KR101729480B1 - Manufacturing method of liquid biofuel using waste solid organic matter and liquid biofuel thereby the same that - Google Patents

Abstract

The present invention relates to a novel manufacturing method of liquid biofuel using waste solid organic matter and the liquid biofuel manufactured thereby. The waste solid organic matter is mixed with liquid fuel after being liquefied, so disadvantages of solid fuel are removed, and ecofriendly and economical liquid biofuel which is in high quality and has a strong flame and excellent combustibility can be produced by applying advantages of solid fuel to liquid fuel.

Description

[0001] The present invention relates to a method for producing a liquid biofuel using solid waste organic materials and a liquid biofuel produced thereby,

The present invention relates to a method for producing a liquid biofuel using solid-state waste organic material and a liquid biofuel produced thereby, and more particularly, to a method for liquefying a solid fuel waste by mixing a liquid fuel with a solid- A method of manufacturing a liquid biofuel using a new type of solid waste organic material capable of producing a high quality liquid biofuel with good thermal and combustion properties and being economical and environmentally friendly, It is about liquid biofuels.

Biomass refers to organic matter generated from all natural sources such as grain, wood, sewage sludge, and manure as well as wastes such as food generated from human activities, and its variety is abundant. And is evaluated as an optimal resource.

Although research on renewable energy using such biomass has been actively carried out, most of the biofuels using biomass are mostly methanol and ethanol, and most of them are liquid fuel. Also, the sewage sludge, They are mixed and used as solid fuel.

On the other hand, the solid fuel has a good thermal power, but since the combustion residue, i.e., ash, is generated after combustion, there is a disadvantage that an additional cost is incurred in the treatment of the combustion residue and environmental pollution is caused by the combustion residue. In addition, solid fuels are less transportable than liquid fuels.

On the other hand, the liquid fuel has advantages in that it has better transportability than the solid fuel and does not generate combustion residues. However, the liquid fuel generally has a disadvantage in that the thermal power is lower than that of the solid fuel and the burning time is short.

Korean Patent No. 10-2011-0113955 (2011 08. 02. 05.)

The present invention has been proposed in order to compensate for the disadvantages of the solid fuel and the liquid fuel as described above. By liquefying the solid-state waste organic material and mixing it with the liquid fuel, the disadvantages of the solid fuel are solved and the merit of the solid fuel A method of manufacturing a liquid biofuel using a new type of solid waste organic material capable of producing a liquid biofuel having an advantage of being economical and environmentally friendly as well as having excellent firepower and excellent combustibility and utilizing waste, And to provide liquid biofuels.

According to one aspect of the present invention, there is provided a process for preparing a solid waste, comprising the steps of: (1) preparing a solid waste organic material, a preservative, a caustic soda powder; (2) mixing the prepared raw materials; (3) allowing the mixture prepared in the step (2) to stand to obtain an intermediate product in which the solid waste organic material is decomposed by caustic soda; And (4) mixing the intermediate product with an alcohol to obtain an emulsified liquid fuel. The method for producing a liquid biofuel using solid-state waste organic material according to claim 1, do.

According to another aspect of the present invention, the solid waste organic material is waste wood chips, leaves, waste paper, livestock manure, sawdust, waste grains, rice husks. Barley bark.

According to another aspect of the present invention, a waste cooking oil is used as the oil retaining furnace.

The present invention having the above-described configuration has the following advantages.

First, the present invention liquefies solid-state waste organic materials and mixes them with liquid fuel, thereby eliminating the disadvantages of solid fuels in which combustion residues are generated and poor transportability, the thermal power is improved and the combustion time is prolonged, High-quality liquid fuel is produced.

second. Waste materials such as solid waste, organic waste, and waste oil are used, so that it has an advantage of being highly recyclable and environmentally friendly.

Thirdly, decomposition products formed by the decomposition of raw materials and waste organic materials by the emulsifier generated in the decomposition process of the solid-state waste organic materials are emulsified and the undifferentiated emulsion solution is not formed. Therefore, maintain.

Fourthly, there is an advantage that an emulsifier is not added separately because an emulsifier is formed in the process of decomposing solid organic waste.

1 is a photograph of an intermediate product produced by the first embodiment of the present invention
FIG. 2 is a schematic view of a biofuel photograph prepared by the first embodiment of the present invention.

Hereinafter, the present invention will be described in more detail.

The present invention comprises the following process.

(1) As the raw materials required in the present invention, solid-state waste organic materials, liquid-state preservatives, and powdery caustic soda are prepared.

Although there are no particular limitations on the type of solid organic waste that can be used in the present invention, examples thereof include waste wood chips, leaves, waste paper, livestock manure, sawdust, grain grains, grain husks such as rice husks or barley bark .

In addition, it is preferable to use vegetable oil such as cooking oil for liquid-phase oil keeping, but it does not exclude the use of solid-state oil, that is, liquefied by heating the fat. In terms of economy and recycling of resources, lung maintenance is used as a maintenance, especially waste cooking oil is preferably used.

Prepare powdered caustic soda. Caustic soda, ie, sodium hydroxide, is a white solid that is well soluble in water and has deliquescent properties. Caustic soda is a typical strong base material and it corrodes other substances well. It also decomposes organic matter such as protein and cellulose.

(2) Mix the caustic soda and the liquid oil to the prepared solid waste organic matter and stir it evenly.

As will be described later, caustic soda is primarily used for decomposing solid-phase waste organic matter, and secondarily for hydrolyzing the liquid phase to produce an emulsifier.

Also, as described later, caustic soda does not need to hydrolyze or otherwise intend to hydrolyze the entire amount of the liquid phase, and therefore it is not necessary to adjust the mixing amount of the liquid phase and the caustic soda to a strict ratio such as a mole ratio. That is, the mixing ratio of the raw materials is not particularly limited. According to repeated experiments, solid wastes, liquid wastes, and caustic soda are found to be in the range of 5: 6: 2 to 3: 3, depending on various factors such as the effective decomposition of solid waste organic matter, 1 < / RTI > by weight.

(3) The mixture sufficiently agitated in the above process is allowed to stand for a predetermined time so that the intended reaction is sufficiently performed. Of course, the intended reaction in this process is that the solid organic waste is decomposed by caustic soda and the liquid phase is hydrolyzed to produce an emulsifier.

More specifically, in this process, the solid waste organic matter is decomposed by caustic soda. As described above, caustic soda decomposes organic matter such as protein and cellulose. Since caustic soda in this process has decomposability, it absorbs moisture in the air and dissolves. As a result, caustic soda aqueous solution Lt; / RTI >

In addition, the liquid phase is hydrolyzed by caustic soda, thereby producing sodium salt of glycerin and fatty acid, that is, soap. Soap is the most typical surfactant, and in the present invention, it functions as an emulsifier.

In the present invention, since the powdery caustic soda is used, the hydrolytic reactivity of the liquid phase due to caustic soda is considerably deteriorated. When the hydroxide ion generated by the dissolution of caustic soda binds with the fatty acid of the liquid phase and participates in the hydrolysis reaction of the ester, that is, the saponification reaction, the alkalinity of the caustic soda aqueous solution is lowered and the decomposition efficiency .

In this process, as mentioned above, since primary decomposition of solid waste organic matter by caustic soda is used, caustic soda is not used in the form of aqueous solution, but caustic soda is used in the hydrolysis Rather than participating in the reaction, the caustic soda effectively decomposes the solid organic waste.

On the other hand, the soap produced in the present process, that is, the emulsifier functions as an emulsifier that emulsifies the residual oil remaining in the reaction without participating in the reaction and the decomposition products formed by decomposition of the solid organic waste.

In particular, sufficient time is given for these reactions to occur sufficiently, particularly for the solid-state waste organics to be sufficiently decomposed. Since the decomposition time may vary depending on the type of the solid-state waste organic material used, the time required in the present process is not particularly limited, but the reaction is carried out for at least 7 days.

The intermediate product obtained by this process forms a semi-solid state by the emulsifier, that is, the soap, the glycerin produced by the hydrolysis reaction of the liquid phase, and the liquid phase retained without participating in the reaction. Is a decomposition product produced by decomposition of solid organic waste, Glycerin or the like can be regarded as a gel state emulsified by a soap, that is, an emulsifier.

(4) The intermediate product obtained in the above process is mixed with an alcohol.

As the alcohol, ethanol, methanol, butanol and the like are used. When the intermediate product and the alcohol are mixed and stirred, the intermediate product is stirred with the alcohol to obtain an emulsion solution.

On the other hand, the mixing ratio of the alcohol and the intermediate product in the process is not particularly limited. Since the biofuel's power will vary depending on the mixing ratio of the biofuel, it is sufficient to control the mixing ratio of the alcohol and the intermediate product so as to have the thermal power required by the purchaser.

If necessary, caustic soda may be added in the process. In the case where the solid organic waste is not completely decomposed in the course of producing the intermediate product, caustic soda is further added when the solid organic waste remains in a solid state. Addition of caustic soda in this process further decomposes the solid components contained in the intermediate product by caustic soda.

The present invention produced by this method solves the problem of solid fuel by liquefying the solid-state waste organic matter and mixing with the liquid fuel, and adds the advantage of the solid fuel to the advantages of the liquid fuel. Thus, high-quality fuel with good firepower and excellent combustion is produced.

In addition, the liquid biofuel to be produced does not need to be separately added with an emulsifier because the soap, that is, an emulsifier is also produced in the process of decomposing the solid organic waste, and the final state is an emulsion state in which oil and water are uniformly emulsified evenly The components are not easily separated and the initial emulsified state is maintained for a long time.

Example 1

50 g of caustic soda powder was mixed with 50 ml of waste cooking oil, and the mixture was put into 300 g of rice husk and mixed evenly. The mixture was allowed to stand at room temperature for about 7 days to obtain a rice husk-decomposed intermediate product. Figure 1 is a photograph of the intermediate product thus prepared.

Then, 21 g of caustic soda was dissolved in 1 liter of methanol, and the abovementioned heavy acid product was added thereto and stirred evenly. Thus, a liquid biofuel was prepared. FIG. 2 is a photograph of the produced liquid biofuel.

50 ml of water was placed in a beaker, and the resultant was heated with 50 ml of the prepared biofuel to perform a thermal power test. As a comparative example, 50 ml of methanol was used. The experimental results are shown in Table 1

Example 1
Comparative Example 1

Time the water started to boil

After about 4 minutes
After about 4 minutes and 40 seconds
Burning time

21 minutes 40 seconds
16 minutes 35 seconds

 As can be seen from Table 1, when the liquid biofuel according to Example 1 was used, water began to boil after about 4 minutes. This indicates that the water started boiling about 40 seconds earlier than in Comparative Example 1 using methanol. In addition, the total combustion time was 21 minutes and 40 seconds in Example 1, which was longer than Comparative Example 1 by 5 minutes and 5 seconds.

From these results, it can be seen that the liquid biofuel according to the present invention is superior to methane in terms of thermal power and combustion time, and thus is superior in fuel quality.

Claims (5)

(1) preparing 300 g of solid organic waste, 50 ml of waste cooking oil and 50 g of caustic soda powder;
(2) mixing the prepared raw materials;
(3) allowing the mixture produced in the step (2) to stand at room temperature for at least 7 days to obtain an intermediate product in which the solid waste organic material is decomposed by the caustic soda; And
(4) A method for producing a liquid biofuel using solid waste organic material, comprising the step of adding the intermediate product to a solution prepared by dissolving 21 g of caustic soda in 1 liter (1 liter) of methanol and stirring to obtain a liquid fuel.
The method according to claim 1,
Wherein the solid waste organic material is selected from at least one of waste wood chips, leaves, waste paper, livestock manure, sawdust, waste grains, rice husks, and barley bark.
delete delete A liquid biofuel produced by a process for producing a liquid biofuel using the solid-state waste organic material according to any one of claims 1 to 3.

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