Stacked and integrated electric power generating device capturing multiple light sources for power generation

A stacked and integrated electric power generating device for capturing multiple light sources for power generation has a first concentrating photovoltaic module and a second concentrating photovoltaic module. The first concentrating photovoltaic module 10 has a transparent solar concentrating panel and a thin film solar cell. The second concentrating photovoltaic module is positioned below the first concentrating photovoltaic module with an interval, such that the first and second concentrating photovoltaic modules are in the form of a stacked and integrated structure, and the second concentrating photovoltaic module can absorb the light concentrated by the transparent solar concentrating panel to generate electric power.

CROSS-REFERENCE TO RELATED U.S. APPLICATIONS

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NAMES OF PARTIES TO A JOINT RESEARCH AGREEMENT

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REFERENCE TO AN APPENDIX SUBMITTED ON COMPACT DISC

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BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to an electric power generating device, and more particularly to an innovative design of a stacked and integrated electric power generating device capturing multiple light sources for power generation.

Due to the prevailing concepts of environmental protection and energy conservation, and in view of the dwindling and depleting oil resources, the development and promotion of green energies are taken as a priority by governments around the world, and it is planned to replace traditional energies with green energies. So-called green energies include solar power, water power, wind power etc, among which solar power is believed to be more convenient and environment-friendly. Therefore, nowadays there are vigorous technological developments to use solar power for electric power generation.

In the principle of traditional solar power generation, a solar panel is exposed to sunlight to absorb solar power, a semi-conductor is used to generate electrons (i.e. the cathode) and electron holes (i.e., the anode), and the electrons and electron holes are separated to cause a voltage drop, so as to convert solar power into electric power. However, although the conventional solar panel structure has been in application for many years and it can meet the need for electric power generation, in actual application, for a fixed generating capacity, usually an array of multiple solar panels are distributed to absorb more sunlight for higher power generation efficiency. As a result, the total installation has a very large size and occupies a lot of space. The installation cost is also very high. Meanwhile, with one solar panel alone, its power generation efficiency can hardly meet practical demands.

Thus, to overcome the aforementioned problems of the prior art, it would be an advancement in the art to provide an improved structure that can significantly improve the efficacy.

Therefore, the inventor has provided the present invention of practicability after deliberate design and evaluation based on years of experience in the production, development and design of related products.

BRIEF SUMMARY OF THE INVENTION

The present invention discloses “a stacked and integrated electric power generating device capturing multiple light sources for power generation”. Through an innovative structure in which the first and second concentrating photovoltaic modules absorb different spectral bands that are not completely overlapped, the present invention surpasses the prior art with one single electric power generating device to substantially enhance power generation efficiency and conversion quantum efficiency, and meanwhile reduce the cost of power generation. On the other hand, the present invention can effectively reduce the installation size and installation cost of the electric power generating device, and meanwhile can increase the available space around for utilization. Therefore, compared to the prior-art structure with an array of multiple solar panels to absorb light sources, the present invention can substantially reduce the installation size and installation cost of the electric power generating device through a multiple light sources capturing structure, and can substantially enhance power generation efficiency and conversion quantum efficiency. All these are practical benefits for industrial utilization.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 to 3depict a preferred embodiment of the present invention of a stacked and integrated electric power generating device capturing multiple light sources for power generation. While such an embodiment is for description purpose only, it is not intending to limit the patent claims. Said electric power generating device05comprises:a first concentrating photovoltaic module10, said first concentrating photovoltaic module10at least including a transparent solar concentrating panel11and a thin film solar cell12configured on the transparent solar concentrating panel11in a transparent style, and said thin film solar cell12able to absorb predetermined optical spectrum bands of the light source for electric power generation, and to allow the light source to go through the thin film solar cell12(as marked inFIG. 2with Arrow A) and to cause a downward light source beam concentration effect through the transparent solar concentrating panel11; said transparent solar concentrating panel11can be implemented in the form of a Fresnel lens, so as to cause a beam concentrating effect when the light passes, and said thin film solar cell12can be in the form of an amorphous silicon thin film solar cell;a second concentrating photovoltaic module20, configured below the first concentrating photovoltaic module10with an interval, such that the first and second concentrating photovoltaic modules10,20are in the form of a stacked and integrated structure, and the second concentrating photovoltaic module20can absorb the light concentrated by the transparent solar concentrating panel11to generate electric power;particularly, the spectrum bands absorbed by the second concentrating photovoltaic module20must not completely overlap with the spectrum bands absorbed by the first concentrating photovoltaic module10(seeFIG. 3, Arrow L1represents the spectral region to be absorbed by the first concentrating photovoltaic module10, Arrow L2represents the spectral region to be absorbed by the second concentrating photovoltaic module20, Arrow L3shows the curve of luminous energies of the light source in different wave lengths), such that the first and second concentrating photovoltaic modules10,20can absorb different regions of the optical spectrum, and that the capture of multiple light sources can enhance the power generation efficiency; said second concentrating photovoltaic module20can be implemented as a single chipset in any type of gallium arsenide, copper indium gallium diselenide, or cadmium telluride (without limitation, any other types like copper indium diselenide can be adopted by the present invention), or as multiple chipsets constructed through combination or lamination of any of the above gallium arsenide, copper indium gallium diselenide, or cadmium telluride, for example, the top layer is gallium arsenide, and the bottom layer is copper indium gallium diselenide. Moreover, when the second concentrating photovoltaic module20is a multilayer chipset, the different layers can absorb different regions of the optical spectrum, such that the lower layers can further absorb different regions of the optical spectrum of the light transmitted from the upper layers. In this way, the multiple light sources capturing effect and power generation efficiency can be further enhanced.

By adopting the above structure, with just one electric power generating device05, the power generation efficiency and conversion QE (Quantum Efficiency) can be substantially enhanced, and the cost of power generation can be reduced. Comparing to the conventional structure to distribute an array of multiple solar panels to absorb light sources, the present invention can realize the same power generation capacity without the need for an array of multiple solar panels, and can therefore effectively reduce the installation size of the electric power generating device05as well as the installation cost, and can meanwhile increase the available space around for utilization. Hence, it provides convenience and practicability in application. To conclude, through a multiple light sources capturing structure, the present invention can substantially enhance power generation efficiency and meanwhile reduce the cost of power generation, size of installation as well as cost of installation. All these are practical benefits for industrial utilization.

Referring toFIG. 1, the electric power generating device05disclosed in the present invention can be configured as a single chipset or any type of multiple chipsets. Any type of configuration can be adopted according to application requirements.

In addition, the thin film solar cell12on the first concentrating photovoltaic module10can be configured on the transparent solar concentrating panel11through any method of sputtering, chemical vapor deposition, coating or lamination with no limitation.