KR101356349B1 - The Ion-fuel(Addition in the kerosene) - Google Patents

Abstract

The present invention relates to a new ion fuel developed to enjoy a fuel saving effect by adding to an existing fossil fuel using an ionic material as a fuel.
Since ionic materials are several times to several tens of times more energy than conventional fossil fuels, when they are added to existing fossil fuels and burned in very small amounts, they can increase the total combustion efficiency and save a lot of fossil fuel. Can be.
The present invention relates to a new technology in which fuel is saved by acting as a high energy source when a small amount is added to kerosene, which is a kind of fossil fuel, as an ionic fuel composed by mixing an ionic material and a stabilizer.
Ion fuel according to the present invention has the advantage that it is easy to manufacture and low price can be popularized and increase the fuel savings effect by adjusting the amount of addition as needed. In addition, it has the advantage of reducing the smoke generated when burning fossil fuels and contributing to environmental protection by promoting complete combustion to increase the efficiency of complete combustion.

Description

Ion-fuel (Addition in the kerosene)

The present invention relates to an ionic fuel prepared by mixing a stabilizer with an ionic material, and relates to an eco-friendly fuel that saves fuel and reduces soot by performing functions such as high energy generation and complete combustion when a small amount is added to fossil fuel. Technology.

Ion means a charged atom or group of atoms. Positively charged ions are called cations and negatively charged ions are called anions. The atom or atoms that originally filled all the bonds are generally stable and have a total charge of zero, ie neutral. However, when energy gained or lost due to the dissolution of polar covalent or ionic or coordinating molecules in the polar molecular solvent, electrons are biased to one side, and when the orbital is stabilized, they are separated. Gas molecules can also become ions by bombarding electrons with a certain amount of energy or by irradiating high-energy ionizing radiation or vacuum ultraviolet radiation. Of course, the sum of the charges of the ions formed from the neutral molecule or the atomic group is also zero. Previously, it was called ionization, including the case where the electrolyte became an ion, but now only the gas or the dissolved state is called ionization.

Ions composed of one atom are called monoatomic ions, and ions composed of several atoms are called atomic groups or polyatomic ions. Negatively charged ions with more electrons than protons in the nucleus are called anions.

The British scientist Faraday got this name because when electrolyzed, he was attracted to the anode in the solution. On the other hand, positively charged ions are called cations (cations). It is named because it moves to the cathode. The notation of ions indicates the number of electrons lost or obtained during ion generation by attaching (-) if an electron is obtained and (+) if it is lost. For example, hydrogen ions that have lost one electron and are charged to (+) are represented by H +.

The formation of ions is as follows. Valence electrons tend to maintain a certain number of electrons. To do this, they sometimes send electrons to other atoms or get electrons from other atoms to become ions, breaking off the overall electrical neutrality. Atomic ions and molecular ions are formed by the combination of basic ions such as hydrogen ions in the heavy component or the heavy component loses the basic ions. This kind occurs in reactions involving acids. For example, in the case of ammonia (NH3), it receives one of the basic ions, hydrogen ions (protons), and becomes ammonium ions (NH4 +). In this case, when ionized by the movement of electrons, it becomes unstable ammonia ion (NH + 3), which is classified as a radical ion. Gas molecules also become ions by bombarding electrons with a certain amount of energy or by irradiating high-energy radiation or ultraviolet rays.

The types of ions are summarized as follows.

Cation: positively charged ions, cationic

Anion: negatively charged ion, anion

Radical ions: ions having an odd number of electrons and composed from very active and unstable radicals

Plasma: A collection of ions in gaseous state is called plasma. This is called the state of the fourth substance because it differs from gas, liquid and solid in nature. More than 99.9% of the visible universe consists of a cosmic plasma of electrons and protons.

We have discussed the general aspects of ions above. An engine that uses ions as fuel is an ion engine. An ion engine is an engine that accelerates a positive or negatively charged ion molecule in an electric field and gains momentum by its reaction. Together with the plasma engine, it is considered a representative next-generation engine. However, the engine is being used more rapidly than plasma engines and other next-generation engines, and the positive and negative electric ions are accelerated in the electric field to gain propulsion. The first ion engine was the space explorer Deep Space 1, launched by NASA in space in October 1998 to test a new technology. The ion engine on Deep Space 1 has an acceleration far below Earth's gravity. But after collecting the sun's light to ionize the xenon atoms, these ions are accelerated back in a strong electric field, releasing back, and they are driven to react and move forward as fast as they cross the solar system. Deep Space 1 used an ion engine to approach the asteroid, 1992KD, in July 1999, and to photograph the asteroid, Borleli, 137 million kilometers from Earth in September 2001. . It then disappeared into space after the longest 670 days of space flight in space development, with only 72 kg of xenon fuel used. As such, the ion engine has high fuel efficiency and can achieve 10 times the driving force of a chemical engine with the same amount of fuel.

As described above, when ions are used as fuels, energy sources can be obtained several times to several tens of times more than fossil fuels. When developing ionic fuel that can be used in addition to fossil fuels by utilizing the advantages of these ionic fuels, it is possible to apply new technologies that save fuel and induce complete combustion.

KR Registered Patent Registration No. 10-0874330 (2008. 12. 09)

The present invention allows the ionic material to be actively and stably mixed with the fossil fuel by mixing a stabilizer with the ionic material so that when the fossil fuel is combusted, the ionic fuel is diffused in the fossil fuel to perform well combustion. To develop.

The ion fuel according to the present invention diffuses well into fossil fuels and burns together with fossil fuels, generating a lot of energy, consequently saving a lot of fossil fuels and promoting complete combustion at the same time, thereby contributing to environmental protection. There is a main purpose.

Ion fuel according to the present invention is largely divided into ionic materials and stabilizers. The ionic material is used as an energy source that burns and generates high energy, and the stabilizer plays a role of helping to chemically stabilize the ionic material and to mix the ionic material with fossil fuel kerosene. In other words, the stabilizer is to spread the ionic material evenly within the kerosene and spread well, so that when the fossil fuel is burned, the ionic material is also burned together.

When a small amount of ionic fuel according to the present invention is added to fossil fuels such as kerosene and burned together, a large amount of energy may be generated to experience a high fuel saving effect. In addition, since complete combustion is promoted, the amount of smoke generated is significantly reduced, which can greatly contribute to environmental protection. If the amount of ionic fuel added is properly adjusted according to the use, high fuel economy can be achieved.

In addition, since it is possible to mass-produce at a low price, it is a new technology that can greatly contribute to popularization.

Ion fuel according to the present invention is largely divided into ionic materials and stabilizers. The ionic material is used as an energy source that burns and generates high energy, and the stabilizer plays a role of helping to chemically stabilize the ionic material and to mix the ionic material with fossil fuel kerosene. In other words, the stabilizer is to spread the ionic material evenly in the kerosene and spread well, so that when the fossil fuel is burned, the ionic material also burns well.

The ionic materials developed for the purpose of saving fuel by adding to kerosene according to the present invention are "silver (Ag) ions, cobalt ions (Co ²⁺ , Co ³⁺ )" and the composition ratios are described in Table 1 below. Doing.

When mixed with kerosene and mixed with ionic materials according to the present invention, the stabilizer to help the diffusion of the ionic material "Stearic acid, saponin, lot oil" and the specific composition ratio is shown in the table below. 1].

Looking at the constituent material of the ion fuel according to the present invention in detail.

Silver (silver, 전이) is a transition metal belonging to the 5th cycle of group 11 of the periodic table. The element symbol is Ag, atomic weight 108g / mol, melting point 961.78 ℃, boiling point 2162 ℃, density 10.49 g / cm3. It is a greyish-white luster and does not react easily with air or water and reflects light well, making it a precious metal used to make jewelry. The main source of silver in ancient times is galena, often produced as lead in archaeological excavations. Already found in ancient ruins in Egypt and Mesopotamia around 3000 BC, silver jars of the Babylonian empire were excavated. Silver coins were first manufactured in Lydia's kingdom in the 6th century BC, leading to Greece and Rome. The silver symbol of the sun was associated with the crescent moon from its color and was worshiped as the goddess of the moon and was also treated in medieval alchemy.

The element symbol Ag is derived from the Latin word argentum, which means silver, and the French argent also comes from it. Silver in English and German Silber come from sarpu, which means Assyrian silver.

Generally an off-white metal but powdery grey. Next to gold, metals are malleable and thin, which makes them very thin silver foils. It also transfers heat and electricity best and has very good processability and mechanical properties. Metals such as silver, gold and platinum do not react easily with air or water. It reflects light well and is often used to make jewelry, and it is also called precious metal because the output is expensive due to its low output. Its malleability and ductility, followed by gold, occludes large amounts of oxygen in the air when melted and releases them violently when solidified. Thermal and electrical conductivity is the largest of the metals. It is stable in water and air, and does not rust very well, but turns to black silver peroxide in ozone and black silver sulfide in sulfur or hydrogen sulfide. It is insoluble in normal acids and alkalis, but it is soluble in nitric acid and warm sulfuric acid, resulting in silver nitrate and silver sulphate, and the oxidation number of ordinary compounds is +1 and +2. There are 107Ag (51.8%) and 109Ag (48.2%) as natural isotopes. About 20 synthesized radioisotopes are known.

Silver is found in ore in the form of Ag2S or AgCl, and there is a cyanation method and a dry method as in the case of gold. This will be described in detail below.

1. Cyanation method: Nature is used when silver chloride, relatively pure silver sulfide, etc. are raw materials. In general, there are many impurities in the raw ore and the collection rate is not so good as 50 to 70%. For this reason, it is finely subdivided as much as possible, the density | concentration of cyanide liquid is raised (0.3-0.5%), it is fully stirred, the leaching time is extended, oxygen is removed, and the yield is raised (80-90%). Since smelting costs are higher than gold, in many cases they are combined with smelting instead of silver smelting independently.

2. Dry method: It is the same as gold. In the case of smelting of copper and lead, put ore together, extract like copper and lead and separate it last. Crude silver obtained above is refine | purified by electrolytic refining.

About 15% of the total supply is used to make money. More than 70% have good processability and mechanical properties, so they are used for industrial purposes. It is widely used for silver plating, bearings, photographic industry, kitchen equipment, soldering and dental. It has long been considered a precious metal and used to make jewelry such as jewelry boxes, necklaces and rings. Silver wire is used in highly sophisticated machinery because of its highest thermal and electrical conductivity among metals. Copper is used for economical reasons for economic reasons. Sterling silver is so soft that it is used in combination with various metals.

Cobalt is an iron group element belonging to the 4th cycle of group 9 of the periodic table. The element symbol is Co, atomic weight of 58.933g / mol, melting point of 1495 ℃, boiling point of 2927 ℃, density of 8.90g / cm3. It is a transition metal with a gloss similar to iron, which was once known as a blue-green compound in porcelain and glass, and causes pernicious anemia when deficient as an essential component of vitamin B12 (cobalamin). Since ancient times, it has been known as a blue-colored compound for ceramics and glass, and it is already used in ancient Egypt. In 1735, Swedish chemist Georg Brandt succeeded in separating cobalt from the ore. The name cobalt was difficult for the cobalt ore to smelt because it originated from the miners' belief that cobalt had a demon called cobalt and the Greek kobals. There is a theory.

In nature, it is mainly produced by combining with arsenic or sulfur. Smaltite is the main mineral and is also found in copper or lead ore and is also found in meteorites. It is present relatively abundantly with a Clark number of 0.0023, and the average content of seawater is 0.3 microgram / liter. Major producers are Africa, Congo, Zambia, and Morocco, with about 80% of the world's total output in Africa, followed by Ontario in Canada. A shiny metal similar to iron, ferromagnetic. It does not melt well when heated, and does not corrode well even if it is left rusted on the surface. It slowly dissolves in acid to generate hydrogen and dissolves in oxidizing acid to form cobalt (II) salt. In concentrated nitric acid, as with iron, it forms a passivation. Cobalt is an essential mineral for animals, including humans, causing pernicious anemia when it is deficient as an essential component of vitamin B12 (cobalamin). As a natural isotope, 59Co (100%) exists.

After burning ore, it is dissolved in a suitable acid to remove impurities, and cobalt hydroxide is precipitated. Then, it is heated to an oxide, and charcoal is added to reduce it at 1,000 ° C to obtain a metal powder. In addition, hydrogen reduction may be carried out by leaching roasted ore with acid or ammonia in an autoclave, or extracted with sulfuric acid, followed by electrolysis with a lead alloy anode. Electrolytic purification is frequently used to purify crude metal cobalt.

It is important as an alloy, and is used for magnetic materials such as high-speed steel and permanent magnets, heat-resistant and corrosion-resistant steel, and the like. As a nonferrous alloy, what is excellent in oxidation resistance, corrosion resistance, abrasion resistance, mechanical properties, etc. can be obtained at high temperature. Used as an oxidation catalyst in chemical reactions and used in lithium batteries. It is used for the production of cobalt 60, which is an isotope, and blue pigments such as glass and ceramics.

Stearic acid is a saturated higher fatty acid with 18 carbon atoms. It is an ester with glycerol and is widely contained in fats and oils of animal and plant systems and phospholipid. The chemical formula is C18H36O2. It is white leaf-shaped crystal | crystallization at normal temperature, melting | fusing point 71-71.5 degreeC and freezing point 69.4 degreeC. Insoluble in water, but soluble in organic solvents. Fats that are solid at room temperature, such as cattle and sheep, are especially high in content, and relatively small in liquid vegetable oils. Soap is made by saponifying fats and oils with sodium hydroxide, the main component of which is the sodium salt of stearic acid. In addition, a mixture of stearic acid and palmitic acid is used in large quantities in the manufacture of candles, drugs such as ointments, and cosmetic creams.

Saponin (saponin) means that the non-sugar portion of the glycosides widely present in the plant system is composed of several ring compounds. D-glucose, D-galactose, and L-arabinose are well known in the sugar moiety, but methylpentose, uronic acid, and deoxysaccharides may be used in some cases. Aglycone is classified into two types, triterpenoids and steroids. An example of the former is glycyridine in the roots or stems of licorice, and an example of the digitonin extracted from the leaves of digitalis. Plant roots, stems, leaves, bark, seeds, etc., has a strong action as a cardiac medicine or diuretic, has been used as a herbal medicine since ancient times. All of them act as surface active agents on the cell, destroying the structure of the cell membrane or enhancing the permeability of the substance. In addition, stearin, alcohol, phenol and the like form a poorly soluble molecular compound. Therefore, hemolysis of erythrocytes is thought to be due to the strong binding of cholesterine in the erythrocyte membrane to saponin and destruction of the membrane structure.

The lotion (turkey red oil) is oil dissolved in olive oil by sulfuric acid, and after the age of 19, it has been used in the textile industry as the only surfactant other than soap. Acid resistance, hard water resistance, osmotic and emulsifying properties are superior to soaps, and are currently used as emulsifiers for agricultural chemicals, dyeing aids for acid dyes, cutting oil additives, and tanning agents. Also known as turkish red oil or sulfated oil. A concentrated sulfuric acid is applied to fatty oils such as castor oil, olive oil, cottonseed oil, and soybean oil at 35 ° C. or lower to remove unreacted sulfuric acid, followed by neutralization of the product with alkali. In the middle of the 19th century, it is used to prevent staining by natural red alizarin dye and to obtain uniform dyeing. Yellow or brown viscous liquid, soluble in water, with high surface activity. Since 1928, until several new synthetic surfactants have appeared, they have long been used in the textile industry as the only surfactants besides soap. Compared to soaps, they have excellent acid resistance, hard water resistance, osmoticity, and emulsification, but their detergency is poor. As an inexpensive anionic surfactant, it is used as an emulsifier of agrochemicals, dyeing aids of acid dyes, cutting oil additives, tanneries, and the like.

The composition ratio of the ionic fuel composed of the above-mentioned materials is shown in [Table 1].

The above composition ratio is a result of finding the most suitable golden ratio through repeated experiment. The ionic materials according to the above composition ratios play a role of generating energy by burning with kerosene, and the stabilizer composed of the above components ratio functions to make the ionic materials diffuse evenly in the kerosene. It helps to burn well.

[Example]

To 50 liter (L) kerosene, 25 ml of ion fuel according to the present invention (put at a ratio of 2,000: 1) were prepared at the mixing ratio of [Table 1] and the result was as shown in [Table 2]. The experiment was carried out as a kerosene stove fuel consumption test, and the experiment was carried out under the same conditions. And the fuel consumption is the result of experiment for 10 minutes with the same kerosene stove.

Claims (1)

Silver (Ag) ion 3-7wt%, Cobalt ions (Co ²⁺ , Co ³⁺ ) 3-7wt%, Stearic acid 17-23wt%, Saponin 8-12wt%, Lot oil red oil) Ion fuel for kerosene addition, prepared for the purpose of achieving fuel saving effect by adding 55 to 65 wt% of the mixed material and adding the mixed material to the kerosene at a ratio of 0.1 wt%.