KR101078275B1 - Bio fuel manufacturing system and inedible oil refining system - Google Patents

Abstract

The present invention provides a biofuel production system that enables the production of pollution-free, high-efficiency biofuels suitable as alternative fuels for vehicles by milking and purifying vegetable raw materials that can be extracted from oil and reacting for fuel generation.
To this end, the present invention is a vegetable raw material delivery device that selects impurities and residues from the vegetable raw material and delivers through a delivery pipe for milking; Drying the vegetable raw material to remove residual moisture and forming a temperature condition suitable for milking; A milking machine for milking vegetable raw materials by pressing to obtain vegetable oil; A primary purifier receiving the vegetable oil and separating the residues contained in the vegetable oil by a precipitation reaction through a plurality of precipitators having a horn shape which are continuously arranged according to a segment separation method; The vegetable oil is reacted with the reactant to perform decolorization and deodorization treatment, acid value control treatment through pH change, and after the reaction treatment, a separation material is added to separate and precipitate the reactant from the vegetable oil, thereby discharging the vegetable oil after the reaction. A reactor; Receiving a vegetable oil that has passed through the reactor and separating it by a precipitation reaction to purify the secondary purifier; A filter for final filtering of the vegetable oil; And a refined oil storage tank configured to receive and store the vegetable oil filtered through the filter.

Description

Biofuel Manufacturing System and Inedible Oil Refining System

The present invention is a system for producing a bio raw material that can be used as a driving fuel of a vehicle and purifying waste cooking oil, and more specifically, a biofuel that can produce a high-efficiency biofuel by processing vegetable raw materials that can be extracted with oil. A preparation and waste cooking oil purification system.

In general, diesel engines (hereinafter referred to as engines) are mainly used in engines for passenger cars, trucks, tractors, ships, etc. due to their high fuel efficiency and output, and are widely used until now. In Europe, diesel passenger cars have been widely used for a long time. It is used.

However, in the case of automobiles employing the above-mentioned diesel engines, soot (fine dust, sulfur dioxide, hydrocarbons, nitrogen), etc., are generated in large quantities due to unsafe combustion, and thus are classified as a leading cause of environmental pollution, and in recent years, smoke generated from diesel engines. Increasingly, policies to reduce energy consumption are being strengthened globally, and Europe and developed countries are already strictly restricting the emissions of diesel-powered vehicles.

Due to the seriousness and regulation of the environmental pollution of diesel vehicles, the developed countries of the world have studied fuels to replace diesel, and as a result of this research, biodiesel made of vegetable oil, that is, fuel produced by reacting vegetable oil and methanol with each other Has been developed as a substitute fuel for diesel, and these eco-friendly alternative fuels have been actively used and commercialized by consumers such as developed countries.

At present, domestic private companies have tried to develop and disseminate alternative fuels such as biodiesel. However, due to the limitation of practical technology and high production cost of raw materials, the research results are not meeting expectations and consumption is not activated.

Moreover, biodiesel fuel, which is currently being developed as an environmentally friendly alternative fuel, is produced by reacting vegetable oil with other substances such as methanol, and thus cannot be considered as an environmentally friendly alternative fuel using pure vegetable oil. In order to satisfy the standard for the Cold Filter Plugging Pint, which is a standard for the prevention of coagulation of biodiesel in winter, a separate anti-coagulation catalyst should be added during the fuel manufacturing process. It is not an eco-friendly biofuel.

In recent years, the development of biofuels using only pure vegetable oil, which does not require the addition of a separate reactant or the addition of a catalyst through the process of milking and purifying only vegetable raw materials capable of extracting oil, has been urgently needed. There is an urgent need for the development of manufacturing systems.

In addition, waste oils that are discarded after being used for food are also greatly purified through the production system of the Bavio fuel, and there is an urgent need for a method for reusing them as eco-friendly and highly efficient biofuels.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to clean and purify vegetable raw materials that can be extracted from oil, and to produce a fuel that is suitable for alternative fuels of a vehicle through a reaction process for generating fuel. It is to provide a biofuel production system that enables the production of fuel.

Another object of the present invention is to provide a biofuel production system that enables the purification of waste vegetable oil in the process of milking and refining vegetable raw materials extractable from oil to produce a high efficiency, pollution-free biofuel.

Still another object of the present invention is to provide a biofuel production system capable of producing a pollution-free high efficiency biofuel through a process of purifying and reacting waste cooking oil.

According to one embodiment of the present invention for achieving the above object, a vegetable raw material delivery device for selecting impurities and residues from a specific vegetable raw material that can be extracted oil and delivers through a delivery pipe for milking; A pre-processor for drying the vegetable raw material delivered from the vegetable raw material delivery machine to remove residual moisture, and heating to maintain a temperature range suitable for milking to maintain a predetermined range of temperatures; A milking machine installed in the lower part of the pretreatment machine to milk the vegetable raw material having a suitable temperature condition and water removal for milking by pressing method using a screw rotation; The vegetable oil obtained by the milking machine is introduced through the milking discharger and purified through the sedimentation reaction of the residue contained in the vegetable oil through a plurality of precipitators having a horn shape which are continuously arranged according to the segment separation method. Primary purifier to process; The vegetable oil purified through the first refiner is reacted with the reaction material to perform decolorization and deodorization treatment, and acid value control treatment through pH change.After the reaction treatment, the reaction material is separated from the vegetable oil to precipitate by precipitation. A reactor for discharging the vegetable oil after the reaction; After receiving the vegetable oil passing through the reactor, the residues, residual reactants, and separation substances contained in the vegetable oil are separated and purified through a plurality of settlers having a horn shape which are continuously arranged according to a segment separation method. Secondary purifier to process; A filter for final filtering of the purified vegetable oil through the secondary purifier; And it provides a biofuel manufacturing system comprising a refined oil storage tank for receiving and storing the vegetable oil filtered through the filter.

According to another embodiment of the present invention for achieving the above object, a vegetable raw material delivery machine for selecting impurities and residues from the specific vegetable raw material that can be extracted oil and delivers through a delivery pipe for milking; A pre-processor for drying the vegetable raw material delivered from the vegetable raw material delivery machine to remove residual moisture, and heating to maintain a temperature range suitable for milking to maintain a predetermined range of temperatures; A milking machine installed in the lower part of the pretreatment machine to milk the vegetable raw material having a suitable temperature condition and water removal for milking by pressing method using a screw rotation; The vegetable oil obtained by the milking machine is introduced through the milking discharger, and the waste oil contained in the vegetable oil and the waste cooking oil is passed through a plurality of settlers having a horn shape which are continuously arranged according to the segment separation method by receiving the waste cooking oil therein. A primary purifier for separating and purifying the components by precipitation reaction; The vegetable oil and waste cooking oil purified through the first refiner are reacted with the reaction material to perform decolorization and deodorization treatment, and acid value control treatment through pH change, and after the reaction treatment, the reaction material is added to the vegetable oil and waste. A reactor which separates from the cooking oil and precipitates, and discharges the vegetable oil and the waste cooking oil after the reaction; After receiving the vegetable oil and the waste cooking oil which have passed through the reactor, the residues, residual reactants, and separation substances contained in the vegetable oil and the waste cooking oil are passed through a plurality of sediments having a horn shape which are continuously arranged according to the segment separation method. A secondary purifier for separating and purifying by precipitation reaction; A filter for finally filtering the purified vegetable oil and waste cooking oil through the secondary refiner; And it provides a biofuel production system comprising a refined oil storage tank for receiving and storing the vegetable oil and waste cooking oil filtered through the filter.

According to another example of the present invention for achieving the above object, the waste cooking oil contained in the waste cooking oil through a plurality of settler having a horn shape continuously arranged according to the segment separation method by receiving the waste cooking oil therein A primary purifier separating and purifying by precipitation reaction; The waste cooking oil purified by the first refiner is reacted with the reactant to perform decolorization and deodorization treatment, and acid value control treatment by changing the pH. A reactor for discharging vegetable and waste cooking oil after the reaction; The waste cooking oil, which has passed through the reactor, is introduced and purified by separating sediment components, residual reactants, and separation substances contained in the waste cooking oil through a plurality of precipitators having a horn shape continuously arranged according to a segment separation method. Secondary purifier to process; A filter for final filtering the refined waste cooking oil through the secondary purifier; And it provides a biofuel production system comprising a refined oil storage tank for receiving and storing the waste cooking oil filtered through the filter.

As described above, according to the present invention, milking and refining of various vegetable raw materials, particularly rapeseed seed having good efficiency, can be carried out at an appropriate temperature and condition, and then precipitation and reaction treatment in a reactor in which a ceramic material is added. As a result, it is possible to produce vegetable biofuels as high-efficiency alternative fuels, thereby making it possible to produce biofuels that can be used as driving fuels of vehicles using inexpensive vegetable raw materials, and to produce and sell fuels for vehicles, especially diesel vehicles. The cost can be greatly reduced and it is a pollution-free and environmentally friendly fuel, which can have a significant effect on protecting the atmosphere.

In addition, by using the vegetable raw material in the biofuel production system to refine and react the waste cooking oil with the vegetable raw material, or only the waste cooking oil can be purified and reacted alone to produce a high-efficiency vegetable biofuel, The disposal of waste cooking oil, which may cause environmental damage, can be regenerated to produce high-efficiency biofuels, which not only contributes to the protection of the environment but also uses the waste cooking oil to be disposed of. This can be drastically reduced, which has the effect of bringing economic benefits.

1 is a view schematically illustrating a manufacturing process of a biofuel in a biofuel manufacturing system according to the present invention;
2 is a view showing the overall configuration of a biofuel manufacturing system according to an embodiment of the present invention,
3 is a view showing a detailed configuration of the refiner shown in FIG.
4 is a view showing a detailed configuration of the reactor and reaction control device shown in FIG.
5 is a view showing the overall configuration of a biofuel production system according to another embodiment of the present invention.

Hereinafter, an embodiment of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is a view schematically illustrating a manufacturing process of a biofuel in a biofuel manufacturing system according to the present invention.

As shown in FIG. 1, the biofuel production system according to the present invention undergoes a process of selecting a specific vegetable raw material that can be extracted, performs milking, and then first refines the vegetable oil produced by milking. After the first refined vegetable oil is placed in a reactor and subjected to final purification through precipitation and reaction treatment, the purified biofuel can be finally produced through filtering.

As the vegetable raw material extractable from the oil which can be produced by the production system of the present invention, all raw materials such as rapeseed seed, sunflower seed, sesame, perilla, soybean, grape seed and the like can be produced as biofuels, but have their own experiment. As a result, the most efficient raw material is rapeseed seed. In the present invention, the rapeseed seed will be described as preparing a biofuel using a vegetable raw material.

The rapeseed seed contains about 38% to 43% of oil content per 100g, and can be obtained by milking about 38 to 43g, and contains 6% to 8% of moisture. The temperature is maintained at about 15 ° C to 25 ° C.

The screening process of the rapeseed seed is to screen and remove residues, impurities, metal components, etc. attached to the rapeseed seed, and to remove the remaining water in the rapeseed by heating before the milking process do.

The rapeseed seed that has been sorted and dried is obtained the oil contained in the rapeseed through the milking process, the milking operation is carried out by a compression method using a screw rotation, the rapeseed seed generated during milking Separately discharged separately.

The vegetable oil obtained by the milking process (that is, rapeseed oil) undergoes a first purification process, and the purification process in the present invention is a segment separation method in which a plurality of horn-shaped precipitators are continuously arranged to be vegetable This will remove solids remaining in the oil.

When the primary purification is performed, the purified vegetable oil is subjected to precipitation treatment and reaction treatment in the reactor. In the reactor, the acid value of the vegetable refined oil is adjusted, decolorized, and deodorized by adding a reactive material of ceramic material. After the treatment of the reaction mass has been carried out, it is discharged as pure vegetable refined oil.

The vegetable refined oil reacted through the reactor is subjected to the second refinement again. As in the first refinement, the refined treatment is performed while passing through a plurality of horn-shaped continuous precipitators, and after filtering through the filter. Highly efficient vegetable refined oil will be produced in the end.

The vegetable refined oil, that is, rapeseed seed oil, which is produced from rapeseed seeds, may be applied as a driving fuel in a vehicle equipped with a diesel engine, and may be sufficiently consumed for food because it is an oil that has been purified and reacted to be harmless to a human body. Do.

Next, Figure 2 is a view showing the overall configuration of the biofuel production system according to an embodiment of the present invention.

As shown in FIG. 2, a biofuel manufacturing system according to an embodiment of the present invention includes a vegetable raw material storage tank 10, a vegetable raw material delivery machine 12, a delivery pipe 18, and a magnet separator 20. , Temporary storage tank 22, preprocessor 24, milking machine 28, foil discharge pipe 34, foil storage tank 36, milking discharger 38, primary purifier 40, reactor 50, Multiple control valves 54, 60, 66, 72, 80, 86, first and second reactant storage tanks 56, 62, separation material storage tank 68, agitation motor 74, air compressor ( 76, the sediment recovery unit 78, the circulation pipe 82, the secondary purifier 90, the filter 96, the refined oil storage tank (100).

The vegetable raw material storage tank 10 is a facility for pouring and storing rapeseed seeds as a vegetable raw material, and the vegetable raw material delivery machine 12 is installed at the bottom of the vegetable raw material storage tank 10 to deliver the rapeseed seeds to a delivery pipe 18 In order to deliver to the temporary storage tank 22 side through), by rotating the screw 16 by the drive of the motor 14 to be able to deliver rapeseed seeds.

In addition, between the vegetable raw material storage tank 10 and the vegetable raw material delivery machine 12, a mesh network for selecting and removing impurities, residues, stones and sand components mixed with rapeseed seeds (not shown) And a blower (not shown) are installed.

The magnet separator 20 is disposed between the end of the delivery pipe 18 and the temporary storage tank 22, the magnetic component attached to the rapeseed seed delivered through the delivery pipe 18, the magnetic force It is used to separate it.

The temporary storage tank 22 is for temporarily storing the oilseed rape seed from which the impurities and iron components are removed before milking, so that the oilseed rape seed stored in the tank can be dropped by a predetermined amount.

The preprocessor 24 is installed in the lower portion of the temporary storage tank 22 to dry the rapeseed seed which is dropped through the temporary storage tank 22 to remove the residual water and the temperature conditions suitable for milking by cold pressing A pretreatment is performed to operate the heater 26 to form and maintain a temperature in the range of about 20 ° C to 40 ° C.

When the heater 26 is raised to a temperature in the range of about 20 ° C. to 40 ° C., the quality of the oil component milked according to the elevated temperature condition may be improved and the milking amount may be increased.

Therefore, a separate temperature sensor may be installed in the preprocessor 24 to sense an elevated temperature due to the heating of the heater 26, and the internal temperature may not be increased above 40 ° C. according to the temperature sensing value. The temperature control of the heater 26 can be performed.

The milking machine 28 is installed in the lower part of the pretreatment 24, and the vegetable oil is obtained by pressing the rapeseed seed, which has been subjected to temperature conditions and water removal suitable for milking, using a screw, which is a motor 30. The oil is squeezed out by the rotation of the screw device 32 by the driving of the rapeseed, and the remaining rapeseed foil is discharged to the outside through the foil discharge pipe 34 connected to the front.

At this time, the milking standard through the milking machine 28 is a continuous milking is made to proceed to 500kg / h or more, the rotation speed (RPM) of the screw for this is preferably made within 20 to 50 RPM, Substantially the amount of oil milked from rapeseed seeds can yield 30 kg to 38 kg corresponding to 30% to 38% per 100 kg of rapeseed.

The foil discharge pipe 34 serves to discharge the foil of rapeseed seed generated in the milking process through the milking machine 30 from the milking machine 30 to be discharged to the foil storage tank 36.

In the gourd storage tank 36 is stored the rapeseed seed discharged during the milking process, the rapeseed gourd is stored 66 kg to 69 kg corresponding to 66% to 69% per 100 kg rapeseed, Since the oil content of the oilseed rape seed remains, it is possible to carry out the process of secondary milking of the remaining oil through a separate reprocessing process.

Here, the foil of the rapeseed seed stored in the foil storage tank 36 is thermal energy generated through the pressing process by the milking process to maintain a temperature range of about 40 ℃ to 50 ℃, or stored in an elevated state above 50 ℃ Without installing a separate heater 26 in the preprocessor 24, the foil storage tank 36 and the preprocessor 24 are connected by heat-radiating pipes in the foil storage tank 36 It is also possible to make available the heat generated from the rapeseed to remove moisture and to form temperature conditions for milking.

The milking discharger 38 is installed at the lower portion of the milking machine 28 to receive vegetable oil generated through milking of the milking machine 28, that is, rapeseed oil, and delivers the inside of the first refiner 40. Do this.

The primary purifier 40 receives a rapeseed oil generated through the milking process and has a plurality of sedimenters 42a and 42b having a horn shape (ie, a funnel shape) that is continuously arranged according to a segment separation method. The residues contained in the rapeseed oil milked through 42c and 42d) are separated and purified by precipitation reaction.

Here, as shown in FIG. 3, the primary purifier 40 is formed in a horn shape and continuously arranged to be connected to each other through the first to fourth connecting pipes 44a, 44b, 44c, and 44d. Precipitators 42a corresponding to each other through narrow first-fourth settlers 42a, 42b, 42c, 42d, and narrow pipes below the residue settling sites of the respective settlers 42a, 42b, 42c, 42d. And horn-shaped first to fourth current collectors connected in communication with 42b, 42c, and 42d to collect sediment of rapeseed oil settled from each of the settlers 42a, 42b, 42c, and 42d together with some rapeseed oil. (46a, 46b, 46c, 46d) and the lower portion of each of the current collectors (46a, 46b, 46c, 46d) are connected in communication through a narrow conduit, and one end thereof is connected through the pump (48). 1 is discharged from the current collectors 46a, 46b, 46c, 46d through the pumping action is connected to the circulation pipe 47 is connected to the inside of the precipitator 42a, the pipeline intermediate portion of the circulation pipe 47 Being It comprises a pump 48 to allow some rapeseed oil-containing debris to flow into the interior of the first precipitator 42a.

In the first to fourth precipitators 42a, 42b, 42c, and 42d, the first precipitator 42a introduces rapeseed oil discharged from the milking discharger 38 through a first connecting pipe 44a. The second to fourth precipitators 42b, 42c, and 42d receive the sedimentation reaction by the front settler, and the second and fourth connection pipes 44b are respectively prepared with the rapeseed oil which is purified. (44c, 44d), and by carrying out the refining treatment of rapeseed oil through sedimentation, it is possible to reduce the purification time and high-efficiency purification.

On the other hand, the first to fourth current collector (46a, 46b, 46c, 46d) is to collect the rapeseed seed oil and some of the rapeseed oil settled in the bottom of the horn shape of each of the settler (42a, 42b, 42c, 42d) The circulating pipe 47 is discharged to the lower portion, and the rapeseed pipe 47 contains some rapeseed oil contained together with the residues through the pumping action of the pump 48 to the inside of the first settler 42a. It is circulated to make the purification process again by inflow to.

Here, in the primary purifier 40, as the amount of the debris collected in the circulation pipe 47 increases every predetermined time, by increasing the residue left through the other end of the circulation pipe 47 to the outside As a result, excessive refining of rapeseed oil can be eliminated.

The reactor 50 is to perform the reaction treatment for improving the oil component of the rapeseed seed purified primarily through the primary purifier 40, refined oil discharge pipe 52 is opened and closed control by the control valve 54 Purified rapeseed oil is added through, and the rapeseed oil is precipitated, bleached and deodorized, and acid value is adjusted by changing the pH through the input of the first and second reactants and the separation material.

The reactor 50 has a cylindrical shape so that the upper portion of the reactor 50 can be easily treated with the addition of vegetable oil, a reactive substance, a separating substance, and the like. Various reactions, rapeseed oil by the separation material and the reaction material is made in a horn shape (that is, funnel shape) to facilitate the sedimentation.

The first reactant storage tank 56 is a synthetic magnesium silicide (MgSIO2) is stored as a reaction material for acid value control by changing the pH, and the inlet pipe 58 is opened and closed according to the control of the control valve 60. The synthetic magnesium silicide may be introduced into the reactor 50 through the reactor.

The second reactant storage tank 62 stores activated clay (or activated carbon) as a reactant for decolorization and deodorization of rapeseed oil, and is supplied according to opening / closing control of the control valve 66. The activated clay (or activated carbon) can be introduced into the reactor 50 through the pipe 64.

The separation material storage tank 68 is a synthetic magnesium silicate and activated clay (or activated carbon) as the reactant after the reaction with the rapeseed oil, the synthetic magnesium silicate and activated clay (or activated carbon) to the adsorption Diatomaceous Earth is stored as a separation material for sedimentation and separation from rapeseed oil, and the diatomaceous earth is introduced into the reactor 50 through the input pipe 70 according to the opening and closing control of the control valve 72. It is intended to be committed.

The stirring motor 74 is operated to mix a reaction material, rapeseed oil, and a separation material by operating a stirrer installed in the reactor 50, and the air compressor 76 of the reactor 50 is operated. By continuously injecting outside air into the inside (ie inside the upper cylindrical part) to allow a large amount of air bubbles to flow inside, to promote the reaction rate between the rapeseed oil and the reactant, and then to separate the reactant through the diatomaceous earth Make it possible to speed up.

The precipitate recoverer 78 is connected to the lower horn end of the reactor 50 to recover and temporarily store the precipitate precipitated after the internal reaction treatment in the reactor 50, and the circulation pipe 82 ) Is to reintroduce the sediment in the sediment recovery unit 78 into the reactor 50 according to the valve opening and closing control of the control valve 80, which reacts again with a small amount of rapeseed oil mixed in the sediment. It is applied as a use for processing.

Here, as shown in FIG. 4, each of the control valves 54 and 60 is controlled by the microprocessor 82 that receives sensing information from various sensors provided in the corresponding reactor 50. And 66, 72, 80, and 86 to open and close the drive, the rotation drive of the stirring motor 74, the air compressor 76 can be driven.

The inside of the reactor 50, the PH detection sensor (S1) for detecting the PH, the amount of water sensor (S2) for detecting the amount of calcium (Ca; lime) and magnesium (Mg), rapeseed oil and the reaction material Reaction amount detection sensor (S3) for detecting the degree of reaction treatment by stirring and mixing with is fixedly installed, each sensor (S1, S2, S3) is the upper portion of the horn-shaped portion in the reactor 50 It is preferable to fix at a position near the boundary between the cylindrical portion and the horn portion.

On the other hand, the PH sensor (S1), the water amount sensor (S2), the reaction amount sensor (S3), respectively, the pH of the stirred material, the amount of calcium and magnesium as the chemical elements, the degree of reaction treatment by stirring and mixing As a chemical detection sensor for sensing, sensing information according to each chemical detection is converted into an electrical signal and provided to the microprocessor 82 in the form of a digital signal.

The pH sensor S1 is a sensor for measuring the pH of the agitated substance. The pH value is a parameter, and the optimum detection criterion of PH serves to detect the pH to finally obtain a maximum acid value of 2 or less.

The quantity sensor S2 is an Earth Alkali sensor for measuring the content of calcium and magnesium, the earth alkali (Ca + Mg) and alkaline metal (Na, K) as parameters, The optimal detection criterion serves to detect content in order to obtain measurements of up to 20 or less.

The reaction amount detection sensor (S3) is a sensor for measuring the phosphorus content (Phosphorus Content) for the detection of the degree of reaction treatment by stirring and mixing, the phosphorus content as a parameter, the content of up to 12 or less as an optimal detection criteria Perform a detect function to obtain.

The microprocessor 82 receives the sensing signals from the PH detection sensor S1, the quantity detection sensor S2, and the reaction amount detection sensor S3, and the rapeseed oil is introduced into the reactor 50. The reaction with the reactants is normally performed, and the pure rapeseed oil can be extracted through separation and precipitation of the reactants after the reaction.

To this end, the microprocessor 82 drives the valve driving unit 86a to control the opening and closing of the control valve 54 so that the rapeseed oil refined through the primary refiner 40 is converted into the reactor 50. A proper amount necessary for accurate reaction is controlled in the inside, and the motor driving unit 85 is driven to control the stirring motor 74 to be rotated so that the agitator 75 installed inside the reactor 50 is operated. And, the air compressor 76 is controlled to operate.

In addition, when the microprocessor 82 receives the respective sensing signals from the PH detecting sensor S1 and the quantity detecting sensor S2, the microprocessor 82 measures the measured PH sensing value and the magnesium amount of the corresponding microprocessor 82. In accordance with the operation control program, it is determined whether the condition of reaching the preset acid value is controlled by driving the valve driving unit 86b, and the amount of the synthetic magnesium silicide for acid value adjustment is controlled by opening and closing the control valve 60. Allow it to be adjusted.

In addition, the microprocessor 82 receives the sensing signal from the reaction amount sensor (S3) to determine whether the reaction degree in the reactor 50 proceeds normally according to the algorithm set in the operation control program By controlling the driving of each valve drive (86b, 86c), each control valve (60, 66) is opened and closed so that the input amount of the synthetic magnesium silicate and the activated clay (or activated carbon) can be adjusted.

On the other hand, the microprocessor 82 is a counting value of the sensing signal value provided from each of the PH detection sensor (S1), the quantity detection sensor (S2), the reaction amount detection sensor (S3), and the preset standard response time On the basis of the above, when the reaction of the synthetic magnesium silicate, which is the reactant, and the activated clay (or activated carbon) and rapeseed oil is appropriately performed to adjust the acid value, decolorize, and deodorize the valve driving unit 86d, By driving control to open and close the control valve 72, the diatomaceous earth is introduced into the reactor 50 to adsorb and precipitate the synthetic magnesium silicate and the activated clay (or activated carbon) as the reaction material, the rapeseed Separate from seed oil.

The microprocessor 82 has a predetermined settling set time such as 10 minutes after the diatomaceous earth is put in, and during the settling set time, the driving of the stirring motor 74 and the air compressor 76 is stopped to make the diatomaceous earth. The reactant adsorbed on is separated from the rapeseed oil so as to be precipitated to the bottom of the reactor (50).

When the settling time elapses, the microprocessor 82 controls the valve driving unit 86e to open and close the control valve 86 so that the microprocessor 82 is separated from the reactant to adjust an appropriate acid value, decolorize, and deodorize. Pure rapeseed oil is made to be allowed to flow out to the secondary purifier 90 side.

Subsequently, the microprocessor 82 drives and controls the valve driver 86f so that the sediment containing some rapeseed oil recovered in the sediment recoverer 78 is recirculated through the circulation pipe 82. Into the inside, and at the same time the rapeseed oil passed through the primary purifier 40 is introduced into the reactor 50 to be controlled so that the reaction can be repeatedly performed.

Here, the temperature inside the reactor 50 is preferably maintained in the range of 70 ℃ to 90 ℃ to optimize the reaction.

On the other hand, in Figure 2, the secondary purifier 90 is a plurality of precipitators (92a, 92b) are continuously arranged in order to secondary purify the rapeseed oil discharged from the reactor 50, The internal structure is the same as the structure of the said primary refiner 40, and the refining effect is the same.

The filter 96 filters the rapeseed oil which is second refined through the second refiner 90 and delivered through the delivery pipe 94 to deliver the refined oil storage tank 100 through the delivery pipe 98. It is used to deliver to the filter, which uses a chamber filter (Chamber Filter) filter press to finally remove impurities remaining in vegetable oil rapeseed oil and remaining components during ceramic refining. The use of nonwovens can reduce filter costs.

The refined oil storage tank 100 is for storing the rapeseed oil which is finally purified and filtered by removing impurities, and the material of the tank is made of stainless steel, and the storage temperature is in a low temperature range of 10 ° C. to 15 ° C. It is desirable to store.

Next, another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

5 is a view showing the overall configuration of a biofuel production system according to another embodiment of the present invention.

In the same figure, in the other embodiment of the present invention will be given the same reference numerals for the same components as in the embodiment of the present invention shown in Figure 1 will be omitted a detailed description thereof.

As shown in FIG. 5, the biofuel production system according to another embodiment of the present invention is used for the purification, reaction treatment, and filtering of waste cooking oil, except for components for selecting and milking vegetable raw materials capable of extracting oil. A milk drainer 38, a primary purifier 40, a reactor 50, a plurality of control valves 54, 60, 66, 72, 80, 86, first and second, including the necessary components. 2-reactant storage tanks 56 and 62, separate material storage tanks 68, agitation motors 74, air compressors 76, sediment recoverers 78, circulating pipes 82, secondary purifiers 90, It is composed of a filter 96, refined oil storage tank (100).

Here, the milking discharger 38 does not serve to discharge the milked vegetable oil, unlike the embodiment of the present invention, and provides a flow path for introducing waste cooking oil into the primary refiner 40. Do this.

The primary purifier 40, the reactor 50, the secondary purifier 90, and the filter 96 purify the vegetable oil milking the vegetable raw material in one embodiment of the present invention, and the reaction treatment and In the same manner as the filtering treatment, the waste cooking oil may be stored in the refined oil storage tank 100 after the first refining treatment, reacted with the reactants in the reactor 50, and after the second refining treatment and filtering. To help.

Meanwhile, in one embodiment of the present invention, only the vegetable oil obtained by milking the vegetable raw material has been described and illustrated, and in another embodiment of the present invention, only the waste cooking oil is purified and reacted by way of example. However, the present invention is not limited thereto, and when the vegetable oil milked in one embodiment of the present invention is introduced into the primary refiner 40, the vegetable oil is introduced together with the waste cooking oil into the primary refiner 40. And it is also possible, of course, that the waste cooking oil is first purified together, the reaction is treated in the reactor 50, and then the second purification and filtering are performed together.

While specific embodiments of the present invention have been described and illustrated above, it will be apparent that the present invention may be embodied in various modifications by those skilled in the art. Such modified embodiments should not be understood individually from the technical spirit or the prospect of the present invention, but should fall within the claims appended to the present invention.

10: vegetable raw material storage tank, 12: vegetable raw material delivery machine,
18: delivery pipe, 20: magnet separator,
22: temporary storage tank, 24: preprocessor,
28: milking machine, 34: foil discharge pipe,
36: foil storage tank, 38: milking ejector,
40: 1 primary purifier, 50: reactor,
54, 60, 66, 72, 80, 86: control valve, 56, 62: reactant storage tank,
68: separation material storage tank, 74: stirring motor,
76: air compressor, 78: sediment collector,
82: circulating tube, 90: secondary purifier,
96: filter, 100: refined oil storage tank.

Claims (10)

A vegetable raw material delivery machine which selects impurities and residues from specific vegetable raw materials capable of extracting oil and delivers them through a delivery pipe for milking;
Pre-treatment to dry the vegetable raw material delivered from the vegetable raw material delivery machine to remove residual moisture, and to be heated to maintain a certain range of temperature;
A milking machine installed at a lower portion of the pretreatment machine to milk vegetable raw materials obtained by removing water and heating by the pretreatment machine by a compression method using a rotation of a screw to obtain vegetable oil;
The vegetable oil obtained by the milking machine is introduced through the milking discharger and purified through the sedimentation reaction of the residue contained in the vegetable oil through a plurality of precipitators having a horn shape which are continuously arranged according to the segment separation method. Primary purifier to process;
The vegetable oil purified through the first refiner is reacted with the reaction material to perform decolorization and deodorization treatment, and acid value control treatment through pH change.After the reaction treatment, the reaction material is separated from the vegetable oil to precipitate by precipitation. A reactor for discharging the vegetable oil after the reaction;
After receiving the vegetable oil passing through the reactor, the residues, residual reactants, and separation substances contained in the vegetable oil are separated and purified through a plurality of settlers having a horn shape which are continuously arranged according to a segment separation method. Secondary purifier to process;
A filter for final filtering of the purified vegetable oil through the secondary purifier; And
Refining oil storage tank for receiving and storing the vegetable oil filtered through the filter,
The primary purifier and the secondary purifier are formed in a horn shape and are continuously arranged and connected to each other through a first to fourth connection pipes, and the sedimentary sedimentation of each precipitator. The first to fourth collectors of a horn shape, which are connected in communication through a narrow conduit at the lower part of the site and collect the sediment of vegetable oil precipitated from the corresponding settler together with some vegetable oil, and the lower part of each current collector. Each current collector is connected to each other through a pumping action connected to a circulation pipe connected to one end of the first settler via a pump and connected to an inside of the first settler via a pump. A biofuel comprising a pump operable to introduce a sediment containing some vegetable oil from the sediment into the first settler. Joe systems. A vegetable raw material delivery machine which selects impurities and residues from specific vegetable raw materials capable of extracting oil and delivers them through a delivery pipe for milking;
Pre-treatment to dry the vegetable raw material delivered from the vegetable raw material delivery machine to remove residual moisture, and to be heated to maintain a certain range of temperature;
A milking machine installed at a lower portion of the pretreatment machine to milk vegetable raw materials obtained by removing water and heating by the pretreatment machine by a compression method using a rotation of a screw to obtain vegetable oil;
The vegetable oil obtained by the milking machine is introduced through the milking discharger, and the waste oil is introduced into the vegetable oil and the waste cooking oil through a plurality of precipitators having a horn shape which are continuously arranged according to the segment separation method. A primary purifier for separating and treating the contained debris components by precipitation reaction;
The vegetable oil and waste cooking oil purified through the first refiner are reacted with the reaction material to perform decolorization and deodorization treatment, and acid value control treatment through pH change, and after the reaction treatment, the reaction material is added to the vegetable oil and waste. A reactor which separates from the cooking oil and precipitates, and discharges the vegetable oil and the waste cooking oil after the reaction;
After receiving the vegetable oil and the waste cooking oil which have passed through the reactor, the residues, residual reactants, and separation substances contained in the vegetable oil and the waste cooking oil are passed through a plurality of sediments having a horn shape which are continuously arranged according to the segment separation method. A secondary purifier for separating and purifying by precipitation reaction;
A filter for finally filtering the purified vegetable oil and waste cooking oil through the secondary refiner; And
Refining oil storage tank for receiving and storing the vegetable oil and waste cooking oil filtered through the filter,
The primary purifier and the secondary purifier are formed in a horn shape and are continuously arranged and connected to each other through a first to fourth connection pipes, and the sedimentary sedimentation of each precipitator. The first to fourth collectors of a horn shape, which are connected in communication through a narrow conduit at the lower part of the site and collect the sediment of vegetable oil precipitated from the corresponding settler together with some vegetable oil, and the lower part of each current collector. Each current collector is connected to each other through a pumping action connected to a circulation pipe connected to one end of the first settler via a pump and connected to an inside of the first settler via a pump. A biofuel comprising a pump operable to introduce a sediment containing some vegetable oil from the sediment into the first settler. Joe systems. The method according to claim 1 or 2,
Temporary storage tank for temporarily storing the vegetable raw material delivered from the vegetable raw material delivery machine, and for dropping the stored rapeseed seed by a certain amount,
And a magnet separator disposed between the end of the delivery pipe and the temporary storage tank and separating the iron component attached to the vegetable raw material using magnetic force. The method according to claim 1 or 2,
It further comprises a foil storage tank for receiving and storing the foil of the vegetable raw material generated in the milking process through the milking machine through the foil discharge pipe,
The pre-treatment is configured to receive the heat generated from the foil of the vegetable raw material stored in the foil storage tank for heating treatment, or to form a temperature condition by any one of the heating treatment using a separate heater Biofuel Manufacturing System. A vegetable raw material delivery machine which selects impurities and residues from specific vegetable raw materials capable of extracting oil and delivers them through a delivery pipe for milking;
Pre-treatment to dry the vegetable raw material delivered from the vegetable raw material delivery machine to remove residual moisture, and to be heated to maintain a certain range of temperature;
A milking machine installed at a lower portion of the pretreatment machine to milk vegetable raw materials obtained by removing water and heating by the pretreatment machine by a compression method using a rotation of a screw to obtain vegetable oil;
The vegetable oil obtained by the milking machine is introduced through the milking discharger and purified through the sedimentation reaction of the residue contained in the vegetable oil through a plurality of precipitators having a horn shape which are continuously arranged according to the segment separation method. Primary purifier to process;
The vegetable oil purified through the first refiner is reacted with the reaction material to perform decolorization and deodorization treatment, and acid value control treatment through pH change.After the reaction treatment, the reaction material is separated from the vegetable oil to precipitate by precipitation. A reactor for discharging the vegetable oil after the reaction;
After receiving the vegetable oil passing through the reactor, the residues, residual reactants, and separation substances contained in the vegetable oil are separated and purified through a plurality of settlers having a horn shape which are continuously arranged according to a segment separation method. Secondary purifier to process;
A filter for final filtering of the purified vegetable oil through the secondary purifier; And
Refining oil storage tank for receiving and storing the vegetable oil filtered through the filter,
The inside of the reactor is a PH detection sensor for detecting the PH, water detection sensor for detecting the amount of magnesium (Mg) inside, the reaction by stirring and mixing the mixture of vegetable oil or vegetable oil and waste cooking oil and reactants The reaction rate sensor which detects the processing degree is fixedly installed
After receiving the respective sensing signals from the PH sensor, the water level sensor, and the reaction amount sensor, the vegetable oil or the mixed oil of the vegetable oil and the waste cooking oil input into the reactor normally reacts with the reactants, and then It consists of a microprocessor for controlling the inflow of the oil, the input of the reactant, the input time of the separated material by opening and closing a plurality of control valves so that the pure oil can be extracted through the separation and precipitation of the reaction material of Biofuel production system. A vegetable raw material delivery machine which selects impurities and residues from specific vegetable raw materials capable of extracting oil and delivers them through a delivery pipe for milking;
Pre-treatment to dry the vegetable raw material delivered from the vegetable raw material delivery machine to remove residual moisture, and to be heated to maintain a certain range of temperature;
A milking machine installed at a lower portion of the pretreatment machine to milk vegetable raw materials obtained by removing water and heating by the pretreatment machine by a compression method using a rotation of a screw to obtain vegetable oil;
The vegetable oil obtained by the milking machine is introduced through the milking discharger, and the waste oil is introduced into the vegetable oil and the waste cooking oil through a plurality of precipitators having a horn shape which are continuously arranged according to the segment separation method. A primary purifier for separating and treating the contained debris components by precipitation reaction;
The vegetable oil and waste cooking oil purified through the first refiner are reacted with the reaction material to perform decolorization and deodorization treatment, and acid value control treatment through pH change, and after the reaction treatment, the reaction material is added to the vegetable oil and waste. A reactor which separates from the cooking oil and precipitates, and discharges the vegetable oil and the waste cooking oil after the reaction;
After receiving the vegetable oil and the waste cooking oil which have passed through the reactor, the residues, residual reactants, and separation substances contained in the vegetable oil and the waste cooking oil are passed through a plurality of sediments having a horn shape which are continuously arranged according to the segment separation method. A secondary purifier for separating and purifying by precipitation reaction;
A filter for finally filtering the purified vegetable oil and waste cooking oil through the secondary refiner; And
Refining oil storage tank for receiving and storing the vegetable oil and waste cooking oil filtered through the filter,
The inside of the reactor is a PH detection sensor for detecting the PH, water detection sensor for detecting the amount of magnesium (Mg) inside, the reaction by stirring and mixing the mixture of vegetable oil or vegetable oil and waste cooking oil and reactants The reaction rate sensor which detects the processing degree is fixedly installed
After receiving the respective sensing signals from the PH sensor, the water level sensor, and the reaction amount sensor, the vegetable oil or the mixed oil of the vegetable oil and the waste cooking oil input into the reactor normally reacts with the reactants, and then It consists of a microprocessor for controlling the inflow of the oil, the input of the reactant, the input time of the separated material by opening and closing a plurality of control valves so that the pure oil can be extracted through the separation and precipitation of the reaction material of Biofuel production system. The method according to claim 5 or 6,
The reactor is driven by the control of the microprocessor to operate the internal stirrer, and driven by the control of the microprocessor to continuously introduce external air into the reactor so that a large amount of air bubbles flow inside And an air compressor, a sediment recoverer for recovering the precipitate deposited in the lower part of the reactor, and a circulation pipe for introducing some oil-containing sediment into the reactor according to the control valve opening and closing control of the microprocessor. Biofuel production system, characterized in that. The method according to any one of claims 1, 2, 5 and 6,
The vegetable raw material extractable oil is any one of rapeseed seed, sunflower seed, sesame, perilla, soybean, grape seed. The method according to any one of claims 1, 2, 5 and 6,
The reaction material is a synthetic magnesium silicate (MgSIO2) for acid value control through pH change, and activated clay (or activated carbon) for decolorization and deodorization of oil,
The separation material is a biofuel production system, characterized in that the diatomaceous earth (Diatomaceous Earth) for the sedimentation of the synthetic magnesium silicate and activated clay (or activated carbon) to be separated from the oil by adsorption. A first refiner for receiving the waste cooking oil and separating the waste component contained in the waste cooking oil by a precipitation reaction through a plurality of precipitators having a horn shape arranged continuously according to a segment separation method;
The waste cooking oil purified by the first refiner is reacted with the reactant to perform decolorization and deodorization treatment, and acid value control treatment by changing the pH. A reactor for discharging the waste cooking oil after the reaction;
The waste cooking oil, which has passed through the reactor, is introduced and purified by separating sediment components, residual reactants, and separation substances contained in the waste cooking oil through a plurality of precipitators having a horn shape continuously arranged according to a segment separation method. Secondary purifier to process;
A filter for final filtering the refined waste cooking oil through the secondary purifier; And
Refining oil storage tank for receiving and storing the waste cooking oil filtered through the filter,
The primary purifier and the secondary purifier are formed in a horn shape and are continuously arranged and connected to each other through a first to fourth connection pipes, and the sedimentary sedimentation of each precipitator. The first to fourth collectors of a horn shape, which are connected in communication through a narrow conduit at the lower part of the site and collect the sediment of vegetable oil precipitated from the corresponding settler together with some vegetable oil, and the lower part of each current collector. Each current collector is connected to each other through a pumping action connected to a circulation pipe connected to one end of the first settler via a pump and connected to an inside of the first settler via a pump. A waste cooking oil comprising a pump operable to allow the sediment containing some vegetable oil to be discharged from the inside of the first settler. System.

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