KR20150112467A - Brown gas supply apparatus - Google Patents

Abstract

The present invention relates to a brown gas supply apparatus. The brown gas supply apparatus according to an embodiment of the present invention comprises: a water storage part having an accommodation space for storing water introduced from the outside; a brown gas generating part for generating brown gas via the electrolysis of water supplied from the water storage part; a brown gas supply part for supplying the brown gas, which has been supplied from the brown gas generating part, to the water storage part; and a brown gas input part for inputting the brown gas, which has been supplied form the water storage part, into an external combustion device. The brown gas generating part includes: a first plate for introducing water supplied from the water storage part; a first electrode cell placed near the first plate, connected to a pair of first electrodes through one side of the first plate and including multiple first electrode plates for generating brown gas by electrolyzing the water supplied through the first plate; a second electrode cell placed near the first electrode cell, connected to a pair of second electrodes through the other side of the first plate and including multiple second electrode plates for generating brown gas by electrolyzing water supplied through the first plate; and a second plate placed near the second electrode cell and discharging brown gas generated from the first electrode cell and the second electrode cell.

Description

[0001] The present invention relates to a brown gas supply apparatus,

More particularly, the present invention relates to a brown gas supply device, and more particularly, to an improvement in combustion efficiency and fuel saving efficiency of a combustion device, an increase in fuel consumption efficiency, a reduction in smoke generation effect and an increase in output, To a brown gas supply device that can be operated.

Generally, brown gas is a mixture of hydrogen and oxygen generated by the electrolysis of water, and contains oxygen suitable for complete combustion. Thus, Brown gas is attracting attention as a next generation fuel. In particular, brown gas has a good temperature rise characteristic when it burns up when compared with conventional fossil fuels, has a high adiabatic flame temperature, and has a remarkably high flame speed. In addition, since the flammability limit of hydrogen is much larger than that of fossil fuel, the flammable limit can be widened when mixed with fossil fuel. Brown gas is a clean energy source that is essentially free from environmental pollution since only steam is generated after complete combustion.

The Brown gas supply device is a device for supplying brown gas generated by electrolysis. Due to the advantages of Brown gas as described above, a brown gas supply device for use in various combustion devices such as engines and boilers has been developed.

Particularly, in order to improve the fuel efficiency of an automobile engine, research and development of a brown gas supplying device for supplying brown gas to a combustion device of an automobile engine is actively conducted. That is, the conventional automobile engine attempts to improve the combustion efficiency by sucking the combustion air from the outside by the natural suction method and mixing it with the fuel, but since the technical limit is reached and the fuel efficiency improvement can not be expected any more, Development of a gas supply system is important. Furthermore, in the case of a car turbo engine, it is necessary to develop a brown gas supply device capable of supplying brown gas at a high pressure since the pressure of the supplied air (gas) must be high.

However, the conventional Brown gas supply system has a problem that brown gas generation efficiency and combustion efficiency are not excellent by supplying Brown gas of constant pressure at all times regardless of operating conditions of a combustion apparatus such as an automobile engine. Further, in the case of an automobile engine, there is a problem that a storage tank containing water for generating Brown gas is shaken and water is overflowed into the automobile engine to damage the automobile engine.

Accordingly, there is a demand for a brown gas supply device that improves the fuel efficiency, the effect of reducing the amount of soot, and the output increase effect by improving the combustion efficiency and the fuel saving efficiency of the combustion device and more safely performing the supply of the brown gas.

SUMMARY OF THE INVENTION The present invention has been devised to solve the problems described above, and an object of the present invention is to provide a method of operating a combustion device such as an automobile engine by using first and second electrode cells, The present invention provides a brown gas supply device capable of increasing the fuel consumption efficiency, the exhaust gas reducing effect, and the output increasing effect by improving the combustion efficiency and the fuel saving efficiency of the combustion device by generating Brown gas according to the conditions and supplying the gas to the combustion device will be.

The technical problem of the present invention is not limited to those mentioned above, and another technical problem which is not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a brown gas supplying apparatus including: a water storage unit having a water receiving space for storing water introduced from the outside; A brown gas supply unit for supplying the brown gas supplied from the brown gas generator to the water storage unit, and a brown gas supply unit for supplying the brown gas supplied from the water storage unit to an external combustion unit Wherein the brown gas introducing portion includes a first plate through which the water supplied from the water reservoir flows, a second plate disposed adjacent to the first plate, And a second electrode connected to the first electrode, electrolyzing water supplied through the first plate, A first electrode cell which is disposed adjacent to the first electrode cell and is connected to a pair of second electrodes through the other side of the first plate, A second electrode cell including a plurality of second electrode plates for electrolyzing water supplied through the first electrode plate and generating the brown gas, and a second electrode cell located adjacent to the second electrode cell, And a second plate for discharging the brown gas generated from the electrode cell.

In addition, the water reservoir may include a water supply port formed in the inside of the accommodation space and having an open top, a water supply port for supplying water to the brown gas generator at one side, a water supply port for supplying the brown gas supplied from the brown gas generator, And a water discharge port for discharging water to the outside, a water inlet connected to open and close the opened upper portion of the storage tank, the water inlet for flowing water from the outside, A cover having a gas discharge port through which the Brown gas is discharged, and at least one partition wall provided at least at one of an upper portion of the containing space and a lower portion of the cover, the overhang preventing water stored in the containing space from being overflowed .

In addition, the cover may include at least one discharge valve for discharging Brown gas contained in the accommodation space to the outside.

The details of other embodiments are included in the detailed description and drawings.

According to an embodiment of the present invention, brown gas is generated according to operating conditions of a combustion device such as an automobile engine by using first and second electrode cells that can be electrolyzed individually or simultaneously at the same time Thereby improving the combustion efficiency and the fuel saving efficiency of the combustion apparatus, thereby increasing the fuel consumption improving effect, the soot reducing effect, and the output increasing effect.

In addition, according to the Brown gas supply apparatus according to an embodiment of the present invention, since at least one partition wall is provided in the water reservoir for containing water, water stored inside the water reservoir is prevented from overflowing, Can be performed more safely.

Further, according to the Brown gas supply apparatus according to the embodiment of the present invention, the Brown gas can be supplied more safely by providing at least one discharge valve for discharging the Brown gas to the outside in the water reservoir .

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

FIG. 1 is a view schematically showing a configuration of a brown gas supplying apparatus according to an embodiment of the present invention.
2 is a perspective view schematically showing the structure of a water storage part in a Brown gas supply device according to an embodiment of the present invention.
3 is a perspective view showing a structure of a Brown gas generating part in a Brown gas supplying apparatus according to an embodiment of the present invention.
4 is an exploded perspective view showing the structure of the Brown gas generating unit in the Brown gas supplying apparatus according to the embodiment of the present invention.
5 is a perspective view showing a modified example of the structure of the Brown gas generating part in the Brown gas supplying device according to the embodiment of the present invention.
6 is an exploded perspective view illustrating a structure of a first electrode cell in a brown gas generating portion of a Brown gas supplying apparatus according to an embodiment of the present invention.
7 is a plan view showing the structure of an electrode plate in a brown gas generating portion of a brown gas supplying apparatus according to an embodiment of the present invention.
FIG. 8 is a perspective view illustrating the arrangement structure of the first electrode cell and the second electrode cell in the brown gas generating portion of the Brown gas supply device according to the embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

In the following description of the embodiments of the present invention, descriptions of techniques which are well known in the technical field of the present invention and are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated. Also, the size of each component does not entirely reflect the actual size. In the drawings, the same or corresponding components are denoted by the same reference numerals.

Hereinafter, the present invention will be described with reference to the drawings for explaining the Brown gas supplying apparatus 1 according to the embodiments of the present invention.

1 is a view schematically showing a configuration of a brown gas supplying device 1 according to an embodiment of the present invention.

1, the Brown gas supply device 1 (1) according to an embodiment of the present invention includes a water storage part 100, a brown gas generating part 200, a brown gas supplying part 300, And a brown gas introducing part 400. [0035]

The water storage unit 100 may include a receiving space 111 for storing water introduced from the outside. 1, the water storage part 100 is constructed such that the water introduced from the outside is received in the lower part of the receiving space 111 and the brown gas generating part 110 is provided on the upper part of the receiving space 111, The brown gas supplied from the gas-liquid separator 200 may be introduced.

1, the water storage unit 100 may include a storage tank 110, at least one partition 120, and a water level sensor 130. The concrete structure of the water storage unit 100 will be described later in detail with reference to FIG.

The brown gas generator 200 can generate brown gas through electrolysis of the water supplied from the water reservoir 100.

As shown in FIG. 1, the brown gas generator 200 is connected to a power supply device 201, and generates brown gas containing oxygen and hydrogen by electrolyzing water supplied from the water reservoir 100 can do. The specific structure of the brown gas generator 200 will be described later in detail with reference to FIGS. 3 to 8. FIG.

The brown gas supplying unit 300 can supply the brown gas supplied from the brown gas generating unit 200 to the water storage unit 100. As described above, Brown gas supplied from the brown gas generator 200 may be introduced into the upper portion of the space occupied by the water introduced from the outside of the receiving space 111 of the water reservoir 100.

1, the brown gas supply unit 300 includes a circulation motor 310, a cooler 320, a filter 330, a first supply pipe 340, and a second supply pipe 350, . The circulation motor 310 draws the water stored in the water storage part 100 and supplies the water to the brown gas generator 200. The cooler 320 cools water and Brown gas introduced from the brown gas generator 200 And the filter 330 can filter out impurities such as chlorine in the brown gas and the water introduced from the brown gas generator 200. The first supply pipe 340 is a pipe through which water is supplied from the water storage part 100 to the brown gas generating part 200 and the second supply pipe 350 is connected to the brown gas generating part 200 through a water storage And water and brown gas are supplied to the portion (100). 1, the first supply pipe 340 to which water is supplied is indicated by a solid line, and the second supply pipe 350 to which water and Brown gas are supplied is indicated by a dotted line. 1, the first supply pipe 340 supplies only water and the second supply pipe 350 supplies only Brown gas. However, the present invention is not limited thereto .

The brown gas introducing part 400 can supply the brown gas supplied from the water storage part 100 to the external combustion device. That is, the brown gas charging unit 400 can forcibly transfer the brown gas supplied from the water storage unit 100 to a combustion device (not shown) such as an automobile engine, thereby increasing the combustion efficiency of the combustion device.

1, the brown gas inlet 400 may include a combustion apparatus inlet 410, a gas injection nozzle 420, a gas supply line 430, and a backfill check valve 440. have.

The combustion device inlet 410 is connected to a combustion device (not shown) such as an automobile engine and is an inlet for injecting Brownian gas. The gas injection nozzle 420 is connected to the combustion device intake port 410 Brown gas can be sprayed. The gas supply pipe 430 supplies the brown gas supplied from the brown gas generator 200 through the water reservoir 100 to the combustion device and the backfire prevention check valve 440 is connected to the gas supply pipe 430, It is possible to prevent the reverse flow phenomenon of the brown gas supplied to the combustion device. 1, the anti-backflow check valve 440 may be installed before the position where the gas injection nozzle 420 is installed in the path where the brown gas moves along the gas supply pipe 430.

On the other hand, the configuration of the brown gas supplying device 1 shown in FIG. 1 is an exemplary one, and is not limited thereto, and can be changed by a person skilled in the art.

2 is a perspective view schematically showing the structure of the water storage part 100 in the brown gas supplying device 1 according to the embodiment of the present invention.

2, the water storage part 100 includes a storage space 111 for storing water introduced from the outside and includes a storage tank 110, a cover, and at least one partition 120 .

The storage tank 110 has a substantially cylindrical shape, a receiving space 111 is formed therein, and an upper portion thereof can be opened. 2, the opening of the storage tank 110 has a diameter smaller than that of the lower end of the storage tank 110, but the present invention is not limited thereto. The storage tank 110 includes a water supply port 112 for supplying water to the brown gas generator 200 at one side, a gas inlet 113 for supplying brown gas supplied from the brown gas generator 200, (114 in FIG. 1) for discharging the water to the outside can be formed. 1 shows an example in which a water supply port 112 and a gas inlet port 113 are formed on the right side of the storage tank 110 and a water discharge port 114 is formed on the left side of the storage tank 110 However, the present invention is not limited thereto, and the positions of the water inlet, the gas inlet, and the water outlet may be changed by a person skilled in the art.

The cover 120 is coupled to open and close the opened upper portion of the storage tank 110 and includes a water inlet 121 through which water flows from the outside and a gas outlet through which the brown gas supplied from the brown gas generator 200 is discharged 122 may be formed. At this time, the cover 120 can be coupled so as to be detachable and attachable as required.

At least one partition wall 130 is provided at least one of the upper part of the receiving space 111 and the lower part of the cover to prevent water stored in the receiving space 111 from overflowing. That is, even when the Brown gas supply device 1 (1) of the present invention is used in a combustion device (not shown) such as an automobile engine, the storage tank 110 is shaken It is possible to prevent the water from overflowing even in the case where the water level is high. 2 illustrates an example in which a first partition 131 is installed in the storage space 111 of the storage tank 110 and a second partition 132 is installed in the opening of the storage tank 110. However, The number of the partition walls, the installation position, and the like can be changed by a person skilled in the art.

As described above, the Brown gas supply device 1 (1) according to the embodiment of the present invention includes at least one partition wall inside the water storage part 100 for storing water, It is possible to prevent the water stored in the inside from overflowing and to supply the brown gas more safely.

Meanwhile, the cover 120 may include at least one discharge valve 123, 124 for discharging Brown gas contained in the accommodation space 111 to the outside. 2, the discharge valve may be provided with a first discharge valve 123 and a second discharge valve 124, wherein the first discharge valve 123 is opened when the combustion device, such as an automobile engine, The second discharge valve 124 discharges Brown gas remaining in the accommodation space 111 of the storage tank 110 when the Brown gas is supplied from the Brown gas supply unit 300, 11) is equal to or higher than a predetermined pressure, Brown gas can be automatically discharged.

As described above, the Brown gas supply device 1 (1) according to the embodiment of the present invention includes at least one discharge valve for discharging Brown gas to the outside in the water storage part 100, Can be performed more safely.

3 to 8, the structure of the brown gas generator 200 provided in the brown gas supplying apparatus 1 according to an embodiment of the present invention will be described in detail.

FIG. 3 is a perspective view illustrating a structure of a brown gas generator 200 in a brown gas supply apparatus 1 according to an embodiment of the present invention. FIG. 4 is a cross- 1 is an exploded perspective view showing the structure of the brown gas generator 200. FIG.

3 and 4, the brown gas generator 200 includes a first plate 230, a first electrode cell 210, a second electrode cell 220, and a second plate 240 .

The first plate 230 can receive water supplied from the water storage part 100. The first plate 230 may have a plate-like shape having a predetermined thickness and the center portion may be penetrated so that water supplied from the water storage portion 100 may be introduced.

The first electrode cell 210 is disposed adjacent to the first plate 230 and includes a plurality of first electrodes 230 connected to a pair of first electrodes (positive electrode and negative electrode) through one side of the first plate 230, And electrode plates 211 and 212, respectively. The plurality of first electrode plates 211 and 212 constituting the first electrode cell 210 are each made of a specially plated metal material having high electrical conductivity and may have a substantially thin plate shape. The plurality of first electrode plates 211 and 212 may include an electrode plate 211 connected to the positive electrode and an electrode plate 212 connected to the negative electrode among the pair of first electrodes, And the brown gas in which hydrogen and oxygen are mixed can be generated by electrolyzing water using a power source supplied from a power supply device (201 in FIG. 1).

The second electrode cell 220 is located adjacent to the first electrode cell 210 and is connected to a pair of second electrodes (+ electrode and -electrode) through the other side of the first plate 230, Two-electrode plates 221 and 222, respectively. The material, shape and arrangement of the second electrode plates 221 and 222 constituting the second electrode cell 220 are the same as those of the first electrode plates 211 and 212 constituting the first electrode cell 210, The positions of the positive and negative electrodes of the plurality of second electrode plates 221 and 222 are opposite to the positions of the positive and negative electrodes of the first electrode plates 211 and 212, respectively.

The second plate 240 may be positioned adjacent to the second electrode cell 220 and may emit brown gas generated from the first electrode cell 210 and the second electrode cell 220. Like the first plate 230, the second plate 240 has a plate-like shape having a predetermined thickness, and the central portion emits brown gas generated from the first electrode cell 210 and the second electrode cell 220 .

4, the first plate 230 and the second plate 240 are coupled with a plurality of fastening members 260 along the edges (for example, along four corners) The first electrode plate 210, the second electrode cell 220, the first plate 230, and the second plate 240.

The plurality of fastening members 260 may be electrically connected to a power supply device (201 of FIG. 1) to receive power. At this time, the plurality of fastening members 260 may be connected to the plurality of first electrode plates 211, 212 or the plurality of second electrode plates 221, 222 in pairs. 4, the lower two fastening members of the plurality of fastening members 260 include a plurality of first electrode plates 211 and 212, that is, an electrode plate 211 connected to the positive electrode, And the upper two coupling members of the plurality of coupling members 260 are connected to the second electrode plates 221 and 222, that is, the electrode plate 221 connected to the positive electrode And an electrode plate 222 connected to the electrode.

The operation of generating the brown gas in the brown gas generating portion will be described in detail later with reference to FIG. 6 to FIG.

3 and 4, the brown gas generator 200 includes a first electrode cell 210 and a second electrode cell 220 for separating the first electrode cell 210 and the second electrode cell 220 from each other, And a third plate 250 disposed between the electrode cells 220. However, the structure of the brown gas generator 200 shown in FIGS. 3 and 4 is illustrative and not limited thereto, and can be changed by a person skilled in the art.

5 is a perspective view showing a modified example of the structure of the brown gas generator 200 in the brown gas supplying device 1 according to the embodiment of the present invention.

The brown gas generator 200 shown in FIG. 5 differs from the brown gas generator 200 shown in FIGS. 3 and 4 in that a brown gas generator 200 is provided between the first electrode cell 210 and the second electrode cell 220 3 plate 250 is not provided and the first electrode cell 210 and the second electrode cell 220 are in contact with each other to perform electrolysis.

3 and 4, between the first plate 230 and the third plate 250, between the third plate 250 and the second plate 240, and in FIG. 5, A spacer (not shown) such as a washer may be installed between the first plate 230 and the second plate 240 to maintain a constant gap therebetween. 3 and 4, around the first plate 230, the second plate 240, and the third plate 250, and around the first plate 230 and the second plate 240 of FIG. 5 A case (not shown) may be provided, in which air is kept in a hermetic state so that water flowing from the water storage part 100 does not leak to the outside.

Hereinafter, the operation of generating the brown gas in the brown gas generating portion of the brown gas supplying device 1 according to the embodiment of the present invention will be described in detail with reference to FIGS. 6 to 8. FIG.

6 is an exploded perspective view showing the structure of the first electrode cell in the brown gas generating portion of the brown gas supplying device 1 according to the embodiment of the present invention, FIG. 8 is a plan view showing the structure of the electrode plate in the brown gas generating portion of the apparatus 1. FIG. 8 is a cross-sectional view of the brown gas generating portion of the brown gas supplying device 1 according to the embodiment of the present invention, Fig. 7 is a perspective view showing an arrangement structure of the electrode cells.

6 and 7, since the first electrode cell 210 and the second electrode cell 220 of the brown gas generator 200 have substantially the same structure as the first electrode cell 210, Only the structure will be described.

6 and 7, the plurality of first electrode plates 211 and 212 constituting the first electrode cell 210 each have substantially thin plate-shaped bodies 211a and 212a, And the electrode holes 211b and 212b connected to the + electrode or the - electrode of the power supply device 201 (see FIG. 1) are formed on the other side of the body 211a and 212a, A plurality of through holes 211c and 211d through which water and brown gas pass can be formed. The plurality of first electrode plates 211 and 212 includes an electrode plate 211 connected to the positive electrode of the power supply device 201 (see FIG. 1) through a plurality of coupling members 260, The electrode plate 212 may be arranged so that the + electrode and the - electrode cross each other.

A plurality of first electrode plates 211 and 212 constituting the first electrode cell 210 and a plurality of second electrode plates 221 and 221 constituting the second electrode cell 220, 222 may be disposed so that the + electrode and the - electrode are opposite to each other. 8, the first and second electrode plates 211 and 212 are arranged so that the + electrode and the - electrode are directed downward, and the plurality of second electrode plates 221 and 222 are arranged in the order of + As shown in Fig.

As described above, the brown gas generator of the brown gas supply device according to the embodiment of the present invention includes a plurality of first electrode plates 211 and 212 constituting the first electrode cell 210, a plurality of second electrode cells 220 The amount of Brown gas generated can be controlled according to the operating conditions of a combustion device such as an automobile engine. For example, when the Brown gas supply device according to an embodiment of the present invention is used in a combustion apparatus for an automobile engine, when a vehicle stops or idles while driving, a relatively small amount of Brown gas is supplied to the first The power can be supplied to only one of the plurality of first electrode plates 211 and 212 constituting the electrode cell 210 or the plurality of second electrode plates 221 and 222 constituting the second electrode cell 220 . Conversely, when the vehicle is running, a plurality of first electrode plates 211 and 212 and a second electrode cell 220 constituting the first electrode cell 210 are configured to supply a relatively large amount of brown gas Power can be supplied to all of the plurality of second electrode plates 221 and 222.

As described above, in the case of the Brown gas supply apparatus according to an embodiment of the present invention, the first and second electrode cells, which can be electrolyzed individually or simultaneously, are used to adjust the operating conditions of a combustion apparatus such as an automobile engine The brown gas is generated and supplied to the combustion device, thereby improving the fuel efficiency improvement effect, the smoke reduction effect, and the output increase effect by improving the combustion efficiency and the fuel saving efficiency of the combustion device. In addition, since at least one partition is provided in the water reservoir for storing water, the water stored in the water reservoir can be prevented from overflowing, and the Brown gas can be supplied more safely. In addition, by providing at least one discharge valve for discharging the Brown gas to the outside in the water reservoir, the Brown gas can be supplied more safely.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And is not intended to limit the scope of the invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

Description of the Related Art
1: Brown gas supply
100: water storage part
200: brown gas generator
300: Brown gas supply unit
400: brown gas inlet

Claims (3)

A water storage portion in which a storage space for storing water introduced from the outside is formed;
A brown gas generator for generating brown gas through electrolysis of water supplied from the water reservoir;
A brown gas supply unit for supplying the brown gas supplied from the brown gas generating unit to the water storage unit; And
And a brown gas input unit for inputting the brown gas supplied from the water storage unit to an external combustion device,
Wherein the brown gas generator comprises:
A first plate through which water supplied from the water storage unit flows;
A plurality of first electrodes disposed adjacent to the first plate and connected to a pair of first electrodes through one side of the first plate and electrolyzing water supplied through the first plate to generate the brown gas, A first electrode cell including a one-electrode plate;
A plurality of second electrodes disposed adjacent to the first electrode cells and connected to the pair of second electrodes through the other side of the first plate and electrolyzing water supplied through the first plate to generate the brown gas; A second electrode cell including a second electrode plate; And
And a second plate positioned adjacent to the second electrode cell and discharging the brown gas generated from the first electrode cell and the second electrode cell. The method according to claim 1,
The water storage unit
A water inlet for supplying water to the Brown gas generating part on one side, a gas inlet for supplying the Brown gas supplied from the Brown gas generating part, A storage tank having a water discharge portion for discharging the water;
A cover coupled to open and close the open top of the storage tank and having a water inlet through which water is introduced from the outside and a gas outlet through which the brown gas supplied from the brown gas generator is discharged; And
Wherein at least one partition wall is provided at least one of an upper portion of the accommodating space and a lower portion of the cover to prevent water stored in the accommodating space from overflowing. 3. The method of claim 2,
Wherein the cover includes at least one discharge valve for discharging Brown gas contained in the accommodation space to the outside.

Images