JP6255774B2 - Weedproof sheet and solar power generation facility - Google Patents

Description

  The present invention relates to a weedproof sheet and a photovoltaic power generation facility.

  A herbicidal sheet that is laid on the ground to prevent weeds from growing is known (see, for example, Patent Document 1). For example, in a large-scale ground-installed solar power generation (mega solar power generation) facility, if weeds grow on a large site, power generation efficiency may be reduced due to the shadow of the weeds. Therefore, a weedproof sheet is used as a countermeasure against weeds in such a case. The weedproof sheet is easy to construct and maintain, and can prevent weeds from prospering for a long time. In many cases, the color of the herbicidal sheet is dark, such as black, dark green, dark ash, or brown, so as to match the scenery of the surrounding land.

Registered Utility Model No. 3168939

  When the sun protection sheet receives sunlight, it absorbs infrared rays and the surface temperature tends to rise. This increase in the temperature of the weedproof sheet may adversely affect the surroundings. For example, in the case of solar power generation, it is known that the power generation efficiency decreases as the temperature in the vicinity of the solar power generation device (solar panel) increases. That is, when the surface temperature of the grass protection sheet rises, the temperature in the vicinity of the solar power generation device also rises, which may reduce the power generation efficiency and reduce the amount of power generation.

  The present invention has been made in view of such conventional problems, and its main purpose is to suppress an increase in temperature.

In order to achieve the object, the weedproof sheet of the present invention is a weedproof sheet having a surface treated on the surface, and the surface treatment is performed by infrared rays on the surface of the weedproof sheet before the surface treatment. It is a process in which the infrared reflectance of the surface of the grass protection sheet after the surface treatment is higher than the reflectance.
According to such a weedproof sheet, an increase in the surface temperature of the sheet can be suppressed, and an increase in the temperature in the vicinity of the laying place can also be suppressed.

In order to achieve such an object, the weedproof sheet of the present invention is a weedproof sheet having a surface treated surface,
The herbicidal sheet has a two-layer structure consisting of a layer of a polyester nonwoven fabric and a layer of a high-density polyester continuous fiber nonwoven fabric ,
The surface treatment is a treatment in which the infrared reflectance of the surface of the grass protection sheet after the surface treatment is higher than the infrared reflectance of the surface of the grass protection sheet before the surface treatment, and The treatment is characterized by applying a resin paint.
According to such a weedproof sheet, an increase in the surface temperature of the sheet can be suppressed, and an increase in the temperature in the vicinity of the laying place can also be suppressed.

In this weedproof sheet, it is desirable that the surface of the weedproof sheet after the surface treatment is white.
According to such a herbicidal sheet, light having a wavelength that contributes to power generation can be reflected, and power generation efficiency can be improved.

In this weedproof sheet, it is desirable that the surface of the weedproof sheet after the surface treatment is further imparted with antifouling properties.
According to such a weedproof sheet, a high infrared reflectance can be maintained over a long period of time.

Moreover, the solar power generation device of the present invention includes a solar power generation device that generates power by receiving sunlight,
Surface treatment is applied to the surface, a weedproof sheet laid on the ground around the solar power generation device,
A solar power generation facility with
The herbicidal sheet has a two-layer structure consisting of a layer of a polyester nonwoven fabric and a layer of a high-density polyester continuous fiber nonwoven fabric ,
The surface treatment is a treatment in which the infrared reflectance of the surface of the grass protection sheet after the surface treatment is higher than the infrared reflectance of the surface of the grass protection sheet before the surface treatment, and , A process of applying resin paint,
It is characterized by that.
According to such a solar power generation facility, an increase in temperature near the solar power generation device can be suppressed. Furthermore, since weeds can be prevented from growing by the weedproof sheet, it is possible to suppress a decrease in power generation efficiency.

  According to the present invention, it is possible to suppress an increase in temperature.

It is the schematic of the solar power generation facility in this embodiment. It is the schematic side view which looked at the mount frame 120 from the side. It is a figure which shows the change of the surface temperature in a thermal-insulation measurement. It is a figure which shows the change of the back surface temperature in a thermal-insulation measurement.

=== Embodiment ===
<About photovoltaic power generation facilities>
FIG. 1 is a schematic diagram of a photovoltaic power generation facility in the present embodiment.

As shown in FIG. 1, the photovoltaic power generation facility of the present embodiment includes a photovoltaic power generation apparatus 100 and a weedproof sheet 200.
The solar power generation device 100 is a power generation device that converts sunlight into electric power. The solar power generation device 100 of the present embodiment is a ground installation type, and includes a solar panel 110 and a gantry 120. As shown in the figure, a plurality of cells 112 are arranged in one solar panel 110.

  The cell 112 is a basic unit configuration (element) in photovoltaic power generation. Light energy is absorbed by the electrons in the cell 112 and converted into electrical energy by the photovoltaic effect. The cell 112 is formed, for example, by crystallizing silicon to form an ingot (crystal column), which is cut into thin electrodes. As the silicon, single crystal silicon or polycrystalline silicon is used. Moreover, it is not restricted to this, For example, amorphous silicon etc. are applicable.

  The solar panel 110 is formed by arranging necessary cells 112 and covering them with a weather-resistant material (tempered glass, resin, metal frame, etc.) so that they can be used outdoors. Usually, in order to obtain a required power generation amount, a large number of solar panels 110 are connected vertically and horizontally as shown in FIG.

  The gantry 120 supports the plurality of solar panels 110.

  FIG. 2 is a schematic side view of the gantry 120 as viewed from the side. In addition, illustration of the solar panel 110 is abbreviate | omitted in FIG. As shown in FIG. 2, the solar panel 110 is attached to the upper surface of the gantry 120 so as to obtain a large amount of light energy from the sun. The inclination angle θ is usually in the range of 10 to 45 degrees (in this embodiment, θ = 45 degrees). In addition, the shortest distance (d of FIG. 2) of the solar panel 110 attached to the mount 120 and the ground is usually 50 cm or more (d = 50 cm in this embodiment). In this case, if weeds with a height of 50 cm or more grow around the solar power generation device 100, the solar panel 110 may be shaded by weeds, and power generation efficiency may be reduced. Therefore, in this embodiment, in order to prevent such overgrowth of weeds, the weedproof sheet 200 is laid on the ground around the solar power generation device 100.

  The weedproof sheet 200 prevents weeds from growing by blocking the irradiation of sunlight to the ground. The weedproof sheet 200 of the present embodiment is a sheet having a two-layer structure (upper layer: polyester nonwoven fabric, lower layer: high-density polyester long fiber nonwoven fabric) that is highly effective in preventing weeds from growing. If the weedproof sheet 200 easily absorbs infrared rays of sunlight, the surface temperature of the weedproof sheet 200 is increased by receiving sunlight, and the temperature in the vicinity of the solar panel 110 is also increased. Here, it is known that in solar power generation, the power generation efficiency increases as the temperature decreases, and conversely, the power generation efficiency decreases as the temperature increases. In general, it is said that the power generation efficiency decreases by about 4% with a temperature increase of 10 ° C. When the temperature is 50 ° C, the power generation efficiency decreases by about 10% compared to the reference temperature (25 ° C). It will be. In view of this, the surface of the weedproof sheet 200 of the present embodiment is coated with a paint that increases the reflectance of infrared rays (a high solar reflectance paint as described later) (surface treatment). Since such a surface treatment is performed, the herbicidal sheet 200 of the present embodiment hardly absorbs infrared rays even when receiving sunlight, and can suppress an increase in temperature.

  In the present embodiment, antifouling properties are imparted to the paint used in the surface treatment. The antifouling property is imparted by mixing a hydrophilic agent (silica, photocatalytic titanium oxide, etc.) or a water repellent (silane, silanol, etc.) into the paint. In addition, you may apply | coat said material after performing a surface treatment. By carrying out like this, antifouling property is provided to at least the outermost surface of the weedproof sheet 200. Thereby, a high infrared reflectance can be maintained over a long period of time. This is particularly effective when the surface is white.

  As described above, the temperature increase in the vicinity of the solar power generation device 100 (including the solar panel 110) is suppressed by laying the weedproof sheet 200 with increased infrared reflectance around the solar power generation device 100. can do. In addition, weeds can be prevented from prospering by laying the weedproof sheet 200, so that weed shadows do not occur. Therefore, a decrease in power generation efficiency of the solar power generation device 100 can be prevented.

  Moreover, it is possible to increase the amount of solar radiation to the solar panel 110 by the light reflected by the surface of the herbicidal sheet 200 (light having a wavelength that contributes to power generation). Thereby, the power generation amount of the solar panel 110 can be improved.

=== Example ===
≪Reflectance measurement≫
<Weedproof sheet>
“Weed Shield for Solar Power” manufactured by Shirasaki Corporation
Material: Polyester (two-layer structure)
Surface color: green

<Use paint>
Uses paint that selectively reflects infrared rays.
SK Kaken Co., Ltd. acrylic silicone resin paint (green, white)
SK Kaken Co., Ltd. acrylic resin paint glossy (green, white)

<Test body>
Comparative example ... No surface coating Example 1 ... Acrylic silicon resin paint (white) painted on the surface Example 2 ... Acrylic silicon resin paint (green) painted on the surface Example 3 ... Surface Acrylic resin paint glossy (white) painted Example 4 ... Acrylic resin paint glossy (green) painted on the surface

<Test method>
The reflectance (solar reflectance, infrared reflectance) of each specimen was measured according to the following two JIS.
・ JIS R 3106 (Test methods for plate glass transmittance, reflectance, emissivity, and solar heat gain)
・ JIS A 5759 (film for architectural window glass)

<Test results>
Table 1 shows the measurement results of reflectivity at each level.

  As shown in Table 1, in all the wavelength regions and near-infrared regions, the coated herbicidal sheets (Examples 1 to 4) had higher reflectance than the comparative example. In particular, the reflectance of the white paint (Examples 1 and 3) was significantly higher than that of the green paint (Examples 2 and 4).

≪Measurement of thermal insulation≫
<Test body>
The comparative example in the above-mentioned reflectance measurement and Example 3 (acrylic resin paint glossy (white)) are used.

<Test method>
The test body (herbicidal sheet) was irradiated with an infrared lamp for 10 minutes, and the surface temperature and the back surface temperature were continuously measured with a thermocouple.

<Evaluation results>
FIG. 3 is a diagram showing a change in the surface temperature in the thermal insulation measurement, and FIG. 4 is a diagram showing a change in the back surface temperature in the thermal insulation measurement. 3 and 4, the horizontal axis represents the infrared irradiation time (minutes), and the vertical axis represents the temperature (° C.). Table 2 shows the temperature measurement results after 10 minutes.

  As shown in Table 2, the surface temperature of the weedproof sheet 200 of the comparative example (without painting) increased to 88.1 ° C, whereas the surface temperature of the weedproof sheet 200 of Example 3 (white painted) was 74.2 ° C. Met. Thus, the surface temperature was lowered by 13.9 (= 88.1-74.2) ° C. by painting.

  Also, the back surface temperature decreased by 15.6 (= 79.3-63.7) ° C. by coating.

  Thus, it is possible to suppress an increase in temperature by performing surface coating that increases the reflectance of infrared rays on the herbicidal sheet 200. Moreover, since the reflectance of white is higher than the reflectance of green, it is possible to further suppress an increase in temperature by making the color of the coating white. Further, in the case of white, light of other wavelengths (for example, wavelengths that contribute to power generation) is also reflected. Therefore, when used for solar power generation, the amount of power generation can be improved.

=== About Other Embodiments ===
The above embodiment is for facilitating the understanding of the present invention, and is not intended to limit the present invention. The present invention can be changed and improved without departing from the gist thereof, and it is needless to say that the present invention includes equivalents thereof. In particular, the embodiments described below are also included in the present invention.

<About the weedproof sheet 200>
Moreover, in the above-mentioned embodiment, although the grass prevention sheet 200 was laid on the ground around the solar power generation device 100, it is not restricted to this. For example, you may lay also on the ground of the installation place of solar power generation device 100 (below solar power generation device 100). Moreover, you may use for the weed countermeasures of places other than the solar power generation device 100 (place where a temperature rise is not desirable).

<About surface treatment>
In the above-described embodiment, the paint that selectively reflects infrared rays is applied as the surface treatment of the herbicidal sheet 200, but is not limited thereto. For example, you may make it stick the film which selectively reflects infrared rays on the surface of a grass prevention sheet.

  In the above-described embodiment, the surface-treated grass protection sheet 200 also reflects light in the visible light region (wavelength 300 to 780 nm) of sunlight. Specifically, the surface is green or white, but it is sufficient that at least the reflectance of infrared rays can be increased, and light in the visible light range may not be reflected. That is, the surface may be black. For example, when the high reflectance paint black is used, the surface can be painted black and the infrared reflectance can be increased. In order to increase the reflectance of infrared rays, for example, a pigment used for toning a general paint may be used instead of a special pigment that selectively reflects infrared rays. In this case, even if it is the same dark color (for example, black), it becomes a “high solar reflection paint” having a higher solar reflectance than a general paint. For example, the same effect can be obtained even if hollow beads (ceramic beads or glass beads) are included. Note that the mechanism for reflecting infrared rays is not limited to this.

  However, in the case of photovoltaic power generation as in the above-described embodiment, the surface of the weedproof sheet 200 is desirably white in order to increase power generation efficiency. For example, when θ in FIG. 2 is 45 degrees and the ground is covered with snow, it has been reported that the amount of solar radiation increased by 6% and the amount of power generation increased compared to the case without snow ((goods)). Hokkaido Electric Safety Association data). Therefore, the same effect (effect which raises power generation efficiency) can be expected by making the surface of the weed prevention sheet 200 white.

100 photovoltaic power generation device 110 solar panel 112 cell 120 mount 200 weedproof sheet

Claims (5)

A herbicidal sheet with a surface treated surface,
The herbicidal sheet has a two-layer structure consisting of a layer of a polyester nonwoven fabric and a layer of a high-density polyester continuous fiber nonwoven fabric ,
The surface treatment is a treatment in which the infrared reflectance of the surface of the grass protection sheet after the surface treatment is higher than the infrared reflectance of the surface of the grass protection sheet before the surface treatment, and A herbicidal sheet, which is a treatment for applying a resin paint. The weedproof sheet according to claim 1,
The surface of the weedproof sheet after the surface treatment also reflects light in the visible light range,
A herbicidal sheet characterized by that. The weedproof sheet according to claim 2,
The surface of the weedproof sheet after the surface treatment is white,
A herbicidal sheet characterized by that. A weedproof sheet according to any one of claims 1 to 3,
Antifouling property is further imparted to the surface of the grass protection sheet after the surface treatment,
A herbicidal sheet characterized by that. A solar power generation device that generates power by receiving sunlight; and
Surface treatment is applied to the surface, a weedproof sheet laid on the ground around the solar power generation device,
A solar power generation facility with
The herbicidal sheet has a two-layer structure consisting of a layer of a polyester nonwoven fabric and a layer of a high-density polyester continuous fiber nonwoven fabric ,
The surface treatment is a treatment in which the infrared reflectance of the surface of the grass protection sheet after the surface treatment is higher than the infrared reflectance of the surface of the grass protection sheet before the surface treatment, and , A process of applying resin paint,
A solar power generation facility characterized by that.