JP4010349B2 - Light water treatment equipment - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a device for improving water quality or water contaminated with organic matter in the treatment of tap water, the production of mineral water, the paper industry, the dyeing industry, the industry using cooling water, etc. where quality deterioration is a problem. In particular, the present invention relates to a water treatment apparatus using light.
[0002]
[Prior art]
Conventionally, as a water treatment apparatus, there are chlorination, lime treatment, activated carbon treatment, ozone treatment, ultraviolet treatment, tap electrolysis apparatus, magnetic treatment apparatus, etc. in tap water production. The ultraviolet ray treatment simply uses the sterilizing effect of ultraviolet rays. Some devices use light and heat of arc discharge using a carbon electrode in water, but discharge is unstable due to discharge in water. There is a decomposing apparatus using ultraviolet rays for decomposing organic substances contained in water. However, its decomposition efficiency is not high. There is an example of adding ozone to increase efficiency. Decomposition using only ultraviolet light requires ultraviolet light with a high energy level. Therefore, the ultraviolet lamp has low luminous efficiency. To solve this problem, low-frequency light related to the vibration and rotation of organic molecules, such as infrared rays, is irradiated to activate the vibration and rotation of the molecules, and ultraviolet light is irradiated in this state. . However, there is no device that uses these two types of light.
[0003]
[Problems to be solved by the invention]
The above-mentioned conventional apparatus has a very low efficiency, but it is an object to improve this. By the way, it is well known that strong light, strong light by discharge and water are the conditions for birth of life. For example, water shot by lightning of lightning becomes life active. This is also suggested by the fact that the year when there is a lot of lightning is a good harvest and that lightning is called lightning. In order to absorb light into water, it is necessary to increase the absorption cross section of water. If the water is in the form of fine particles, the water will easily absorb light. A cloud is a collection of fine water droplets. Considering that the discharge in the lightning is lightning, it can be seen that it is effective to irradiate light to the fine water droplets. However, an apparatus for irradiating such particulate water with light has not been developed. Ultrafine carbon has a good health effect in a physiological sense. However, there was no device that produced ultrafine carbon and made it exist in a hydrated state in water. Similarly, if a mineral element is made into an ultrafine particle state and exists in a hydrated state, it can be easily absorbed into the body, but there has been no device for achieving this.
[0004]
When performing water treatment with light, ie, light treatment, a light source that emits a large amount of light close to sunlight is required. A powerful light source can be solved by a low voltage high current arc discharge between the electrodes. When arc discharge is performed in water, the arc is unstable due to water entering between the electrodes. Since the temperature is lowered, the luminous efficiency is low. It is necessary to increase the light absorption rate of water molecules Ah The These problems can be solved by discharging water in the form of particles and mist. Development of equipment that efficiently decomposes and detoxifies dioxins and other harmful organic substances that pollute water is a necessary technology for solving environmental problems. As the pollution of tap water sources increases, the amount of chlorine used for sterilization increases. Health concerns have spread and as a result, the volume of expensive mineral water sold has increased rapidly. The task is to resolve this anxiety. Develop sterilization method and sterilization device for tap water instead of chlorine. Inorganic trace minerals are not easily absorbed by the body. This is because the size of the mineral particles is not small enough to pass through the cell membrane. When minerals are made into ultrafine particles, they are stable in a hydrated state and better absorbed. Inorganic minerals have no side effects like organic minerals. Organic minerals are water-soluble and are easily absorbed by the body. However, organic minerals are at risk of serious health effects as represented by Minamata disease.
An object of the present invention is to provide an apparatus for solving such a problem.
[0005]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided a water storage tank for storing the water to be treated, a water supply pump for pumping up the water to be treated stored in the water storage tank, and a first passage for passing the water to be treated pumped up by the water supply pump. A switching nozzle, a spray nozzle that makes the treated water supplied through the first switching valve fine particles, a water treatment tank that receives the treated water made fine particles by the spray nozzle, and the water A discharge electrode disposed in a treatment tank and irradiating the water to be treated which has been made into fine particles by the spray nozzle with light generated by interelectrode discharge; a discharge power source for causing the discharge electrode to discharge between the electrodes; A control device, an electrode holder to which the discharge electrode is fixed, and moved by an electrode moving motor, and coupled to the electrode holder to keep the distance between the tips of the discharge electrodes constant. A pole moving device, a treated water tank that receives and stores treated water that has been subjected to light treatment in the water treatment tank, a circulation pump that pumps the treated water stored in the treated water tank again for light treatment, and the circulation pump A second switching valve for passing the treated water pumped up by the water and supplying the treated water to the spray nozzle as the treated water, and sequentially arranging the treated water stored in the treated water tank to be drained and bottled Pump protection filter, treated water pump, activated carbon filter and micro filter, with light In the water treatment apparatus, the water treatment tank shall have its inner surface coated with a substance having a high emissivity of far-infrared at a temperature near 36 ° C., and the temperature of the inner surface shall be maintained at 36 ° C. The discharge electrode is composed of a plurality of carbon electrodes containing a metal element, and the control device applies a voltage obtained by superimposing a high-frequency high-voltage voltage on an AC low-voltage high-current voltage between the plurality of carbon electrodes. The discharge power source is controlled to cause arc discharge between the plurality of carbon electrodes by preceding spark discharge that destroys the insulation resistance between the plurality of carbon electrodes. The light water treatment apparatus characterized by this is used as means for solving the problems.
[0008]
Claim 2 The invention described in claim 1 1 In the invention described in the above, arc discharge and spark discharge are generated. carbon A water treatment apparatus using light characterized in that electrodes are provided separately is used as means for solving the problems.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
First, utilization of the discharge action will be described. The state of discharge changes depending on the applied voltage, waveform, and frequency. Can be classified into glow discharge, corona discharge, spark discharge, and arc discharge. Glow discharge and corona discharge emit weak light. Spark discharge and arc discharge emit strong light. As glow discharge and corona discharge are used to generate ozone, gas molecules can be excited using electrons jumping out of the electrode. In order to bring water into an excited state by using this principle, water may be atomized to form a mist, and glow discharge and corona discharge may be performed in the mist. In this case, the number of electrons ejected is proportional to the electrode surface area. If the electrode area is increased, the processing capacity can be increased. The excited state of the molecule changes depending on the speed of the jumping out electrons. In the case of generating ozone, the voltage is increased within a range where no spark discharge occurs, and oxygen molecules are excited by fast electrons. When excited by slow electrons, oxygen clusters are generated. Similarly, when electrons collide with fine water, a reaction corresponding to the velocity occurs. In the case of slow electrons, they are trapped in fine particle water and the redox potential is lowered. Water in this state has a reducing power and reductively decomposes organic substances in the water. Fast electrons break down water molecules.
[0013]
When the electrode gap is narrowed and continuous discharge is performed between the electrodes, arc discharge occurs. The arc temperature is high. When a carbon electrode is used for the discharge, the arc temperature becomes 6000 ° C. or higher. Its spectrum is close to sunlight. What is necessary is just to perform the optical treatment of water using this arc light. The water treated with light close to sunlight is referred to as solar water. Light is electromagnetic waves. The state of water changes depending on the difference in the frequency of the electromagnetic wave to be irradiated. Far-infrared activates vibration. Microwave activates rotation. There is an absorption band in the near ultraviolet. Water molecules that have absorbed ultraviolet light become chemically active. In the case of performing light treatment using the difference in the state of water corresponding to the electromagnetic wave to be irradiated and the frequency of light, discharge is not stable when arc discharge is performed in water. Small surface area for light absorption of water. Light processing takes time. There are many problems such as local explosion of hydrogen concentration and explosion. In this regard, in the present invention, the problem can be solved by atomizing water into a mist and discharging in the mist. One method of turning water into particles is to use water vapor, but the energy cost is high. Therefore, it is realistic to spray and make it mist-like, and a particle diameter can also be made small enough. The particle size is determined in consideration of the water treatment time and the purpose of treatment. The particle size is usually smaller than 2 mm. If it is too small, the processing time becomes longer.
[0014]
The tap water is added with a small amount of chlorine in order to maintain the sterilizing ability. In order to remove chlorine effectively and to eliminate chlorine in the light-treated tap water, tap water may be made into fine particles and irradiated with light. Tap water was atomized to form a mist, and when a carbon electrode was used for arc discharge, chlorine could be completely removed. When water molecules are irradiated with light, they become active and become chemically active. As a result, the bond between water and chlorine breaks and vaporizes as a gas. The water in this state has a small amount of oxygen. Oxygen itself is also inactive. For this reason, the bacteria die in this water. Water that does not rot. Chlorine sterilization and chlorine addition are no longer necessary. Further, when this light-treated water is used as cooling water, there is no clogging due to oxidation and red rust of the cooling water pipe. There is no generation of slime. When water for drinking is subjected to light treatment by arc discharge, a high-purity carbon electrode should be used so that water is not contaminated by toxic metals. The number of electrodes is two or more, and a direct current or alternating voltage is applied between the electrodes to generate an arc discharge. Since water is granulated, the light absorption cross section is large. Light processing efficiency is improved.
[0015]
Metal elements emit light of a color unique to the metal during arc discharge. By irradiating light specific to this metal, light processing with special light becomes possible. The carbon electrode contains a metal element, and arc discharge is performed using this electrode. When this arc light is irradiated onto the particulate water mist, the water is light-treated with light inherent to the metal. Water treatment with selective light is possible.
[0016]
Water contains a trace amount of minerals. When this mineral is irradiated with arc discharge light, it selectively absorbs and excites light of a flame reaction color which is a color as an ion. The frequency of this light is stored in the molecular vibration of water. The human body consists of many organs. The functions given to each organ are different and the colors are also different. It has a color according to its function. The color indicates the frequency and light conditions required to perform the function given to the organ. This color is the color of mineral ions used when the organ functions. When water containing minerals necessary for the human body is light-treated, it becomes water that stores the frequency of light necessary for human health. Even if this water is absorbed by the body, the memory is not lost. It is transported to each organ and resonates the frequency of water of the function of that organ with a frequency suitable for its function.
[0017]
Ultrafine carbon is present in a hydrated state in water. As the fine particle formation method, it is preferable to evaporate from the electrode using high heat during arc discharge. The electrode is carbon. At a high temperature of 6000 ° C. or higher, carbon becomes atomic and evaporates. The boiling point of the metal element is highest at 4000 ° C. of tungsten, and it evaporates due to the high temperature during arc discharge. This evaporation can be used to make ultrafine particles. Ultrafine metal elements can exist stably in water in a hydrated state. Atomic carbon ionizes and dissolves in a hydrated state. This state acts as a kind of sugar. Moreover, it was able to confirm by analysis although it was trace amount. The action as a sugar was confirmed by a biological reaction.
[0018]
Lightning is a spark discharge caused by a high voltage. The action of arc discharge and spark discharge on water is different because of the different light conditions. High energy ultraviolet rays and shock waves as a result of ultra high temperatures act on water. This action is effective for decomposing organic substances. Effective water treatment, that is, light treatment, can be achieved by combining water treatment with low voltage, high current arc discharge and high voltage, low current spark discharge. When performing light treatment, the light source is not limited to arc discharge and spark discharge. Light is electromagnetic waves. The state of water is changed by radiating electromagnetic waves. In fact, microwave ovens radiate microwaves into water. The electromagnetic waves radiated to water include a wide range of electromagnetic waves up to far infrared rays, infrared rays having higher frequencies, visible rays, ultraviolet rays, X-rays and γ rays. The state of water changes according to the difference in frequency of the electromagnetic waves. Photosynthesis uses red light and blue-violet light. The effect of light using two or more specific lights is different from irradiating monochromatic light separately. A specific action can be strengthened by irradiating simultaneously. It was found that organic matter contained in water can be efficiently decomposed and removed when irradiated with light combining infrared and ultraviolet light. Moreover, the water irradiated with the light which mixed red light and blue light accelerates | stimulates the growth of a plant. Water irradiated with a combination of red light and orange light promotes the oxidation of the substance. Thus, the state of water changes with the combination of the color of light. There are basic rules regarding color combinations. Water irradiated with a combination of light with different frequencies, such as red and purple, functions to prevent oxidation of the substance. Water irradiated with a combination of adjacent colors in the Munsell color ring, such as red and orange or blue and indigo, promotes oxidation of the substance. Adjacent light causes a whirling phenomenon, and when the whirling frequency becomes a frequency related to the orbital motion of the molecule, the orbital motion is formed and becomes a stable state or an oxidized state. Monochromatic light has a stronger effect on water when combined with infrared rays. This is due to the fact that infrared activates the molecular motion of water. When molecular motion becomes active, the absorption spectrum of ultraviolet light becomes more visible. There is a difference in the state of water depending on the combination of three or more colors, such as when water irradiated with light of a combination of red, orange and yellow delays oxidation. Combinations of four or more colors similarly affect the water condition.
[0019]
Human organs, including the skin, have colors according to their functions. The color of the internal organs is slightly different. This color indicates the color of chemical reaction in the internal organs, that is, the difference in the action of electromagnetic waves. For example, the color of the digestive tract informs the electromagnetic waves and light necessary to promote digestion. No one has studied the action of such electromagnetic waves in chemical reactions. Water that has been irradiated with light of such a combination in light processing is in a state corresponding to the light. Water remembers its state. The memory is long and retains its state even if absorbed by the body. It is carried to each organ by blood and activates the action of that organ. Light treated with arc light close to sunlight has all the light frequencies that each organ needs, so it is good for your health. The water acting on a specific organ may be irradiated with light in consideration of the color of the organ. The body temperature around 36 ° C. means that it is necessary to irradiate a long-wavelength far infrared ray around 36 ° C. as light. When performing optical treatment of water using arc discharge, the inner wall of the treatment water tank is made a substance that radiates far-infrared rays at around 36 ° C., and the temperature of the treatment water is kept at 36 ° C. or less to carry out the light treatment. The water is light-treated with light and far infrared rays.
[0020]
【Example】
Specific apparatuses for carrying out the invention are as follows. FIG. 1 is a basic configuration diagram of a water treatment apparatus using light according to the present invention, in which water is sprayed in the form of particles, mist is formed, and light is emitted by discharge such as arc discharge in falling particulate water. It is a device that can process.
[0021]
The water treatment apparatus of FIG. Water treatment tank 1, carbon electrode 2, electrode holder 3, spray nozzle 4, water storage tank 5, water supply pump 6, circulation pump 7, treatment water pump 8, treatment water tank 9, ball tap 10, switching valve 11, activated carbon filter 12, micro The filter 13, the pump protection filter 14, the arc discharge power source and control device 15, the electrode moving motor 31, the cable 32, the insulating plate 33, the electrode moving device 34, and the fixed base 35 are the basic components. .
[0022]
The water treatment tank 1 is made of stainless steel, and its inner surface is polished. The capacity is determined from the supplied arc discharge power, processing time, and the like. The carbon electrode 2 is for performing arc discharge. The carbon electrode 2 is fixed to the electrode holder 3. FIG. 1 shows a state in which three carbon electrodes 2 are arranged in an inverted conical shape. The distance between the tips of the carbon electrodes 2 is kept within 15 mm on average. The carbon electrode 2 evaporates due to the high heat of arc discharge. Naturally, the distance between the tips increases, and the arc discharge between the carbon electrodes 2 stops. For this reason, a mechanism for controlling the gap between the carbon electrodes 2 to be constant Necessary is there.
[0023]
The carbon electrode 2 is fixed to the electrode holder 3. Electric power is supplied to the electrode holder 3 from the arc discharge power supply and control device 15 via a cable 32. The insulating plate 33 is for insulating the electrode moving device 34. The electrode moving device 34 moves up and down by the rotation of the electrode moving motor 31. The moving distance of the electrode moving device 34 is determined in consideration of the length of the carbon electrode 2. The minimum moving distance of the carbon electrode 2 is about 0.1 mm. This minimum travel distance affects the maintenance of discharge stability.
[0024]
The voltage applied to the carbon electrode 2 may be either direct current or alternating current, or a combination thereof. FIG. 1 is an example in which a three-phase AC voltage is applied. The applied voltage varies depending on the electrode material, dimensions, discharge current, and gap. When a carbon electrode is used, the voltage between the electrodes is about 20V. The arc discharge is stabilized by applying a high-frequency high-voltage voltage between any two of the three carbon electrodes 2 and causing spark discharge continuously. FIG. 2 shows a method of applying a DC voltage to the three carbon electrodes 2. In the case of arc discharge by DC voltage, the amount of electrode consumption differs between the positive and negative poles.
[0025]
The water in the water storage tank 5 pressurized by the water supply pump 6 is atomized by the spray nozzle 4 and falls in the water treatment tank 1. At this time, the light emitted by the arc discharge between the carbon electrodes 2 is irradiated. The ultrafine carbon that evaporates from the carbon electrode 2 during the arc discharge is dissolved in fine water in a hydrated state.
[0026]
The light-treated water falls into the treated water tank 9 and is stored. A circulation line is provided in the treatment water tank 9. When it is necessary to lengthen the processing time, light processing is performed using this circulation line. The circulation pump 7 is started, the switching valve 11 is switched, and the water in the treated water tank 9 is again subjected to light treatment. After the light treatment is completed, the treated water pump 8 is activated to drain the water from the treated water tank 9 and bottle it. The activated carbon filter 12 and the micro filter 13 are used for treating water as product water. The filter 14 is for protecting the treated water pump 8.
[0027]
The insulation resistance of air is large. Therefore, it is necessary to apply a high voltage to cause discharge between the electrodes. A high frequency high voltage is superimposed on the voltage applied to the carbon electrode 2, and a low voltage discharge is started using a spark discharge by this high voltage. A large amount of ions and electrons as current carriers exist between the carbon electrodes 2 due to the spark discharge, and the resistance becomes very small. As a result, arc discharge starts. When the arc discharge starts, the discharge tip of the carbon electrode 2 becomes a high temperature of 6000 ° C. or more, and electrons and ions are emitted, and the arc discharge continues. When a DC voltage is applied between the carbon electrodes 2 as shown in FIG. 2, the arc discharge is more stable than in the case of an AC voltage. In the case of alternating current, arc discharge stops momentarily and becomes unstable, so a shock wave is generated when arc discharge restarts.
[0028]
In order to actively use this shock wave, it is preferable to combine spark discharge by high frequency high voltage with arc discharge by AC low voltage and large current. In the case of single-phase AC discharge, arc discharge stops every half cycle. In the case of direct current, it is necessary to cut the arc current by some method. In the case of arc discharge using a carbon electrode, the arc discharge continues unless the voltage is lowered or the distance between the electrodes is increased. Use DC power supply In this case, once the capacitor is charged and discharged from the capacitor, instantaneous high-current arc discharge can be performed. Breaks the insulation by leading a high-voltage spark discharge that breaks the insulation resistance between the electrodes, causing a high-current arc discharge. By this method, a strong shock wave can be created.
[0029]
In the case of alternating current, the fundamental frequency of the shock wave is determined in consideration of the frequency, voltage waveform, arc current, electrode material, and electrode shape. The spark discharge electrode may also be used as an arc discharge electrode. However, in order to increase the distance of the spark discharge, it is necessary to provide a dedicated spark discharge electrode. The distance between the electrodes of the stable arc discharge is 15 mm or less. A high-frequency power source is easy to use as a spark discharge power source, but a spark discharge may be generated using a DC high-voltage power source.
[0030]
When decomposing water-dissolved paper by light treatment, the shock wave cycle was effective even at 20 cycles or less. Rather, there was an optimum value near 7.5 cycles. The effect of shock waves on water is thought to be the effect of waterfall. Takimizu has small clusters and permeability. The water is good for health. Hydrogen bonds break when shaken by a shock wave.
[0031]
When arc discharge is performed using a carbon electrode, the temperature rises in other parts than the discharge part, but is up to around 400 ° C. because it is cooled by a shower of water. This is a region that emits infrared rays. Visible light and ultraviolet rays emitted from the infrared ray and the arc of the arc discharge have a synergistic action to activate water more effectively.
[0032]
FIG. 3 shows an example in which the inner wall of the water treatment tank 1 is coated with a substance 41 having a high far-infrared emissivity at a temperature around 36 ° C. The inner wall temperature of the water treatment tank 1 is maintained at 36 degrees. The temperature of the water to be treated should be 20 ° C. or lower.
[0033]
The effect | action which the water processed in the said apparatus receives is as follows. When arc discharge is performed using a carbon electrode, carbon is atomized and evaporated from the high temperature portion at the tip. This atomic carbon is present in water in a hydrated state after being captured in particulate water. It has been clarified that this water containing ultrafine carbon has the effect of enhancing immunity.
[0034]
When an electrode containing a metal element in carbon is used for discharge, the ultrafine metal element is similarly hydrated into water. Metal elements such as calcium and magnesium are difficult to be absorbed in an inorganic state. In the organic state, it is easily absorbed by the body. An example is organic mercury that caused Minamata disease. It is not absorbed even when drinking inorganic calcium. However, metallic calcium in the form of ultrafine particles is ionized and hydrated in water. It is well absorbed by the body. This ultra-fine metal element is facilitated by utilizing the high temperature of arc discharge. After using a carbon electrode containing calcium as a metal element to perform light treatment of water by arc discharge, the treated water was analyzed. The calcium concentration was 50 ppm. The average particle size was 0.01 μm or less. The concentration depends on the calcium concentration contained in the electrode.
[0035]
This hydrated calcium is very well absorbed in the intestine. A high absorption rate was confirmed from physiological experiments. The absorption rate of inorganic calcium is usually very low. Ultrafine particles are easily absorbed in the ionized and hydrated state. Generally speaking, organic substances always have side effects because they have a specific action. After the inorganic substance is absorbed, there is no side effect because the human body converts and synthesizes it into what it needs. In this respect, inorganic materials are safe.
[0036]
When brewing a local beer with this light-treated water, the time required for fermentation was greatly reduced. The untreated water was 2 weeks and the light treated water was 10 days. The alcohol content is 5%.
[0037]
Contamination of water with chlorinated organic substances such as dioxins has become a problem. As a method for decomposing and detoxifying the chlorinated organic matter, a method using ultraviolet rays has been developed, but it is not efficient. By irradiating particulate water with light combining ultraviolet rays and infrared rays, organic substances contained in water can be effectively decomposed and removed. The illuminance of ultraviolet rays is the same when comparing the decomposition and removal ability of the method of irradiating only ultraviolet rays and ultraviolet rays and infrared rays simultaneously using water having a concentration of 1000 ppm of chlorinated organic matter. UV only: 200 ppm. Ultraviolet and infrared: 50 ppm. There was a clear difference. It is possible to increase the decomposition efficiency by changing the spectrum of ultraviolet rays and infrared rays.
[0038]
Water that is easily absorbed by the human body is water that is good for health. Water that is easily absorbed is easily discharged. The human body generates energy and discharges waste through water. Waste is drained cleanly from the cells. This is the basic reason for good health. Ten people were asked to drink tap water and this light-treated water repeatedly under the same physical conditions, and compared which was easier to absorb. It was found that the light-treated water was very easily absorbed.
[0039]
An object can be decomposed and synthesized by simultaneously irradiating the object with two or more lights having different frequencies. This method is different from the method based on the conventional thermodynamic chemistry theory, and the activation energy required for causing the reaction is a very small value. Also, virtually no chemical equilibrium conditions exist. The reaction is one way. Disposal processing of plastic products, which is currently a problem, can be completely solved by decomposing and synthesizing with this method, such as no harmful substances that reduce the processing cost, and reborn into useful resources.
[0040]
A molecular bond is that a plurality of electrons involved in a bond have a common orbit. The electrons participating in the bond have the frequency and energy corresponding to the orbit. When irradiated with light energy that resonates at this frequency, the electrons jump out of the coupling trajectory. The bond breaks. The energy required for breaking this bond is smaller than the required energy obtained by thermodynamic calculation. Two or more types of atoms or molecules in a dispersed and mixed state are irradiated with a plurality of light energies that resonate with the frequency of electrons involved in the bonding of the atoms and molecules. At this time, if the beat frequencies of a plurality of lights are set to the frequency of electrons on the combined electron orbit, the combined electrons fall into this stable orbit. A molecule can be synthesized. The combined light of a plurality of lights having different frequencies has an action of decomposing and reducing molecules. Synthetic light of near-frequency light has the action of binding and oxidizing molecules and atoms. Here too, light is considered in a broad sense and includes microwaves, far infrared rays, infrared rays, visible rays, ultraviolet rays, X-rays, and γ rays.
[0041]
The organ is a chemical factory. When considering the decomposition, digestion, and absorption of this organ, low-frequency vibrations have a significant effect. Intestinal peristalsis is closely related to digestion degradation. This peristaltic motion is pulsed and not a clean sine wave. When an organic substance that is difficult to decompose, such as cellulose, is to be decomposed, it does not decompose even when irradiated with ultraviolet rays and infrared rays simultaneously. After loosening the cellulose in water, pass it through a transparent pipe made of soft material. At this time, ultraviolet and infrared rays are irradiated from the outside. This pipe is fixed at both ends. The distance between both ends is set to a distance that resonates with low frequency vibration in consideration of the material. When a shock wave was applied to this pipe from the outside according to the resonance frequency, a part of the cellulose passing through the pipe was decomposed. This indicates that the action of sound waves and longitudinal waves can be used in chemical reactions. The frequency need not be a particularly high frequency. Rather, the frequency is often as low as 5-20 cycles.
[0042]
It can be seen from the color of the organ that the light required for the digestion stage and the light required for the synthesis stage are different. There is a relationship between the color of the liver and the reactions taking place. The deep purple color of the liver means that the light required for synthesis is light with a high frequency such as blue or purple. This light alone does not cause a reaction. It is necessary that infrared rays and far infrared rays around 36 ° C. act simultaneously. The need for light at around 36 ° C. even during the digestion stage can be seen from the fact that the stomach becomes indigestible when the stomach is cooled. In the medical explanation of indigestion, this light effect is missing. The fact that the body temperature is strictly controlled around 36 ° C. indicates that the light, far infrared rays, and infrared rays in the vicinity are necessary for advancing chemical reactions occurring in the body.
[0043]
A linear electrode is stretched at regular intervals, and a voltage that does not cause a spark discharge is applied to the electrode to generate a corona discharge. Fine water particles pass through the corona-discharged linear electrode side. Water treatment was carried out using the apparatus designed to do this. Water was reduced by electrons that jumped out of the electrode surface by corona discharge Became a state . this apparatus The oxidation-reduction potential of water when not treated with was 700 mV, and the value after treatment was minus 100 mV. This reduction in the oxidation-reduction potential is due to the particulate water capturing the electrons that have jumped out of the electrode by corona discharge. At this time, generation of active oxygen and ozone was also confirmed. The voltage was reduced to a glow discharge state. The voltage is 3000V. Similarly, the oxidation-reduction potential decreased and was minus 50 mV. The oxidation-reduction potential is more influenced by ions contained in water. It was confirmed that the organic matter was decomposed at minus 1V.
[0044]
【The invention's effect】
By using the apparatus of the present invention to irradiate particulate water with arc light of arc discharge having a spectrum close to that of sunlight, the efficiency of water treatment with light can be increased. The water irradiated with sunlight is in a state of absorbing light necessary for life, and each organ of the human body has the frequency of light necessary to perform its function. Therefore, the water is good for health.
[0045]
In the apparatus of the present invention, when a device for spark discharge is provided, ultraviolet rays having high energy are emitted and a shock wave is emitted. By applying this ultraviolet ray and shock wave to the water treatment by arc discharge, more effective light treatment can be performed. This treatment reproduces the process of birth of water and water. Therefore, it becomes water with energy of life activity.
[0046]
Tap water that has undergone light treatment using the apparatus of the present invention is free of chlorine. It is completely sterilized. Fungi die in this water. Chlorine is not necessary. In addition, it has a reducing action that does not proceed with oxidation. When used as cooling water, no deposits adhere to the tube wall, so there are no accidents related to cooling water. Available for all industries.
[0047]
Can solve water pollution caused by chlorinated organic matter. In the apparatus of the present invention, when light combining ultraviolet rays and infrared rays is emitted to contaminated water, the action of decomposing ultraviolet rays is enhanced by the interaction. By adding a metal element to the carbon electrode, arc light contains a large amount of ultraviolet rays, so that the decomposition efficiency is improved.
[0048]
When the apparatus of the present invention is used, it is possible to efficiently achieve a hydrated state that easily absorbs trace minerals necessary for the human body. Since the discharge end of the electrode during arc discharge is at a very high temperature, the elements constituting the electrode, including carbon, become atomic and evaporate. Each of these evaporated elements becomes ultrafine particles and is trapped in the particulate water and becomes hydrated. In water treated with the apparatus of the present invention, water molecules give energy. Obtained State and the cluster is small. For this reason, there is a use also in the drinking water fermentation industry.
[Brief description of the drawings]
FIG. 1 is a basic configuration diagram of an optical water treatment apparatus.
FIG. 2 is a diagram of an apparatus for applying a DC voltage to three carbon electrodes.
FIG. 3 is a diagram in which the inner wall of the water treatment tank 1 is coated with a substance having a high emissivity.
[Explanation of symbols]
1 Water treatment tank
2 Carbon electrode
3 Electrode holder
4 Spray nozzle
5 water tank
6 Water supply pump
7 Circulation pump
8 treated water pump
9 treated water tank
10 Ball tap
11 Switching valve
12 Activated carbon filter
13 Microfilter
14 Pump protection filter
15 Arc discharge power supply device and control device
31 Electrode moving motor
32 cables
33 Insulation plate
34 Electrode moving device
35 fixed base
41 Substances with high emissivity

Claims (2)

A water storage tank for storing the water to be treated; a water supply pump for pumping up the water to be treated stored in the water tank; a first switching valve for passing the water to be treated pumped up by the water supply pump; A spray nozzle that makes the water to be treated supplied through one switching valve in the form of fine particles, a water treatment tank that receives the water to be treated that has been made fine particles by the spray nozzle, and the water treatment tank, A discharge electrode for irradiating the water to be treated which has been made fine particles by the spray nozzle with light generated by interelectrode discharge; a discharge power source and a control device for causing the discharge electrode to discharge between the electrodes; and the discharge electrode A fixed electrode holder, an electrode moving device that is moved by an electrode moving motor and coupled to the electrode holder to keep a constant distance between the tips of the discharge electrodes, A treated water tank that receives and stores the treated water light-treated in the water treatment tank, a circulation pump that pumps up the treated water stored in the treated water tank again for optical treatment, and the treatment pumped by the circulation pump A second switching valve that allows water to pass through and supplies the spray nozzle as the treated water; and a pump protection filter disposed in order to drain the treated water stored in the treated water tank into a bottle. In a water treatment device by light equipped with a treated water pump, an activated carbon filter and a micro filter ,
The water treatment tank shall have its inner surface coated with a substance having a high emissivity of far infrared rays at a temperature near 36 ° C., and the temperature of the inner surface shall be maintained at 36 ° C.
The discharge electrode is composed of a plurality of carbon electrodes containing a metal element,
The controller applies a spark discharge that destroys an insulation resistance between the plurality of carbon electrodes by applying a voltage obtained by superimposing a high-frequency high-voltage voltage on an AC low-voltage high-current voltage between the plurality of carbon electrodes. The water treatment apparatus using light is characterized in that the discharge power source is controlled to cause arc discharge between the plurality of carbon electrodes in advance . The water treatment apparatus using light according to claim 1 , wherein carbon electrodes for generating arc discharge and spark discharge are provided separately.

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