KR100614814B1 - Hazardous Exhaust Gas Reduction Cream - Google Patents

Abstract

The present invention relates to a method for reducing harmful exhaust gas and increasing explosive power through air ionization of an internal combustion engine and reducing harmful exhaust gas which is a main cause of environmental pollution.

In general, existing internal combustion engine devices have a combustion efficiency of less than 70%, and more than 30% of the fuel is not completely vaporized as incomplete combustion and is discharged in particulate form, which is a major cause of polluting the atmosphere as exhaust fumes.

Applying exhaust gas reduction cream to the air intake and air purifier of internal combustion engine and spraying it on the other (fiber, foamed product, aluminum, etc.) to replenish oxygen and improve combustion, and hydrogen and hydroxide ions increase explosive power. Perfect combustion can be achieved. As a result, the amount of exhaust gas is reduced, and the exhaust gas, which is the main cause of power increase and environmental pollution, can be reduced.

Internal combustion engine, automobile, electrolysis, air ionization, air catalyst, anion

Description

Hazardous Exhaust Reduction Cream {omitted}

The present invention relates to a harmful exhaust gas reduction cream that can reduce the harmful components of the exhaust gas discharged from the internal combustion engine by air ionization.
Internal combustion engines such as gasoline engines and diesel engines generally have a rotary engine composed of a rotor and a casing called a piston type and a speed type, which serve as pistons and cylinders to convert reciprocating motions into rotary motions. The exhaust gas of all these engines is the main cause of environmental pollution due to incomplete combustion.
Specifically, air and fuel are required for the operation of the internal combustion engine, and the elements contained in the air are 77% nitrogen, 20% oxygen, 2% moisture, 0.93% argon, and 0.03% carbon dioxide. Petroleum-based fuels are made of gasoline, kerosene, diesel, heavy oil and others in order of boiling point of liquid fuel, which is formed of a combination of carbon (C) and hydrogen (H). At the rate of 14.7g, air and fuel are mixed and combusted. The internal combustion engine has a combustion efficiency of less than 70%, and more than 30% of the fuel is not completely vaporized but is incompletely burned and is discharged as particulate smoke. It is a major cause of contamination.

In addition, CO, HC, and NOx in the exhaust gas can not only cause fatal obstacles to humans but also lead to death. This is because oxygen is insufficient in the air flowing into the internal combustion engine.

When the air intake or the air purifier of the internal combustion engine is ionized to compensate for the insufficient oxygen, the explosive force is increased and the combustion is well performed to achieve complete combustion.
Water molecules in the air (H ₂ O) by applying and spraying the harmful exhaust gas reducing cream of the present invention to the air inlet and the air filter of the internal combustion engine, or by applying the cream to the surface of the fiber, foam, aluminum, and other products. ) than via the electrolytic hydrogen ions (H ⁺⁾ and hydroxyl ions (OH ^-), and hydrogen gas (H ₂₎ and oxygen (O) and well-being of combustion by compensating oxygen insufficient to ionize the air in the air inlet Hydrogen and hydroxide ions increase the explosive power to achieve complete combustion. As a result, the amount of exhaust gas is reduced, and the exhaust gas, which is the main cause of power increase and environmental pollution, can be reduced.

The present invention is a harmful exhaust gas reduction cream containing 20 to 40% by weight of tourmaline, 30 to 60% by weight of anionic powder, 10 to 20% by weight of oak charcoal powder and 20 to 25% by weight of synthetic rubber.
The tourmaline particles have a size that passes through 200-600 mesh, and the anion powder particles have a size that passes through 100-600 mesh.
The crystal of the tourmaline to be applied in the present invention has a feature that the structure itself always flows a weak current of 0.06 mA permanently. This means that both ends of the crystal have a positive electrode and a negative electrode like batteries. The negative electrode absorbs negative ions in the air and the collected negative ions are absorbed into the positive electrode, thereby releasing negative ions from the negative electrode.

Anion powder generates 9,000 in weak and 24,140 in Gangjin. It emits 96% of far-infrared rays at room temperature at 25 ° C, and has excellent Oxidation Reduction Potential (ORP) and Super Oxide Scavenging Activity (SOSA).
The oxidation / reduction reaction of the redox potential is caused by the movement of electrons, and it is the cell that causes electrons to flow to an external conductor, which converts chemical energy into electrical energy, which has a high tendency of ionization between the two electrodes of the battery (standard reduction). The metal with smaller potential value is oxidized as a negative electrode, and the metal with less tendency to ionize (larger than the standard reduction potential value) is reduced to the positive electrode. A quantitative measure of the potential difference that occurs at is expressed in voltage.

When the tourmaline and the anion powder are mixed, they are discharged in contact with water molecules (H ₂ O) to be divided into hydrogen ions and hydroxyl ions, thereby maximizing the efficiency of electrolysis. This is as a power storage electrons to the positive electrode in contact with the water molecules (H ₂ O) by the electrolytic momentarily hydrogen ions (H ⁺⁾ and hydroxyl ions (OH ^-), and the electrolysis, the hydroxyl ions (OH ^-) is directly this is combined with anions in the water ^molecule hydrogen ions is combined with (H ⁺⁾ to a negative electron-emitting normally release hydrogen atoms, and hydroxyl ion (OH). Hydrogen ions combine with electrons attracted to the tourmaline electrode and are separated into hydrogen gas (H ₂ ) and oxygen (O).

Oak charcoal makes the ionization process more active through the role of attracting water molecules of air (H ₂ O).
Water-soluble synthetic rubber has an excellent effect on mixing tourmaline, anionic powder, and oak charcoal powder, and it has elasticity after drying so that adhesive strength does not drop even after a great impact, and the coating effect is also excellent, making it suitable for making a cream-type composition.

The present invention is applied to the air inlet and the air filter of the internal combustion engine and sprayed, or by coating and attaching to the attachable article to which fibers, foams, aluminum, and other creamy substances can be attached, water molecules (H ₂ O ) is due to the electrolysis and the negative ions released hydrogen ions (H ₂₎ and oxygen ion (O), and hydrogen ions (H ⁺⁾ and hydroxyl ions (OH ^- is separated into a).

As a result, water molecules in the same amount of air generate oxygen through ionization, and hydrogen ions, hydroxyl ions, and hydrogen are formed to compensate for insufficient oxygen in the air in the internal combustion engine, so that combustion is well performed, and hydrogen and hydroxide ions increase the explosive power and burn out completely. Can be implemented.
Therefore, according to the present invention, the amount of exhaust gas is reduced and the output power is increased by increasing the explosive force, thereby reducing the exhaust gas which is the main cause of environmental pollution.

In order to achieve the above object, the present invention is a cream-like substance in which 25 to 30% by weight of tourmaline, 30 to 35% by weight of anionic powder, 10 to 15% by weight of oak charcoal powder and 20 to 25% by weight of synthetic rubber are mixed.

The tourmaline particles have a size of 200-600 mesh, preferably 300-400 mesh, and the anionic powder particles have a size of 100-600 mesh, preferably 200-400 mesh.
When the tourmaline particles are 200 mesh or less in size, it is difficult to prepare in the form of a cream, and the size of 600 or more meshes is preferably 200 to 600 mesh because of difficulty in the manufacturing process in the form of particles.
The anionic powder is also difficult to produce in the form of a cream in the size of 100 mesh or less, and the size of 100 to 600 mesh is preferable because of the difficulty in the manufacturing process in the form of particles above 600 mesh.

Tourmaline crystals are characterized by a permanent generation of a weak current of 0.06 mA.
This means that both ends of the crystal have a positive electrode and a negative electrode like batteries. The negative ions are absorbed by the positive electrode in the air and the negative ions collected are absorbed into the tourmaline anode. The negative ions are released from the negative electrode.
When the tourmaline is 25% by weight or less in the overall composition ratio, the anion emission effect and viscosity is lowered, the effect of the anion is good at 30% by weight or more, but the viscosity of the composition is gradually increased, it is difficult to make a creamy composition 25 to 30% by weight It is preferred that% is mixed.

The anion powder is made by Japan's Kiyoseki Co., Ltd., when the total composition ratio is less than 30% by weight, the anion emission effect and viscosity are lowered, and the anion effect is good at 35% by weight or more, but the viscosity of the composition is gradually increased to make the cream Since it is difficult to make a composition of a state, it is preferable that 25-30 weight% is mixed.
This is 9,000 occurrences in weak ground per 1cc and 24,140 in strong earthquakes.
At room temperature of 25 ° C, it emits 96% of far-infrared rays and is excellent in redox potential (ORP) and active oxygen superoxide scavenging activity (SOSA).
The oxidation-reduction reaction of the redox potential (ORP) is caused by the movement of electrons, and it is the cell (cell) that converts chemical energy into electrical energy that causes electrons to flow to an external conductor, which has a high tendency of ionization among the two electrodes of the battery. Oxidation reactions occur with the metal (the smaller the standard reduction potential value) as the (-) pole, and reduction reactions with the metal with the smaller tendency to ionize (the larger the standard reduction potential value) occur with the (+) pole.
The quantitative measure of the potential difference between the metals of the two electrodes is represented by voltage.

These tourmaline and anionic powders are characterized by heat and friction. When an impact, pressure, etc. are applied, anions are generated due to a lot of air ionization and a role of a catalyst.
In addition, contact with water molecules (H ₂ O) to the maximum effect. Due to its properties, it has the ability to instantly anionize and change into weak alkali.

Oak charcoal makes the ionization process more active through the role of attracting water molecules (H ₂ O) of the air.When the composition is less than 10% by weight, the ionization effect is weak and the viscosity is lowered. In the ionization effect is good, but the viscosity of the composition is gradually increased, it is difficult to prepare a composition of the cream state, it is preferable that 10 to 15% by weight is mixed.
Water-soluble synthetic rubber has an excellent effect on mixing tourmaline, anionic powder, and oak charcoal powder, and has moderate elasticity so that adhesive strength does not drop after drying, which is easy to coat on fibers, foams, aluminum, and other products. It is possible to prepare a cream for reduction, the viscosity of the composition is less than 20% by weight in the total composition ratio, the adhesive strength is lowered, and at 25% by weight or more, the viscosity of the composition is increased, the adhesive strength is lowered to maintain 20 to 25% by weight It is desirable to.
The water-soluble synthetic rubber is not selected as any one material, and any one of the existing water-soluble synthetic rubbers may be selected and applied. For example, those skilled in the art can easily select from all kinds of water-soluble synthetic rubber such as SBR latex, water-soluble rubber asphalt, water-soluble epoxy, acrylic resin rubber and coating film waterproofing material.
The cream of the present invention may be applied or sprayed to the air intake port and the air filter of the internal combustion engine.
In addition, when the coating on the surface of the fiber, foam, aluminum, other creams of the present invention can be attached to the water molecules can be ionized by electrolysis and anion release to achieve the intended purpose.
The chemical reaction of the water molecule is shown below.

H ₂ O (water molecule) → H ⁺ (hydrogen ions) + OH ^- (hydroxyl ions)

H ₂ O (water molecule) → H ₂ (hydrogen) + O (oxygen)

Electrons stored in the positive electrode are electrolyzed into hydrogen ions (H ⁺ ) and hydroxyl ions (OH ⁻ ) in contact with water molecules (H ₂ O) through electrolysis.
And hydroxyl ions (OH ^-) is directly coupled with a negative electron emitting a proton (H ⁺⁾ is usually emit hydrogen atoms, and hydroxyl ions (OH ^-) in combination with the water molecules, this is the anion. Hydrogen ions combine with electrons attracted to the tourmaline electrode and are separated into hydrogen gas (H ₂ ) and oxygen (O).
In addition, the ionization process is more active due to the temperature rise of the internal combustion engine, and the speed of the air sucked by the operation of the internal combustion engine is great.
These frictions and impacts make the ionization process more active and increase the explosive force due to hydrogen ions, hydroxyl ions and hydrogen gas.
Increased explosive power absorbs more air and increases the amount of oxygen, resulting in complete combustion, reducing emissions, the main cause of environmental pollution.

Applying the harmful exhaust gas reducing cream of the present invention as described above to the internal combustion engine air inlet and air purifier or the coated fiber, foam, aluminum and cream coated products such as the air intake of the internal combustion engine and By attaching to the air purifier, the speed of the air sucked into the internal combustion engine increases due to the ionization process caused by the temperature rise of the internal combustion engine, increasing the amount of oxygen introduced, and the ionization process caused by the friction and impact of the internal combustion engine becomes active. As this increases, complete combustion becomes possible, and thus, the environmental pollution problem can be solved by reducing the exhaust gas of the internal combustion engine which is the main cause of environmental pollution due to incomplete combustion due to lack of oxygen.

Claims (5)

A harmful exhaust gas reduction cream comprising 25 to 30% by weight of tourmaline, 30 to 35% by weight of anionic powder, 10 to 15% by weight of oak charcoal powder, and 20 to 25% by weight of synthetic rubber. The cream for reducing harmful emissions according to claim 1, wherein the tourmaline particles are sized to pass through 200 to 600 mesh. The harmful exhaust gas reduction cream according to claim 1, wherein the anion powder particles are sized to pass through 100 to 600 mesh. The harmful exhaust gas reducing cream according to claim 1, wherein the harmful exhaust gas reducing cream having the composition is selectively applied to an air inlet and an air purifier of the internal combustion engine. (Claim 4) The method according to claim 1, wherein the harmful exhaust gas reducing cream having the composition is coated on a surface selected from fibers, foams, and aluminum, and selectively attached to an air inlet and an air purifier of an internal combustion engine. Noxious emissions reduction cream.