WO2012024886A1 - Solar-battery power generating system - Google Patents

Abstract

A solar-battery power generating system comprises a combustible gas station (1) and a solar-battery station. The solar-battery station has multiple power generating units (2-1) spliced and formed by solar panels (2-1-1). Each power generating unit (2-1) is arranged adjacent to each other to form a power station with a porous structure. Multiple combustible gas lamps (1-1) are fixed within the through holes of the power generating units (2-1) by corresponding fixing components (3). A heat insulation glass cover (4) is disposed between the combustible gas lamp (1-1) and the solar panel (2-1-1) arranged around the combustible gas lamp. A vent is disposed at the bottom of the power generating units (2-1). The solar-battery power generating system can convert the chemical energy of the combustible gas into electrical energy by the solar panel without pollution and reduce power generating cost.

Description

 Solar cell power generation system

 The present invention relates to a power generation system, and more particularly to an artificial light solar cell power generation system. Background technique

 The advantages of using solar power are well known, and current solar power generation is based on solar panels. For the time being, the utilization rate of solar panels is still very low, but the cost of solar panels is high, which leads to high cost of solar power generation. The factors that cause low utilization of solar panels are mainly as follows: 1. The influence of the illumination period can only be generated by solar panels in the case of solar illumination during the day, and is greatly affected by changes in light intensity; Due to the limitation of the space of the site, laying a large number of solar panels requires a considerable space and also makes maintenance difficult.

Summary of the invention

 The technical problem to be solved by the present invention is to disclose an artificial light solar cell in order to improve the current utilization rate of solar panels which are relatively expensive, increase the power generation efficiency of solar panels, and reduce the cost of power generation by using solar panels. A power generation system that aims to convert the chemical energy of a combustible gas into electrical energy through a solar panel in a clean and pollution-free manner.

The technical solution adopted by the present invention to solve the technical problem thereof is: an artificial light solar cell power generation system including a flammable gas station and a solar battery station, the solar energy The battery station has a plurality of power generating units of a through-hole structure formed by splicing of solar panels, each power generating unit is adjacent to a power generating pile having a porous structure; and a plurality of flammable gas lamps are outputted from the flammable gas station, and flammability The gas lamps are disposed in the through holes of the respective power generating units through corresponding fixing members; a heat insulating glass cover is disposed between the flammable gas lamps and the surrounding solar energy panels, and vents are provided at the bottom of each power generating unit. When the flammable gas lamps in each power generating unit are ignited, the solar panels around the flammable gas lamps will be subjected to continuous and intense illumination to generate electricity with high efficiency, and the insulating glass cover is used to isolate the surrounding of the flammable gas lamps. Hot air is directed upwards, while natural wind is automatically replenished from the vents at the bottom of the power unit to prevent hot air from burning the solar panels.

 Due to the limitation of the manufacturing dimensions of the solar panels, the size specifications of the power generating units are not likely to be made large. In order to meet the actual needs, each power generating unit includes a plurality of through-hole structures surrounded by solar panels. The subunits, the subunits are stacked up and down to form a power generating unit having a through-hole structure, and the power generating unit is further composed into a power generating stack.

 In order to ensure sufficient and intense illumination of each solar panel of each subunit, a flammable gas lamp is placed at the center of each subunit.

 The power generating unit has a regular hexagonal cross section, and the entire power generating pile has a honeycomb structure. The advantage of designing the honeycomb structure is that the solar panels that can be placed in the unit space have the largest space area and the overall structure is the most stable.

 The flammable gas station is selected as a biogas station or a liquefied petroleum gas station or a natural gas station. Since biogas is a renewable resource, the production cost is extremely low, biogas can be produced after biogasification of straw, human and animal waste, defoliation, weeds, etc., and the calorific value of biogas is high, so the biogas station is preferred.

When the flammable gas lamp in each power generating unit ignites the illumination, a strong hot air flow will be generated above the top of each power generating unit, so a small wind power generator is disposed at the top of each power generating unit, thereby enabling small wind power generation to be improved. The utilization of resources. In order to further increase the light intensity in the power generating unit after ignition of the flammable gas lamp and reduce the loss of light energy, a reflective film is attached to the surface of the fixing member for mounting the flammable gas lamp.

 In order to improve the light intensity and reduce the light energy loss in the power generation unit after ignition of the flammable gas lamp, the vertical distance between the flammable gas lamp set in each power generation unit and the surrounding solar panels is selected as 30cn! ~ 100cm.

 The invention has the beneficial effects that the artificial light solar cell power generation system achieves the purpose of converting the chemical energy of the combustible gas into electric energy through the solar panel in a clean and pollution-free manner. As long as the flammable gas lamp continues to ignite, the power generation process of the solar panel will continue, so the power generation process is no longer restricted by the sunlight illumination period, and the power generation efficiency is greatly improved, and if a renewable resource such as biogas is used to generate Light energy will further save resources and power generation costs. In addition, the densely designed solar cell power reactor also saves a lot of space on the site. In summary, the present invention indirectly reduces the cost of power generation using solar panels by increasing the utilization of solar panels.

DRAWINGS

 The invention will now be further described with reference to the accompanying drawings and embodiments.

 Figure 1 is a schematic view of the structure of the present invention;

 2 is a schematic plan view showing the power reactor of the present invention.

In the figure: 1. Flammable gas station 1-1. Combustible gas lamp 2. Power reactor 2-1. Power generation unit 2- 1-1. Solar panel 2-1-2. Subunit 3. Fixing member 4. Insulating glass cover 5. Small wind turbine detailed description

 An artificial light solar cell power generation system, as shown in FIG. 1, includes a flammable gas station 1 and a solar battery station, and the solar battery station has a plurality of channels surrounded by solar panels 2-1-1. a power generation unit 2-1 having a hole-like structure, each power generation unit 2 1 is adjacent to a power generation stack 2 having a porous structure (see FIG. 2); and a plurality of flammable gas lamps 1-1 are output from the flammable gas station 1 The flammable gas lamp 1-1 is disposed in the through hole of each of the power generating units 2-1 through the corresponding fixing member 3; the heat insulating glass is disposed between the flammable gas lamp 1_1 and the surrounding solar panel 2-1-1 The cover 4 is provided with a vent at the bottom of each power generation unit 2-1.

 Each of the power generating units 2-1 includes a plurality of sub-units 2-1-2 connected by a solar cell panel 2-1-1, and each sub-unit 2-1-2 is vertically stacked correspondingly to form a through-hole shape. The power generation unit 2-1 of the structure and the power generation unit 2-1 constitute the power generation stack 2. A flammable gas lamp 1 - 1 is provided at the center of each of the subunits 2-1 - 2.

 In this example, the power generating unit 2-1 has a regular hexagonal cross section, and the entire power generating stack 2 has a honeycomb structure.

 The flammable gas station 1 is a biogas station or a liquefied petroleum gas station or a natural gas station. This example is preferably a biogas station.

 In this example, a small wind turbine 5 is provided at the top of each power generating unit 2-1. A reflective film is attached to the surface of the fixing member 3 for mounting the flammable gas lamp 1-1.

 The vertical distance between the flammable gas lamp 1-1 set in each power generation unit 2-1 and the solar cell panel 2-1-1 around it is selected at 30cn! ~ 100cm.

Claims

O 2012/024886 ^»^ ,^,_^ ^. PCT/CN2011/000978 Claims

 1. An artificial light solar cell power generation system, comprising: a flammable gas station (1) and a solar battery station, wherein the solar battery station has a plurality of solar panel (2-1-1) splicing a power generation unit (2-1) having a through-hole structure, each power generation unit (2-1) adjacent to a power generation reactor (2) having a porous structure; and a plurality of combustible outputs from the flammable gas station (1) Gas lamp (1-1), flammable gas lamp (1-1) is placed in the through hole of each power generating unit (2-1) through the corresponding fixing member (3), in the flammable gas lamp (1-1 A heat insulating cover (4) is disposed between the solar panels (2-1-1) and the surrounding solar cells (2-1), and a vent is provided at the bottom of each power generating unit (2-1).

 2. The artificial light solar cell power generation system according to claim 1, wherein each of the power generating units (2-1) includes a plurality of through-hole structures surrounded by solar panels (2-1-1). The subunit (2-1-2), each subunit (2-1_2) is stacked up and down to form a power generating unit (2-1) having a through hole structure, and the power generating unit (2-1) constitutes a power generating stack (2).

The artificial light solar cell power generation system according to claim 2, wherein: the center of each sub-unit (2-1-2) is provided with a combustible gas lamp α-ι) ₀

 The artificial light solar cell power generation system according to claim 1 or 2, wherein the power generating unit (2-1) has a regular hexagonal cross section, and the entire power generating reactor (2) has a honeycomb structure.

5. The artificial light solar cell power generation system according to claim 1, wherein: the flammable gas station (1) is a biogas station or a liquefied petroleum gas station or a natural gas station.

The artificial light solar cell power generation system according to claim 1, characterized in that a small wind turbine (5) is provided at the top of each of the power generating units (2-1).

 The artificial light solar cell power generation system according to claim 1, characterized in that a reflective film is attached to the surface of the fixing member (3) for mounting the flammable gas lamp (1-1).

 The artificial light solar cell power generation system according to claim 1, wherein: the combustible gas lamp (1-1) provided in each of the power generating units (2-1) and the surrounding solar panel (2) -1-1 ) The vertical distance is 30cn! ~ 100cm.