cell manufacturers in the future may produce tubular solar cells that have an empty inner core through the entire tubular solar cell including openings through the caps at both ends of the tube. Our system will use this particular type of cylindrical tubular solar cell with an inner hollow empty core through the entire tube including openings at both end-caps.
Our invention is a system of mounting and configuring a specific and particular type of solar cells into an array in such a way that is novel, non-obvious and offer an improvement over the prior arts. The array configuration of vertically mounting cylindrical tubular solar photovoltaic cells is novel because it has not been tried in the prior arts before. The production of tubular solar cells has only occurred in the past decade, which makes such tubular solar cell technology a very new technology. Since the bankruptcy of Solyndra, this type of cylindrical solar tubular cells has been discontinued in production. Those skilled in the art of solar cells now find little opportunity to experiment with using cylindrical solar cells. Hence, very little progress has been made to improve the utilization of cylindrical tubular solar cells. For this reason, our system of vertically mounting and arraying cylindrical solar tubular cells is novel and will remain unique for the foreseeable future.
Our system of vertically mounting and configuring the array of cylindrical solar tubular cells is non-obvious because the prior arts have for many years utilized flat planar solar panels. Flat planar solar panels in the prior arts require mounting the planar solar panel perpendicular to the rays of the sun. Those skilled in the arts of mounting solar panels are accustomed to mounting planar solar panels in such a way as to face and track the sun. The idea of mounting cylindrical tubular solar cells into a vertical array could not have occurred to those skilled in the prior arts because cylindrical tubular solar cells are new technologies that have not been widely used in the prior arts. Furthermore, the very recent adoption of cylindrical tubular solar cells has been interrupted by the cessation of their production due to the bankruptcy of the solar cell manufacturer Solyndra, which dampens any further progress in experimenting with using cylindrical tubular solar cells. For these reasons, our invention of a system of configuring and vertically mounting cylindrical tubular solar cells into an array is non-obvious.
Our system of mounting an array of vertical cylindrical tubular solar cells offer significant improvements over the prior arts. The prior arts describe many examples of mounting a planar solar panel including incorporating motor and control system to rotate the solar panels to track the sun. However, these examples from the prior arts suffered from two major advantages. First, the cost of incorporating a motor and a control system to rotate the solar panel to track the sun make such systems too expensive to be widely used. Second, the planar solar panel from the prior arts provides only one layer of solar cells to absorb sunlight. These single layer solar panels cannot be stacked with two or more layers because the sunlight cannot pass through the first layer. Our system of mounting a vertical array of cylindrical tubular solar cells provides improvements to the above problems. First, our system utilizes an existing solar cell technology, the cylindrical tubular solar cell, which can absorb sunlight in any direction, making a sun-tracking control system unnecessary. Second, because the cylindrical tubular solar cells are long slender vertical tubes, they can be stacked into multiple vertical layers, while allowing sunlight to pass through to the other layers because sunlight can pass through the spaces between the tubular solar cells in the front layers. Thirdly, the vertical cylindrical solar cells can be produced in any length. Longer cylindrical solar cell allows more sunlight to be absorbed. Our invention describes a system of mounting long cylindrical tubular solar cells vertically into a high density array which maximizes the amount of sunlight captured by the solar array.
We will describe in detail our solar mounting system. Our mounting system is specifically designed to mount a particular type of solar cell. This type of solar cells is cylindrical and tubular in shape, with an inner hollow empty core. This type of cylindrical tubular solar cells has been mass produced in the prior arts by the former Solyndra Company.
Our solar cells mounting system comprises of a frame as depicted in
We prefer to use aluminum as the metal of choice for constructing the solar cells mounting system. Aluminum is a light weight corrosion resistant material which will facilitate installation in any environment. Furthermore, aluminum is easily molded and machined into the different components of our solar cells mounting system for ease of assembly.
The cylindrical solar cell tubes 1 are inserted over the supporting rods 6 which have been installed onto the frame 3. The diameter of the inner hollow core 2 is slightly larger than the diameter of the supporting rods 6, which allows for ease of insertion. The length of the supporting rods 6 is preferably longer than the length of the cylindrical tubular solar cell 1, which allows for structural support of the cylindrical solar cell along its entire length.
