JP2001192680A - Additive for liquid fuel and method for producing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an additive for a liquid fuel capable of relatively easily and inexpensively being produced and imparting various kinds of remarkable effects in relation to the additive for adding to a fuel oil with a view to reducing a fuel consumption by an engine, etc., suppressing exhaust gases, increasing power, improving silence properties or the like and a method for producing the additive. SOLUTION: This method for producing the additive for the liquid fuel is characterized by repeatedly passing a gas oil previously mixed with metabolites of various kinds of bacteria, etc., through innumerable natural radium ores 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an additive to a liquid fuel such as light oil, diesel, gasoline, and heavy oil used as a fuel for an internal combustion engine and a method for producing the same. That is, an additive to be added to fuel oil for the purpose of reducing fuel consumption of an engine or the like, suppressing waste gas, increasing power, and improving quietness, and a method for producing the same.

[0002]

2. Description of the Related Art Japanese Unexamined Patent Publication (Kokai) No. 63-54497 discloses a technique using an organometallic compound having germanium or silicon as a core as a combustion promoter composition for petroleum-based fuels. Is described as having poor solubility and limited utility value.

[0003] Further, there has been proposed a combustion accelerator containing an organic polysiloxane compound represented by a chemical formula having a special structure, which has excellent melting properties for petroleum fuels,
It shows an excellent combustion promoting effect.

[0004]

However, the production cost of the combustion promoter containing the special organic polysiloxane compound as described above increases. Further, effects other than promotion of combustion cannot be expected.

On the other hand, various additives are commercially available.
In many cases, highly volatile components are added or treated with far infrared rays. And the disadvantages of these additives are:
No significant effect can be obtained.

A technical object of the present invention is to provide an additive for a liquid fuel which can be manufactured relatively easily and inexpensively and which can obtain various remarkable effects, focusing on such a problem.

[0007]

The technical problem of the present invention is solved by the following means. A first aspect of the present invention is an additive for a liquid fuel obtained by treating a liquid fuel such as light oil or the like by repeatedly passing it between countless natural radium ores.

[0008] As described above, the additive obtained by treating gas oil or the like by repeatedly passing between countless natural radium ores is used when the light oil or the like slides between countless natural radium ores. The gamma rays emitted from the natural radium ore effectively act on light oil and the like, and clusters of light oil and the like are refined.

As a result, when this additive is added to the liquid fuel, the clusters of the liquid fuel itself are also miniaturized.
Combustion is promoted, and as a result, fuel economy is reduced, waste gas is reduced,
It produces effects such as power-up and improved quietness.

A second aspect of the present invention is an additive for a liquid fuel in which metabolites of various bacteria are mixed in advance into a liquid fuel such as light oil according to the first aspect. As described above, the additive in which light oil or the like in which metabolites of various bacteria are mixed in advance with natural radium ore has a more excellent effect of promoting combustion than the additive to which metabolites of various bacteria are not added. Was admitted.

A third aspect of the present invention is a method for producing a liquid fuel additive, wherein a liquid fuel such as light oil is repeatedly passed between countless natural radium ores.

As described above, according to the method in which light oil or the like is repeatedly passed between countless natural radium ores, it is possible to produce natural radium ore simply by providing a circulation device for light oil or the like. An additive having an excellent accelerating effect or the like can be easily produced at low cost.

A fourth aspect of the present invention is a method for producing a liquid fuel additive, which comprises mixing metabolites of various bacteria in advance into a liquid fuel such as light oil according to the third aspect. In this way, an additive having a more excellent combustion promoting effect can be easily produced at low cost simply by mixing metabolites of various bacteria into light oil or the like in advance.

[0014] A fifth aspect of the present invention is to provide various kinds of bacteria, which are obtained by steaming soybeans, processing them into a paste, incubating the soybeans, cultivating the soybeans, and then sterilizing by heating at a high temperature and separating the precipitate from the extract. Is a method for producing metabolites. Either the heat sterilization at a high temperature or the separation of the precipitate from the extract may be performed first. The separated extract can be used as it is, but once concentrated, it is easy to handle and its performance is improved as compared with the case where a thin extract is used.

As described above, according to the method in which soybeans are steamed and processed into a paste, bacteria are added thereto, cultured for a predetermined period of time at a predetermined temperature, sterilized by heating at a high temperature, and an extract is separated from a precipitate. Metabolites of various bacteria suitable for being added to such light oil or the like in advance can be easily and inexpensively produced. In addition,
Metabolites produced by this method are not limited to addition only,
It can also be added to foods and drinks to promote health.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment will be described in which the additive of the liquid fuel and the method for producing the same according to the present invention are practically embodied. FIG. 1 is a perspective view illustrating a liquid fuel manufacturing apparatus according to the present invention.

Reference numeral 1 denotes a light oil tank, which contains light oil as a raw material for producing an additive. Reference numeral 2 denotes a tank containing the natural radium ore 3, which is packed with countless natural radium ores 3. The size of the natural radium ore 3 is, for example, about several mm to several cm, but is not limited to this size.

This device has a circulation structure in which the light oil in the light oil tank 1 repeatedly passes through the gap between the natural radium ores 3. That is, one end of the pipe 4 with the pump P is inserted into the light oil tank 1, and the other end is inserted into a tank of natural radium ore (hereinafter abbreviated as “ore tank”) 2. Therefore, the light oil in the light oil tank 1 can be pumped up and pumped into the ore tank 2.

One end of another pipe 5 is connected to the bottom side of the ore tank 2, and the other end is inserted above the light oil tank 1. Therefore, the light oil pressed into the ore tank 2 by the pump P is pushed out to the pipe 5 after passing between the myriad of natural radium ores 3, and is pushed back to the light oil tank 1 again. Thereafter, the light oil in the light oil tank 1 is again pumped to the ore tank 2 by the pump P. So about 4
Circulate for 8 hours.

As described above, when the light oil in the light oil tank 1 is pressurized by the pump and passes between the natural radium ores 3 in the ore tank 2 many times, the light oil and the natural radium ore slide. Γ-rays are effectively generated from the natural radium ore 3 and act on light oil.

At this time, the bonds of the clusters of light oil are subdivided and refined. As a result, when light oil in which the clusters are finely divided is added to the liquid fuel in a small amount, the clusters of the entire liquid fuel are also finely divided, so that combustion is promoted and the combustion efficiency is improved.

As described above, it is desirable that the light oil slides with the natural radium ore 3 in a pressurized state, so that the light oil passing through the ore tank 2 can be pressurized.
A suitable structure is that the bottom plate 6, the top plate 7 and the side walls are hermetically sealed.

It has been found that when metabolites of various bacteria are added to light oil in the light oil tank 1, combustion is further promoted. Various bacteria include bifidobacterium
um bifidum (bifidum), bifido
Bacterium infantis, bifidobacterium br
eve (breve), bifidobacteri
umadolesentis (adrecentis),
Five types of bifidobacteria such as bifidobacterium longam (longum) are suitable, but fungi of animals such as horses and dogs and soil fungi can also be used. Such bacteria are not limited to liquid fuels and can be added to tempura oil or the like to suppress deterioration and last longer.

Metabolites of various bacteria to be added to light oil include:
It can be manufactured inexpensively and easily as follows. Soy is used as a raw material. First, steam the soybeans, put them in clean water, and knead them into a paste. Next, the inoculum is put therein and stored at about 39 ° C. for about 5 days. During this time, the bacteria are cultured.

Next, after heating at a high temperature to kill the bacteria, purified water is further added, and the precipitate and the extract are separated. Then, when the separated extract is concentrated, the production of the concentrated extract is completed.

After adding the concentrated extract thus produced in a small amount of about 1/5000 to 1 / 10,000 of the total amount of light oil to be put in the light oil tank 1, the ore tank 2 is added for about 48 hours by the apparatus shown in FIG. Repeatedly through and circulate. When an extract that is not concentrated is used, it goes without saying that the amount of addition is increased.

Although light oil has been exemplified as a raw material of the additive to the liquid fuel, diesel, gasoline, heavy oil and the like can be used in addition to light oil and kerosene. Therefore, any ordinary liquid fuel oil can be used.

The liquid fuel additive according to the present invention thus produced is actually added to a liquid fuel and used.
The following reports were obtained as a result of tests such as fuel efficiency with the cooperation of more than one person. The addition amount is as small as about 1% with respect to the liquid fuel.

The fuel savings after the addition of the additives of the present invention are wide, ranging from a maximum of about 50% to a minimum of 16.5%. It can be determined that fuel economy can be reduced.

In addition, everyone feels that the start dash has become faster, and that everyone has a stronger power. Also, everyone feels that the engine sound has become quieter. More than 90% feel that the cooler is getting cooler.

It is judged that the excellent test results were obtained because the addition of the additive of the present invention improved the combustion efficiency. Also, as a result,
Various types of waste gas are also expected to be suppressed.

Since it burns in a state closer to complete combustion,
Since the dirt of the lubricating oil and the damage to the engine are small and the burden is reduced, the life of the engine is also improved.

The metabolites of various bacteria produced from soybeans by the above-mentioned method can be added not only to the addition of liquid fuel additives to raw material gas oil and the like, but also to foods and drinks for promoting health. . That is, it is recognized that eating and drinking the metabolites of these various bacteria or eating and drinking in addition to the various foods and drinks are suitable for promoting health.

[0034]

According to the present invention, the additive obtained by treating gas oil or the like by passing it repeatedly between countless natural radium ores or the like is used to slide light oil or the like between countless natural radium ores. When passing through, the gamma rays emitted from the natural radium ore effectively act on light oil and the like, and clusters of light oil and the like are miniaturized.

As a result, when this additive is added to the liquid fuel, the clusters of the liquid fuel itself are also miniaturized.
Combustion is promoted, and as a result, fuel economy is reduced, waste gas is reduced,
It produces effects such as power-up and improved quietness.

The additive obtained by treating light oil or the like, in which metabolites of various bacteria are mixed in advance with natural radium ore, as compared with the additive to which metabolites of various bacteria are not added, as described in claim 2, is more effective than the additive to which metabolites of various bacteria are not added. The effect is better.

According to a third aspect of the present invention, light oil or the like is repeatedly passed between countless natural radium ores.
Since it can be produced simply by preparing a natural radium ore and providing a circulating device for light oil or the like, an additive excellent in the effect of promoting combustion as described above can be produced easily at low cost.

As described in the fourth aspect, by simply mixing metabolites of various bacteria in light oil or the like in advance, it is possible to easily and inexpensively produce an additive having a superior combustion promoting effect and the like.

According to a fifth aspect of the present invention, the soybean is steamed and processed into a paste, the bacteria are added thereto, cultured for a predetermined period, then heat-sterilized at a high temperature, and the precipitate is separated from the extract. It is possible to easily and inexpensively produce metabolites of various bacteria suitable for being added to light oil or the like in advance. Moreover,
Metabolites produced by this method are not limited to addition only,
It can be added to food or drink as it is for health promotion.

[Brief description of the drawings]

FIG. 1 is a perspective view illustrating a production apparatus used in a method for producing a liquid fuel according to the present invention.

[Explanation of symbols]

 1 light oil tank 2 tank containing natural radium ore (ore tank) 3 natural radium ore P pump 4.5 pipe

Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (reference) C10L 10/00 C10L 10/00 C12P 1/04 C12P 1/04 Z F02M 25/14 F02M 25/14 F 27/06 27 / 06 F23K 5/08 F23K 5/08 Z // C12N 1/20 C12N 1/20 A F term (reference) 3K068 AA11 AB05 AB35 EA02 4B064 AH19 CA02 CC01 CD22 CE02 CE03 CE08 DA16 DA20 4B065 AA21X AC14 AC15 AC16 BB27 BC32 BD08 BD13 BD15 BD16 CA60 4H013 AA04 4H015 AA09 AA16 AB05

Claims (5)

[Claims] 1. An additive for a liquid fuel obtained by treating a liquid fuel such as light oil or the like by repeatedly passing it between countless natural radium ores. 2. The liquid fuel additive according to claim 1, wherein metabolites of various bacteria are mixed in the liquid fuel such as light oil or the like in advance. 3. A method for producing a liquid fuel additive, wherein a liquid fuel such as light oil is repeatedly passed between countless natural radium ores. 4. A liquid fuel such as light oil or the like, wherein metabolites of various bacteria are mixed in advance.
3. The method for producing a liquid fuel additive according to claim 1. 5. After soybeans are steamed and processed into a paste,
A method for producing metabolites of various bacteria, which comprises sterilizing by heating at a high temperature and separating a precipitate and an extract after culturing the bacteria.