JP2011224529A - Apparatus for increasing underwater dissolved oxygen - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a highly versatile apparatus for increasing underwater dissolved oxygen to increase retained underwater dissolved oxygen and also maintain the retained underwater dissolved oxygen for a long period of time.SOLUTION: The apparatus includes activating the retained raw water while sucking by a pump via a suction filter incorporating a filter substance which oscillates an electromagnetic wave of a far-infrared region thereby subdividing a cluster of a water molecule of the sucked raw water, supplying oxygen from an oxygen nitrogen separator for supplying high-concentration oxygen to a reduced gap between the finely subdivided water molecule clusters via a fine bubble generating nozzle flowing in a bubble mixing part, which oscillates the electromagnetic wave of the far-infrared region, installed on the pump discharge side to dissolve it stably and in a high concentration, and causing the retained water to reduce the high oxygen concentration water.

Description

  The present invention relates to an apparatus for increasing dissolved oxygen in water for increasing the dissolved oxygen in staying water and maintaining the dissolved oxygen concentration of staying water for a long time.

In recent years, many techniques have been developed that use water in which dissolved oxygen is increased in comparison with normal water by injecting oxygen bubbles into water for the cultivation of seafood and the promotion of crop growth. For example, raw water aspirated from a water tank and high-concentration oxygen are pumped into a sealed container, and oxygen is dissolved in water while applying pressure to generate dissolved oxygen water. This dissolved oxygen water is placed in the water tank with a fine bubble generating nozzle. The technique to send in via is proposed. (For example, see Patent Document 1)
JP 2006-167612 A

  In the conventional technology, raw water and oxygen are mixed with a pump and pressurized to dissolve the pressurized oxygen in the form of fine bubbles in the raw water, and the fine oxygen is generated from the fine bubble generating nozzle disposed in the raw water tank. Bubbles are released. However, in such a conventional technique, even though oxygen as a gas can be miniaturized, the gap between the molecules of water that dissolves the gas is large, resulting in large bubbles, floating and separating due to the difference in specific gravity, and dissolved. There was a problem that the amount of oxygen could not be maintained for a long time.

  The present invention solves the above-mentioned conventional problems, and increases the amount of dissolved oxygen in water, and is a small and highly versatile dissolved oxygen in water that can maintain the increased amount of dissolved oxygen in water for a long time. The aim is to provide an increase device.

  In order to solve such a problem, the present inventor has studied an object that oscillates a resonance electromagnetic wave in the far-infrared region that resonates with water, which is important for the earth and living organisms. As one method, far-infrared resonance electromagnetic waves are radiated from aluminum vapor-deposited film treated at an appropriate temperature, heated compressed air discharged from a high-pressure blower, sodium complexes with multiple carboxyl groups as ligands, or specific natural stones. It is found that water is activated by electromagnetic waves oscillated from the radiation object, PH is increased by about 2 points, redox potential is reduced, and dissolved oxygen is increased. It came to.

  In addition, aluminum vapor deposition films that emit electromagnetic waves in the far infrared region, sodium complexes, and natural stones are surrounded by substances that contain many free electrons such as aluminum and copper, and compounds that have carbon atoms in the basic structure of the structure. It was also discovered that by appropriately controlling the temperature, an electromagnetic wave in the far-infrared region is transferred to the substance, and an oscillator of resonant electromagnetic waves having the same effect as the electromagnetic wave in the far-infrared region can be obtained from the substance itself.

  The apparatus for increasing dissolved oxygen in water according to the present invention sucks raw water with a suction filter that operates to activate raw water with a substance that emits electromagnetic waves in the far-infrared region as described above, and to stably hold fine bubble gas in water. A circulating pump, an air compressor that introduces air, an oxygen-nitrogen separator that supplies high-concentration oxygen from the introduced air, and the water drawn by the pump is circulated and reduced to raw water with an increased amount of dissolved oxygen A fine bubble generating nozzle is provided. Therefore, high-concentration oxygen can be dissolved in raw water such as a tank or pond for a long time.

  The apparatus for increasing dissolved oxygen in water according to the present invention has the above-described configuration, so that when high-concentration oxygen is dissolved in raw water and circulated and reduced to raw water such as a water tank or a pond via a fine bubble generating nozzle, the pump is added. Oxygen refined by pressure mixing can be dissolved in a large amount for a long time.

  In addition, the surrounding raw water is activated by the water having a large amount of dissolved oxygen that is resonance-excited by the far-infrared rays reduced in the above state, and becomes water with a lot of dissolved oxygen-containing space, sucking air, and as a result, dissolved oxygen There is also an effect of naturally increasing the amount.

  As described above, water radiated with electromagnetic waves in the far-infrared region excites hydrogen bond electrons between water molecules and emits them into the water, causing the redox potential of the water to be reduced, and the electrons released into the water are It is also released into the air and taken into the outline of nitrogen in the air. As a result, nitrogen is negatively ionized and activated. Furthermore, the negatively ionized nitrogen by receiving the electrons excited by the resonance electromagnetic wave in the far-infrared region separates the hydrogen bond and combines with the hydrogen ion present in the air to form an amino group (NH group), which dissolves in water. This has the effect of increasing the pH of water.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a system diagram of the dissolved oxygen increasing apparatus of the present invention.
FIG. 2 is an operation diagram of the suction filter of the present invention.

  In the present invention, when increasing the amount of dissolved oxygen in raw water such as a tank or pond, as shown in FIG. 1, the raw water 1 is a suction filter 2 and a suction pipe 4 incorporating a substance that emits electromagnetic waves in the far-infrared region. Then, the air is sucked by the pump 3. As shown in FIG. 2, the sucked raw water 1 is resonantly excited by electromagnetic waves 12 in the far-infrared region radiated from the suction filter 2, the hydrogen bonds of the water molecular tubes are separated, the clusters are fine, and a gas such as oxygen Becomes the active water 11 having a space that can be dissolved in a fine state, and is sent to the fine bubble generating nozzle 6 through the discharge pipe 5, and the air sucked by the air compressor 7 is separated into oxygen and nitrogen through the compressed air pipe 8. By mixing with oxygen having a high concentration in the machine 9, it is dissolved in the active water 11 as fine bubbles, and is circulated and reduced from the fine bubble generating nozzle to the raw water.

  Further, according to the present invention, the active water 11 irradiated with the electromagnetic wave in the far infrared region by the suction filter 2 is discharged through the fine bubble generating nozzle 6, so that the resonance in the far infrared region is also from the active water 11. Electromagnetic wave 12 is radiated, hydrogen bonds between water molecules in the surrounding raw water 1 are resonantly separated and activated, and not only does dissolved oxygen naturally increase by taking air between fine clusters of water molecules, The presence of hydrogen ions and electrons released by the separation of hydrogen bonds reduces the raw water to alkali and helps improve water quality.

  In addition, the electromagnetic wave oscillated from a sodium complex having a ligand of a plurality of carboxyl groups as heated compressed air or a plurality of carboxyl groups as a source of electromagnetic waves in the far infrared region of 5 to 50 terahertz according to the present embodiment, Resonant electromagnetic waves oscillated by irradiating an aluminum vapor-deposited film applied at an appropriate temperature can be used. By the resonance electromagnetic wave, hydrogen bonds of water molecules in the air or water can be separated, the rotational motion of the water molecules can be excited, and the water cluster can be refined.

  Water is not a single molecule, but hydrogen is bonded to each other to form a cluster and rotate. The hydrogen bonds between the water molecules are relatively weak, and the hydrogen bonds of water are excited by the electromagnetic waves in the far-infrared region of the natural frequency, resulting in intense rotational movement and separation of the hydrogen bonds. The starting point of the effect of the invention is considered. When water resonating and resonating with electromagnetic waves in the 5 to 50 terahertz far-infrared region of the present invention is reduced again to raw water, the raw water itself becomes an oscillation source of the electromagnetic waves, activating surrounding water and propagating the action.

  With the apparatus of the present invention, PH6.5 well water was circulated in a water tank. After 2 hours of operation, PH increased by 2 points to 8.5, the oxidation-reduction potential reached 100 mV or more, and dissolved oxygen. It was confirmed that the amount was 20 ppm or more and the raw water was three times or more.

  It was also confirmed that the dissolved oxygen retained a value of 15 ppm or more even after 30 days or more.

  Further, it was confirmed that the accumulation of sludge was reduced when the sewage in the sewage accumulation pond of the domestic wastewater treatment facility was continuously circulated using the suction filter constituting a part of the present invention.

Industrially available fields

  The dissolved oxygen increasing apparatus of the present invention is useful for purifying river lakes and fishery ponds where sludge is accumulated due to water retention or infiltration of sewage, and also useful for promoting plant growth. is there.

System diagram of the dissolved oxygen increasing apparatus of the present invention Action diagram of the suction filter of the present invention

DESCRIPTION OF SYMBOLS 1 Raw water 2 Suction filter 3 Pump 4 Suction pipe 5 Discharge pipe 6 Fine bubble generation nozzle 7 Air compressor 8 Oxygen nitrogen separator 9 Compressed air 10 Oxygen 11 Active water 12 Far-infrared electromagnetic wave

Claims (3)

  Via a suction filter incorporating a substance that oscillates electromagnetic waves in the far-infrared region of a specified frequency, a pump with a self-sufficiency, an oxygen-nitrogen separator that supplies high-concentration oxygen from air, and the suction filter Consists of a fine bubble generating nozzle that stirs and mixes raw water from a tank or pond sucked by a pump and high-concentration oxygen discharged from the oxygen-nitrogen separator. A device for increasing dissolved oxygen in water, characterized by circulating reduction to raw water, etc., and converting the raw water into water with a large amount of dissolved oxygen.   A substance that oscillates electromagnetic waves in the far-infrared region of the specified frequency is incorporated into a fine bubble generating nozzle that circulates and reduces water with a large amount of dissolved oxygen in raw water such as a tank or pond, and activates the raw water around the fine bubble generating nozzle. The apparatus for increasing dissolved oxygen in water according to claim 1.   An apparatus for increasing dissolved oxygen in water, wherein the prescribed frequency according to claim 1 or 2 is set to 5 to 50 terahertz.

Images