KR20070093254A - Production apparatus of water-in-oil type emulsion fuel - Google Patents

Abstract

An apparatus for producing water-in-oil type emulsion fuel is provided to manufacture ultrafine particle type emulsion fuel, by improving an inside structure of a housing, through which water and oil pass, and an outer structure of a rotation body for making the water and the oil into file particles. A housing member(10) includes a water inlet(11) and an oil inlet(12) formed at a rear portion, and an outlet formed at a rear portion. A chamber is formed within the housing member. First and second plane portions(15,16) are respectively formed at entrance and exit sides of an inner circumferential surface of the chamber. A first concave and convex portion is formed on a center portion between the first plane portion and the second plane portion. An emulsion unit has a resistance plate(21) positioned at the center portion of the housing. First and second rotation bodies(22,23) are respectively installed at front and rear portions of the resistance plate, and distanced from the inner circumferential surface of the chamber. A first smooth portion(22a) is formed at an entrance side of an outer circumferential surface of the first rotation body. A second concave and convex portion is formed at a rear portion of the first rotation body. A second smooth portion(23a) is formed at an exit side of the second rotation body. A third concave and convex portion is formed at a front portion of the second rotation body. A rotation body rotating unit(30) includes a shaft(31) for rotating the first and second rotation bodies. The shaft penetrates the first and second rotation bodies. An end portion of the shaft is connected to a shaft of a motor(32).

Description

Production apparatus of water-in-oil emulsion fuel

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a sectional view showing the overall configuration of an apparatus for manufacturing water-in-oil emulsion fuel according to the present invention.

2 is a cross-sectional configuration of an emulsion means in the apparatus for producing a water-in-oil emulsion fuel according to the present invention;

3 is an excerpted front view of a housing in the apparatus for producing a water-in-oil emulsion fuel according to the present invention;

4 is a cross-sectional view taken along line A-A of the housing of FIG. 3 of the present invention;

5 is a cross-sectional view taken along line B-B of the housing according to the present invention.

<Code Description of Main Parts of Drawing>

10 housing 11 water supply port

12: oil supply port 13: discharge port

14 chamber 15,16 first and second plane portion

17,18: uneven 20: emulsion means

21: resistance plates 22, 23: first and second rotating body

22a, 23a: first and second smooth portions 22b, 22c, 23b, 23c: irregularities

30: rotating body rotating means 31: shaft

32: motor 33: motor shaft

The present invention provides a water-in-oil emulsion fuel that enables the production of ultra-fine emulsion emulsion fuel by modifying the inside of the housing through which water and oil proceed and the external structure of the rotating body making the water and oil flowing through the housing into fine particles. It relates to a manufacturing apparatus of.

In general, an emulsion refers to a state in which another liquid which is not mixed with this liquid is uniformly dispersed in an atomized state.

Water-in-oil type (W / O) emulsion fuels are high-carbide, high-viscosity fuels such as heavy oil, a low-cost, high-efficiency heat source that is extremely limited in use due to air pollutants. Water or waste water and a surfactant (emulsifier).

This can be completely combusted by micro-explosion by water drop in the combustion furnace, and dust, soot, sulfur oxides (SOx), It is a high-efficiency, low-pollution environment-friendly clean fuel oil fueled by additives to minimize the concentration of nitrogen oxides (NOx) and carbon monoxide (CO).

Secondary atomization phenomena due to the microscopic explosion of water droplets in the oil during combustion, a unique phenomenon of emulsion fuel, shows the ultimate fuel atomization performance of the liquid fuel injection technology. This improves the combustion efficiency of low-combustible low-grade fuels and maintains heat transfer efficiency by drastically reducing scale deposits on combustion chambers and heat transfer surfaces due to unburned fuels, and also increases the overall thermal efficiency by reducing the excess air for combustion by improving the combustibility. Leads to savings.

In spite of the superiority of the emulsion fuel technology and the emulsion fuel technology company for the first century that started from the beginning of the 20th century, it is recent that the real commercialization of the actual industry has been made in Korea.

Emulsion fuels are unstable dispersion systems between fuel oils and liquids such as water that do not want to mix with each other, and it is difficult to produce uniform emulsion fuel oils with a constant dispersion state that can exert the effects of emulsion fuels optimally. It is more difficult to do. Due to the nature of these emulsion fuels, many attempts over a century have not been put to good use.

The emulsion fuel in a homogeneous state can be said to be a state in which phase stability is maintained. Mainly, constant water particles, accurate moisture ratio, and constant temperature are maintained. Specifically, 5 to 20㎛ water particles set according to each combustion condition maintains a constant average particle size regardless of time, and one specific water ratio set according to each combustion condition among 10-30% of the water content ratio is set. It must be maintained accurately regardless of the passage of time, and it means that the specific preheating temperature set according to each combustion condition among the preheating temperature of emulsion fuel is maintained regardless of time.

Maintaining the uniform state of the emulsion fuel is important because of the correlation with a combustion device such as a burner that burns fuel, that is, when the fuel is supplied in an irregular state affects the air-fuel ratio adjustment, injection nozzle adjustment, etc. of the combustion device. Specifically, if the phase stability of emulsion fuel is destroyed, the water particles become huge, or if the moisture ratio suddenly decreases to 10% during the supply of emulsion fuel having a water ratio of 20%, the flame state becomes irregular, misfires, or the water content decreases. However, the air cost is also reduced together, so it is easy to generate smoke due to lack of air cost.

If the temperature of the emulsion fuel is also not maintained, the temperature of the emulsion fuel is related to the viscosity, so that the fuel supply amount becomes irregular as the viscosity is high and low.

If this irregularity is forced to increase the excess air ratio for the stability of the combustion, which will lead to a negative effect that the meaning of using the emulsion fuel fades, such as a decrease in thermal efficiency.

Conventionally, additives such as surfactants or other emulsifiers have been mixed in the fresh water to obtain an excellent emulsion fuel by emulsifying the fresh water, and the emulsion fuel has been obtained by a high-performance mixer or emulsifier. In the process of burner supply, fuel oil is not continuously supplied uniformly due to the difference in specific gravity difference and interfacial tension between fuel oil and water and the separation of oil and water and separation of oil and water. There was a problem. For this reason, the frequent interruption of combustion occurs during combustion and the combustion efficiency is also poor. Therefore, the intended purpose of reducing fuel oil could not be achieved.

The present invention has been made to solve the above problems in view of the above, the object of the present invention is to provide an inner structure of the rotating body that makes the water and oil in the interior of the housing and the water and oil that proceeds to the interior of the housing as the fine particles The present invention provides an apparatus for producing a water-in-oil emulsion fuel that can be modified to produce an emulsion oil of ultra-fine particles.

Characteristic technical features of the present invention for achieving the above object, the water supply port 11 is formed on one front side and the oil supply hole 12 is formed on the other front side, the discharge port 13 is formed at the rear, the inside A chamber 14 is formed in the chamber, and the first and second planar portions 15 and 16 having a predetermined width are formed at the entrance and exit of the inner circumferential surface of the chamber, and the unevenness is formed at the center between the first and second plane portions. A housing 10 formed of 17.18;

The resistance plate 21 is positioned at the center of the housing, and the first and second rotating bodies 22 and 23 are installed in the front and rear around the resistance plate so as to be kept at a predetermined distance from the inner circumferential surface of the chamber. The first smooth portion 22a having a predetermined width is formed at the entrance of the entire outer circumferential surface, and the unevenness (철: 22b, 22c) is formed at the rear thereof, and the second smooth portion having a predetermined width is formed at the exit of the outer circumferential surface of the second rotating body ( 23a) is formed and the emulsion means 20 formed in front of the irregularities (凹凸: 23b, 23c);

It is installed to penetrate through the resistance plate and the first and second rotary bodies, and the shaft 31 for rotating the first and second rotary bodies and one end of the shaft are connected to the shaft 33 of the motor 32. It consists of a rotating body rotating means 30.

If described in detail with reference to the accompanying drawings an apparatus for producing a water-in-oil emulsion fuel according to the present invention having the above characteristics as follows.

1 is a cross-sectional view showing the overall configuration of the water-in-oil emulsion fuel production apparatus according to the present invention, Figure 2 is a cross-sectional configuration of the emulsion means in the water-in-oil emulsion fuel production apparatus according to the present invention 3 is an excerpted front view of a housing in the apparatus for producing a water-in-oil emulsion fuel according to the present invention, FIG. 4 is a sectional view taken along line AA of the housing of the present invention, and FIG. 5 is a line BB of the housing according to the present invention. It is a cross section.

First, the apparatus for producing a water-in-oil emulsion fuel of the present invention is intended to emulsify heterogeneous fluids, that is, oils and dispersants, in a fine state by means of a rotating body. The supply means for supplying the phosphorus water is formed in the front of the cylindrical housing 10, the water supply port 11 is supplied with the supply is supplied, the other side is formed with an oil supply port 12 is supplied with oil, the water ball Preferably, the air supply port 11 and the oil supply port 12 are formed as shown in FIG.

The reason is that by supplying water and oil having different physical properties and properties and interfacial tension, that is, difference in cohesive energy between molecules, to a separate supply port, the oil and water are obtained at the same rotational force as well as maintaining a uniform ratio of emulsification. This is to form an oil-in-water droplet type (a state containing fine water droplets in the oil) emulsion oil (emulsified oil) by centrifugal force.

In addition, the discharge port 13 is formed at the rear of the housing 10, the discharge port 13 is to discharge the emulsion oil.

As described above, a chamber 14 is formed inside the housing 10 in which the water and oil supply ports 11 and 12 and the discharge port 13 are formed. First and second planar portions 15 and 16 were formed, and irregularities were formed in the central portion between the first and second planar portions.

The reason for forming the first flat portion 15 having a predetermined width at the inlet side of the inner circumferential surface of the chamber 14 is that water and oil supplied from the water and oil supply ports 11 and 12 do not generate a partial force or pressure at the inlet. The reason for forming the second flat portion 16 of a predetermined width in the output of the inner circumferential surface of the chamber 14 is that the component force or pressure does not occur even when the emulsion oil is discharged. This is to induce stable and smooth discharge.

The reason why the unevenness is formed at the center of the inner circumferential surface of the housing 10 is that the water and the oil supplied from the water and the oil supply ports 11 and 12 are rotated together with the rotation of the rotating body described below. It is to form a water-in-oil emulsion oil while being rotated to exert lifting force, that is, bumps and bumps (17:18) and pulverize into fine particles.

On the other hand, the shape of the concave-convex (17:18) formed in the center of the inner peripheral surface of the housing 10 is larger than the width of the concave (convex), and the mutual arrangement of the concave-convex is preferably in the form of a checkerboard. However, the reason for making the width of the yaw 17 larger than the width of iron 18 is that the iron 22c, 23c formed on the outer circumferential surface of the rotating body described below is used. It is located at the lower part of 17) to increase the lifting force of water and oil.

In addition, the reason why the arrangement of the unevenness (凹凸: 17.18) formed in the central portion of the inner peripheral surface of the housing 10 is a checkerboard shape, also, as described above, maximizes the lifting force of water and oil to form ultra fine emulsion oil. To do this.

In the housing 10 of the present invention having the structure as described above, a rotor is installed, the rotor is a resistance plate 21 is located in the inner central portion of the housing 10 as shown in Figure 2 and the resistance plate First and second rotating bodies 22 and 23 are installed at front and rear centers around the 21 to maintain a predetermined distance from the inner circumferential surface of the chamber 14.

The first and second rotors 22 and 23 are installed such that one side thereof is in surface contact with the front and rear surfaces of the resistance plate 21, and the role of the resistance plate 21 is the first and second rotors. (22,23) to distinguish between. In addition, the diameter of the resistance plate 21 is larger than the diameter of the rotating body so as to project slightly outward when installed between the first and second rotating bodies (22, 23).

On the other hand, the first smoothing portion 22a having a predetermined width is formed at the entrance to the outer circumferential surface of the first rotating body 22. The reason for forming the first smoothing portion 22a is formed at the inner circumferential surface of the housing 10. Like the first flat portion 15, the water and oil supplied from the water and the oil supply ports 11 and 12 are intended to induce a stable and smooth progress without generating a component force or pressure at the inlet.

In addition, a second smooth portion 23a having a predetermined width is formed on the outer circumferential surface exit side of the second rotating body 23. The reason for forming the second smooth portion 23a is formed on the inner circumferential surface exit side of the housing 10. Like the first flat portion 16, when the emulsion oil is discharged, it is to induce a stable and smooth discharge without generating a component force or pressure.

In addition, irregularities 22b and 22c are formed at the rear of the outer circumferential surface of the first rotating body 22. The reason for forming the irregularities 22b and 22c is that the irregularities are formed at the center of the inner peripheral surface of the housing 10. 17.18) is to work together with water and oil feed ports (11, 12) to exert the lift of water and oil to form fine oil-in-water emulsion oil.

In addition, the unevenness 23b, 23c is formed in front of the outer circumferential surface of the second rotating body 23. The reason for forming the unevenness 23b, 23c is the same as that of the first rotating body 22. This is to form fine oil-in-water emulsion oil by exerting the lifting force of water and oil supplied from water and oil supply ports (11,12) by working with the unevenness (凹凸: 17.18) formed at the center of the inner circumferential surface.

And the shape of the uneven | corrugated 22b, 22c, 23b, 23c formed in the outer peripheral surfaces of the said 1st and 2nd rotating bodies 22 and 23 makes the width | variety of a recess larger than the width of iron, The mutual arrangement of the irregularities is preferably in the form of a checkerboard. The reason why the width of the concave is larger than the width of the iron is that the concave-convex iron (18) formed on the inner circumferential surface of the housing described above is It is located in the lower part of (凹) to increase the lift of water and oil.

Moreover, the reason why the arrangement of the irregularities (凹凸: 22b, 22c, 23b, 23c) formed on the outer circumferential surfaces of the first and second rotating bodies 22, 23 is in the form of a checkerboard is, as described above, water and oil This is to maximize the lifting force of the to form a super fine emulsion oil.

As described above, when the resistance plates 21 and the first and second rotating bodies 22 and 23 are positioned in the inner chamber 14 of the housing 10, the shaft 31 is installed through the center thereof, and the shaft One end of the 31 is connected to the shaft 33 of the motor 32, the first and second rotating bodies (22, 23) are installed to be integral with the shaft (31) with the rotation of the shaft The first and second rotating bodies 22 and 23 are interlocked. In addition, the resistance plate 21 is closely located between the first and second rotating bodies 22 and 23 to be interlocked with the first and second rotating bodies 22 and 23.

The above-described apparatus for producing oil-in-water emulsion fuel according to the present invention operates the motor 32 to rotate the shaft 31 at high speed, and simultaneously rotates the first and second rotating bodies 22 and 23. At this time, the water and oil supplied to the water and the oil supply holes (11, 12) formed in front of the housing 10, respectively, the water and oil supplied by each of the inner peripheral surface of the housing 10 and the first rotating body ( It progresses between 22, ie, between the 1st flat part 15 and the 1st smooth part 22a. At this time, the water and oil that proceeds is stable and smooth because it receives the components by the first flat portion 15 and the first smoothing portion 22a.

In this way, when water and oil proceed between the first flat portion 15 and the first smooth portion 22a, the concave-convex portions 22b and 22c and the housing 10 formed on the outer circumferential surface of the first rotating body 22 are then formed. Water and oil are lifted by each of the unevenness (17,18 22b, 22c) while passing through the unevenness (17,18) formed in the inside of the atomization, and at the same time the oil is coated on the surface of the atomized water As a result, the first oil painting occurs.

As described above, the emulsion oil emulsified primarily proceeds backward and passes between the unevennesses 23b and 23c formed on the outer circumferential surface of the second rotating body 23 and the unevennesses 17 and 18 formed inside the housing 10. Water and oil are lifted by the respective unevenness (17, 18 23b, 23c), while the atomization is made according to the oil is coated on the surface of the water is a secondary emulsification.

The emulsion oil in which the secondary emulsification is made is discharged through the second flat portion 16 formed at the inner exit side of the housing 10 and the second smooth portion 23a formed at the rear of the outer circumferential surface of the second rotating body 23. 13), wherein the emulsion oil traveling between the second flat portion 16 and the second smooth portion 23a is divided by the second flat portion 16 and the second smooth portion 23a. Because it is received, it is discharged to the discharge port stably and smoothly.

In the present invention as described above, first, water and oil supply holes are formed to supply water and oil to the front of the housing, respectively, so that the physical properties and properties are different, and the interfacial tension, that is, water having a difference in cohesive energy between molecules. By supplying oil and oil, it is possible to maintain a uniform state of emulsification.

Second, by forming the respective flat portion and the smooth portion so that the components are generated on the inner inlet and outlet of the housing, there is an effect that the discharge of water and oil and emulsion oil supplied from the water and the oil supply port to proceed stably and smoothly.

Third, by forming each unevenness on the inner circumferential surface of the housing and the outer circumferential surface of the rotating body, as well as arranging the unevenness in the shape of a checkerboard, water and oil supplied from the water and the oil supply port can produce emulsion oil of ultra-fine particles It works.

Claims (5)

A water supply port 11 is formed at one front side, and an oil supply hole 12 is formed at the other front side, a discharge port 13 is formed at a rear side, and a chamber 14 is formed therein, and the inner circumferential surface of the chamber enters and A housing 10 having a first width and a second flat portion 15 and 16 having a predetermined width at the exit side, and a convex and concave (17.18) formed at a central portion between the first and second flat portions; A resistance plate 21 is positioned at the center of the housing, and the first and second rotating bodies 22 and 23 are installed in the front and rear around the resistance plate so as to be maintained at a predetermined distance from the inner circumferential surface of the chamber. A first smooth portion 22a having a predetermined width is formed at the inlet side of the outer circumference of the rotating body, and unevenness (22b, 22c) is formed at the rear thereof, and a second smooth portion having a predetermined width is formed at the exit side of the outer circumferential surface of the second rotating body. An emulsion means 20 in which 23a is formed, and in front of it, irregularities are formed; It is installed to penetrate through the resistance plate and the first and second rotary bodies, and the shaft 31 for rotating the first and second rotary bodies and one end of the shaft are connected to the shaft 33 of the motor 32. Apparatus for producing a water-in-oil emulsion fuel, characterized in that the configuration consisting of a rotating body rotating means (30). The oil-in-water drop of claim 1, wherein a width of the recess is greater than a width of iron in an unevenness formed on an inner circumferential surface of the chamber and an unevenness formed on outer circumferential surfaces of the first and second rotating bodies. Apparatus for producing type emulsion fuel. The method of claim 1, wherein the mutual arrangement of the unevenness formed on the inner circumferential surface of the chamber and the unevenness formed on the outer circumferential surfaces of the first and second rotating bodies is first and second times below the central portion formed on the inner circumferential surface of the chamber. An oil-in-water emulsion fuel manufacturing apparatus, characterized in that the iron formed on the entire outer peripheral surface is formed so as to be located. The water-in-oil type emulsion fuel production apparatus according to claim 1, wherein the irregularities formed on the inner circumferential surface of the chamber are regularly arranged in a checkerboard shape. The water-in-oil type emulsion fuel production apparatus according to claim 1, wherein the irregularities formed on the outer circumferential surfaces of the first and second rotating bodies are arranged regularly in a checkerboard shape.

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