KR20010001545A - Apparatus for processing water using solar cell - Google Patents

Abstract

PURPOSE: Provided is a water treatment apparatus that does not need external electric power for operation by using solar cell. This apparatus is particularly designed to filtrate algae causing algae bloom. CONSTITUTION: The water treatment apparatus consists of (i) a solar cell (10) for changing solar-rays into electric energy; (ii) a regulator (20) for modulating electric energy irrespective of load fluctuations; (iii) an accumulator (30) for storing electric energy in the form of chemical energy; (iv) a pump (40) for rotating an impeller, thereby sucking water; (v) a filter (50) for filtrating pollutants; (vi) a controller (70) for automatically operating the pump according to pressure generated by the filter; (vii) an artificial float (60) that is equipped with the solar cell, the accumulator, the pump on the upper part of the artificial float, and also equipped with the filter at the bottom part; (viii) a device for giving buoyancy to the artificial float.

Description

Non-powered water treatment device using solar cell {Apparatus for processing water using solar cell}

The present invention relates to a non-powered water treatment apparatus using a solar cell, in particular to install a non-powered water treatment apparatus including a solar cell in order to install an artificial buoy in the artificial wetlands and to generate water flow on the artificial buoy, from the solar cell By operating the pump by using the obtained electric energy to rotate the water, and by filtering the contaminants mixed in the inhaled water by the filter, to remove the contaminants generated in the artificial wetlands without electricity from the outside, characterized in that It relates to a non-powered water treatment apparatus using a solar cell.

In general, algae species that cause hydration (ALGAE BLOOM) are about 30-50μm in size, and algae particles have the potential of repulsion due to the surface charge forming a double layer of diffusion electricity, and the algae generated by the adsorption of water particles on the surface of algae cells. It is adsorbed by the hydrophilic algae of the cell and is present in the state of macromolecule, and has stability by cell secreting organic matter. Stable algae particles have surface-floating ability due to the presence of bubbles in the cell and move according to the intensity of light. Some algae species float on the surface with long rings, forming clusters.

Conventional algae removal techniques include centrifugation, microstraining, and injuries.However, algae are removed using a mechanical system, which is complicated to operate and has a high energy consumption. Used to be reviewed and applied.

Currently, when treating algae grown in most artificial lakes, only algae or flocculant is applied to kill algae. However, these methods have only a temporary effect, and as time passes, algae particles that have settled on the lake floor after resuscitation may be re-emerged, and a large amount of organic matter is generated by the killed algae itself, causing a massive growth of bacteria and Decomposition of organic matter by oxygen consumes oxygen and depletes oxygen in water bodies, causing the death of aquatic organisms, and the resulting nutrients act as internal pollutants and are used by algae to reproduce lake water deterioration. In addition, when used as a water source can cause a number of secondary problems, such as causing algae taste and smell by the algae during the water treatment and promote the production of THMs.

The present invention is to solve the above problems,

By rotating the water through the pump using the electrical energy generated from the solar cell, and by filtering the contaminants contained in the water with a filter, to remove the contaminants generated in the artificial wetland, and also from the solar cell The collected electricity is always charged in the battery, so that the pump can be operated even in cloudy weather or at night.

As a means for achieving the above object,

The present invention is a solar cell designed to convert the energy of sunlight into electrical energy,

A regulator connected to the solar cell to maintain the voltage or current of the output constant regardless of the change in the input or output load of the electricity collected from the solar cell;

A storage battery connected to the regulator and designed to repeat charging and discharging again and again by storing electrical energy through the regulator as chemical energy;

A motor pump receiving the water from the regulator or the storage battery and rotating the internal impeller while receiving and outputting the lake water;

Characterized in that it comprises a filter for filtering contaminants in the inflow source water output from the motor pump.

1 is a block diagram of a non-powered water treatment apparatus of the present invention.

Figure 2 is an illustration of an installation state of the present invention.

Explanation of symbols on the main parts of the drawings

10: solar cell 20: regulator

30: storage battery 40: motor pump

50: filter 60: artificial portion

70: controller 80: pressure sensor

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of the present invention, Figure 2 is an installation state diagram of the present invention,

A solar cell 10 designed to convert solar energy into electrical energy,

A regulator 20 connected to the solar cell 10 to maintain the voltage or current of the output constant regardless of a change in the input or output load of electricity collected from the solar cell;

A storage battery 30 connected to the regulator 20 and designed to repeat charging and discharging again and again by storing electrical energy through the regulator as chemical energy;

A motor pump 40 that receives power from the regulator 20 or the storage battery 30 and rotates an internal impeller while receiving and outputting lake water;

A filter 50 for filtering contaminants from inflow water output from the motor pump 40;

The artificial part 60 for installing the solar cell 10, the storage battery 30 and the motor pump 40 at the top and connecting the filter 50 to the bottom to fix it;

It comprises a buoyancy providing device 62 to provide buoyancy to the artificial buoy 60 to maintain a variety of devices floating on the water.

The solar cell 10 generally refers to a silicon photovoltaic cell, and an electric field of N-type surplus electrons and P-type holes is usually made by diffusing boron with a thin P-type region of 1 to 3 μm on an N-type silicon surface. As a result, electrons generated by light passing through the P-type and reaching the PN junction are in the N-type, holes are collected in the P-type, and current flows to the external circuit.

The theoretical photovoltaic efficiency of the silicon photovoltaic cell reaches 22% and the voltage is 1.12V. However, in practice, the silicon photovoltaic cell has a conversion efficiency of about 13% and a voltage of about 0.45V due to various losses.

Therefore, in practice, many devices are connected in series and in parallel to secure and use a necessary power supply.

In the present invention, the solar cell 10 having the above function is connected to the storage battery 30 so that the electric energy accumulated on a cloudy day or at night can be used.

Then, a constant voltage is applied to the raw water inflow motor pump 40 by using the regulator 20, and the raw water inflow motor pump 40 is interlocked with the controller 70 to provide a time interval and a pressure installed at the front end of the filter. It is operated according to the pressure change of the sensor 80.

Then, the contaminated raw water is input to the filter unit 50 using the motor pump 40 to filter the contaminants.

Figure 2 shows the installation of the present invention,

The artificial part also has a solar cell 10, a storage battery 30, and a motor pump 40 for introducing raw water.

Where 41 is the raw water inlet pipeline, 42 is the pipeline providing raw water to the filter, 43 is the bypass line and 44 is the bypass valve.

In addition, the filter 50 is connected to the lower portion of the artificial buoy 60 with a wire 61 to hold the center of the artificial buoy 60 so as to filter contaminants from the water flowing from the raw water through the filter 60. When a certain pressure is applied to the filter 50, the raw water is immediately bypassed through the bypass line 43.

Therefore, by using the present invention, it is possible for a person to purify the artificial wetland without having to manage it all the time.

Hereinafter, the filter 60 will be described in more detail.

Inside the filter, suspended solids in the water are removed using a disposable cylindrical follicle composed of cotton polypropylene (polypropylene, polyester, nylon) and the like.

When suspended matter accumulates in the filter, the internal pressure of the system rises above a certain level, which is transmitted to the pressure sensor and controller to stop the pump and replace the filter cloth.

The cylindrical filter cloth may be about 150 mesh, and the mesh may be selected according to the water quality of the target reservoir to be treated.

In addition, a double woven filter cloth is used to prevent damage to the cylindrical filter cloth and to prevent leakage of contaminants.

In order to support the filter cloth, the filter support uses a basket-shaped support as an inner cover, and the outer case uses a special plastic housing.

For reference, the filter inlet portion of the cylindrical filter cloth is screwed or flanged to facilitate installation, and the flange-type filter cloth is treated with a gasket seal to prevent leakage of contaminants.

Such a filter has a structure that can be connected in series to increase the surface area and increase the processing capacity, and can be fixed to both ends of the floating frame installed with an artificial buoy.

As described above, the present invention installs a device for generating a flow of water in the artificial wetlands, by rotating the water through the pump using the electrical energy generated from the solar cell, and by filtering the filter contained in the artificial, To remove contaminants generated in the low-wetland, and the electricity collected from the solar cell is to charge the battery at all times to provide the effect of allowing the operation of the pump even in the absence of weather conditions or at night.

Claims (4)

A solar cell 10 designed to convert solar energy into electrical energy, A regulator 20 connected to the solar cell 10 to maintain the voltage or current of the output constant regardless of a change in the input or output load of electricity collected from the solar cell; A storage battery 30 connected to the regulator 20 and designed to repeat charging and discharging again and again by storing electrical energy through the regulator as chemical energy; A motor pump 40 that receives power from the regulator 20 or the storage battery 30 and rotates an internal impeller while receiving and outputting lake water; A filter 50 for filtering contaminants from inflow water output from the motor pump 40; Controller 70 for automatically controlling the operation of the motor pump 40 in accordance with the pressure generated in the filter 50, The artificial part 60 for installing the solar cell 10, the storage battery 30 and the motor pump 40 at the top and connecting the filter 50 to the bottom to fix it; The non-powered water treatment apparatus using a solar cell, characterized in that it comprises a buoyancy providing device 62 to provide buoyancy to the artificial buoy 60 to maintain a variety of devices floating on the water. The method of claim 1, The pipeline 42 of the filter unit 50 is a non-powered water treatment apparatus using a solar cell, characterized in that the bypass line 43 and the bypass valve 44 is installed so that the raw water is bypassed if a certain pressure or more. The method of claim 1, The filter 50 is installed at the center of the lower portion of the artificial buoy 60, wherein the filter 50 is connected to both sides of the artificial buoy 50 by wire 61, wherein the non-powered water treatment using the solar cell. Device. The method of claim 1, The non-powered water treatment device using a solar cell, characterized in that the filter 50, a disposable cylindrical follicle made of a material such as polypropylene (polypropylene, polyester, nylon) cotton.