KR102029573B1 - Water Energy Mixed Combustion System - Google Patents

Abstract

The present invention relates to a water-energy mixed combustion system, which is currently used to inject brown gas into a combustion chamber such as an industrial boiler using fossil fuels such as diesel oil, bunker-C oil, LPG, and LNG to reduce fuel consumption by mixing with fossil fuel It is proposed to solve the pollution problem.
The present invention is to install the brown gas ejector in the brown gas supply line connected to the mixed combustion burner to use the compressed air as a motif and to use the brown gas on the suction side to push the low pressure brown gas into the center of the flame The problem was solved by the flashback problem of Brown Gas.
In other words, the water-energy mixed combustion system of the present invention directly blows H2 and O2 into the central region of the flame in a molecular state without igniting the brown gas nozzle tip. However, when the brown gas, which is a mixture of hydrogen and oxygen, is blown into the flames, the backfire problem must be solved. Therefore, the brown gas mixed combustion burner of the present invention is configured to push the low pressure brown gas into the central region of the flame by using compressed air as a motif.

Description

Water Energy Mixed Combustion System

The present invention relates to a water-energy mixed combustion system, which is currently used to inject brown gas into a combustion chamber such as an industrial boiler using fossil fuels such as diesel oil, bunker-C oil, LPG, and LNG to reduce fuel consumption by mixing with fossil fuel. The present invention relates to a mixed combustion system using a water energy plant proposed to solve the pollution problem.

Water Energy Plant (Life: Brown Gas Plant) is a large-scale brown gas supply facility that can stably supply brown gas from electrolysis of water to combustion facilities such as industrial boilers, furnaces, and melting furnaces. Say. The energy of water is produced by the WE system, which is configured to produce a large amount of brown gas in a water energy plant and generate heat by heating it in a boiler, a heating furnace, a melting furnace, and the like.

WE energy (WATER ENERGY SYSTEM) is a combination of a water energy plant and a water energy heating device (boiler, heating furnace, melting incinerator, combustor, etc.) into one system to convert water into brown gas in the water energy plant and then water energy It refers to the energy system of water that is generated by thermal energy by Brown Gas's unique heating technology. The heat energy produced in the WE system is called water energy.

Water energy mixed combustion system (aka Brown Gas Combustion Promotion System) refers to WE system in existing combustion equipment (industrial boiler, heating furnace, melting furnace, etc.) that uses fossil fuels (light oil, bunker-C oil, LPG, LNG, etc.). It is a new combustion technology that saves fuel by promoting fossil fuel combustion by mixing water energy brown gas automatically supplied from water energy plant with fossil fuel by constructing a water energy plant.

Existing fuel savings are relative and may vary depending on existing combustion facilities (industrial boilers, furnaces, melting furnaces, etc.) or fuels (light oil, bunker-C oil, LPG, LNG, etc.). The more you put in, the more you save, so you can save up to 10% up to 50% depending on the amount of Brown Gas you're using, and you can reduce CO2 as you cut fuel, so there's literally a low-carbon green revolution.

As a background technology of the invention related to the water-energy mixed combustion system of the present invention, Patent No. 10-0687575 registered and filed by the applicant of the present application, title of the invention: Brown gas combustion promoting gas control device, filed October 2004 12, the publication date April 17, 2006, the registration date February 21, 2007 (hereinafter referred to as the patent).

The cited patent in the 'Summary'

『The present invention relates to a gas control device for brown gas combustion promotion. The brown gas combustion promotion system for supplying a large amount of brown gas from a brown gas plant and promoting combustion of bunker-C oil and refined oil with a burner for oil and gas mixtures. In the present invention, a combustion gas control device is constructed between the brown gas plant and the mixed burner to more efficiently inject brown gas into the combustion chamber.

Brown gas combustion promoting gas control device of the present invention by using the ejector with the compressed air motif more effectively inject the brown gas, and control the timing of supply and stop of the compressed air and brown gas by the solenoid valve and timer Brown It completely solved the problem of backfire of gas. According to the present invention, combustion promotion of industrial boilers, heating furnaces, incinerators, etc. using bunka-C oil and refined oils can be more efficiently and reliably carried out to solve fuel cost problems and environmental pollution problems in the high oil price era. It is said, 』

The cited patent in the 'detailed description of the invention'

The present invention relates to a gas control device constituting the Brown Gas combustion promotion system, which not only serves to inject Brown gas into the combustion chamber by means of an ejector whose compressed air is a motif, but also supplies the timing of supply of compressed air and Brown gas to the solenoid valve. It is configured to control with timer and it completely solves the problem of backfire of Brown Gas. ”

The cited patent in the 'Technical task to achieve the invention'

The object of the present invention is to provide a Brown gas combustion promotion system by a gas control device for combustion promotion. Brown gas is a mixed gas of hydrogen and oxygen, and its combustion speed reaches 1,400 cm / s. This shows that the combustion speed is increased by about five times compared with the air mixing. Therefore, Brown Gas, a mixed gas of hydrogen, must solve the backfire problem thoroughly. This is the technical problem of the present invention.

Brown gas combustion promotion system is a case where brown gas is injected into the combustion chamber that burns oil, so if brown gas leaks due to a defect in the system and the gas is filled in the combustion chamber, it may cause a big explosion accident.

Therefore, the combustion promoting gas control device of the present invention is configured so that the supply of brown gas is automatically stopped before the compressed air acts as a motif, the safety device is composed of double triple. In addition, when supplying the brown gas, the compressed air is supplied after about 10 seconds from the supply point, and when the brown gas is blocked, the compressed air is cut off after about 30 seconds after the blocking.

The principle of the ejector is a type of pump that draws in low energy fluid by the kinetic energy of the fluid injected at high flow rate from the motive nozzle. The present invention uses the principle of ejector to inhale brown gas by using compressed air as a motif and to supply it to the combustion chamber.

On the other hand, there is a similar patent that appears to mimic the cited patent, and the invention is called a similar patent and described with reference to the cited patent. Here, the similar patent is filed October 8, 2014, registration date 25 November 2014, the date of publication December 1, 2014, Patent No. 10-1467542, the title of the invention 'mixed combustion system and mixing using brown gas Combustion method. 7 is a reference to a view showing the end of the mixed combustion device 10 in the similar patent.

The similar patent is in the 'details for carrying out the invention',

"Compressed air contains the right amount of oxygen, so it helps Brown gas burn well. For this purpose, when the brown gas and the compressed air are mixed, the pressure of the brown gas is preferably 0.3 bar to 0.7 bar larger than the pressure of the compressed air. '

"The mixed combustion apparatus 10 is connected with the brown gas supply pipe 14 and the compressed air supply pipe 15, and receives compressed air and Brown gas, respectively. The manual valve and the solenoid valve are sequentially installed in the brown gas supply pipe 14 along the direction in which the brown gas indicated by the arrow flows. '

As described above, the cited patent is "not only serves to inject brown gas into the combustion chamber by the ejector with the compressed air motif, but also to control the supply timing of the compressed air and brown gas with a solenoid valve and a timer. Explains.

On the other hand, the similar patent is to install the brown gas supply pipe 14 in the horizontal direction of the mixed combustion device (10, 20, 30) to supply the brown gas and to the compressed air supply pipe 15 in the vertical direction and the brown gas supply direction It is desirable that the pressure of Brown gas be 0.3 bar to 0.7 bar greater than that of compressed air. There is enough pressure in brown gas, so even if compressed air is not pushed, brown gas is well injected into the flame itself to increase the heat of combustion, so compressed air does not boost brown gas but controls the combustion of brown gas. It is explained.

However, the maximum operating pressure of domestically manufactured water energy plant or brown gas plant is usually 1Kg / cm3, so it is operated at very low pressure below 1Kg / cm3, and it is well known that the maximum pressure of compressed air is usually 7Kg / cm3. to be. Therefore, "Because the pressure of the brown gas is sufficient, the brown gas is injected into the flame itself without the compressed air being pushed, so the compressed air does not push the brown gas but controls the combustion of the brown gas." The explanation is different from the fact.

In other words, the mixed combustion device (10, 20, 30) of the similar patent uses a low pressure Brown gas as a motif to mix the compressed air of a lower pressure than Brown gas, so only a very small amount of compressed air enters. Then you don't know what compressed air is doing and why you need to mix compressed air with Browns gas. Because Brown Gas is a very ideal fuel that is completely burned by its own oxygen, there is no reason to mix a small amount of compressed air.

The similar patent describes the mixed combustion apparatus 10, 20, and 30 in a complicated manner, and when the principle of the ejector is explained, it can be explained very easily. Referring to FIG. 7 citing a drawing of a similar patent, since the low-pressure brown gas is used as a motif and the high-pressure compressed air is deliberately lowered than the brown gas pressure, it is used on the suction side, thereby solving the problem of backfire of brown gas. Can not. The problem of the similar patent is that the low pressure Brown gas is used as a motif, and the compressed air having a high pressure is deliberately lower than the Brown gas pressure to be used on the suction side. If so, it would be desirable to correct it. Therefore, the present invention is to provide a water energy mixed combustion system for solving the problem of backfire of Brown Gas, unlike a similar patent.

Therefore, the water energy mixed combustion system of the present invention uses the compressed air as a motif by installing the brown gas ejector in the brown gas supply line connected to the mixed combustion burner and uses the brown gas on the suction side to convert the brown gas with low pressure into the flame. It is designed to solve the backfire problem of Brown Gas by configuring it to be pushed into the center area.

In addition, the present invention by installing the No. 1 solenoid valve in the compressed air line connected to the Brown gas ejector and the No. 2 solenoid valve in the Brown gas supply line No. 3 solenoid valve already installed in the existing fuel supply line It is configured to work simultaneously by interlocking with. This ensures that Brown gas enters when No. 3 solenoid valve is opened and Brown gas supply is also cut off when No. 3 solenoid valve is closed to ensure safety.

In other words, the water-energy mixed combustion system of the present invention is to blow H2 and O2 directly into the central region of the flame in a molecular state without igniting the Brown gas nozzle. However, when the brown gas, which is a mixture of hydrogen and oxygen, is blown into the flames, the backfire problem must be solved. Therefore, the brown gas mixed combustion burner of the present invention is configured to push the low pressure brown gas into the central region of the flame by using compressed air as a motif.

When a low pressure brown gas is put into a high temperature combustion chamber, it is naturally backfired. Because Brown gas is a mixture of hydrogen and oxygen, it is supposed to be backfired well, and when it is used at low pressure, it is inevitable that backfire occurs because the burning speed is much higher than the speed ejected from the burner nozzle tip. Therefore, the present invention is designed to prevent backfire at all by blowing the burner nozzle to prevent fire from using the compressed air.

Therefore, the water energy mixed combustion system of the present invention for achieving the above object comprises a brown gas mixed burner including a brown gas ejector using compressed air as a motif and a brown gas used on the suction side, so that the brown gas is burned at the nozzle. It is configured to be put directly into the center of the flame without sticking.

Therefore, the brown gas ejector of the present invention forms a hollow shaft in a horizontal direction of the body, assembles a compressed air nozzle on one side of the hollow shaft, assembles a brown gas discharge pipe on the opposite side, and assembles a brown gas nozzle on the end of the brown gas discharge pipe. In addition, by forming a brown gas inlet hole on the vertical axis forming a 90 ° direction with the hollow side of the horizontal direction is configured to the Brown gas supply pipe is assembled in the brown gas inlet.

The compressed air supply line connected to the compressed air nozzle of the Brown Gas Ejector is an air compressor, a stop valve, a No. 1 solenoid valve, a pressure gauge, and a regulator that are supplied with compressed air in order and are assembled in order. The brown gas supply line, which is connected to the brown gas supply pipe, is a water energy plant that produces and supplies brown gas in bulk, a sealed flame arrestor, a pressure gauge, a stop valve, and a No. 2 solenoid valve in order.

On the other hand, in the case of an oil burner using diesel fuel oil, the fuel oil supply line is pumped by a gear pump through a strainer in a service tank, and then a pressure gauge, a flow meter, a solenoid valve, and a brown gas horn burner are assembled in order. Therefore, fuel is supplied to the brown gas horn burner along the fuel oil supply line, injected from the fuel oil injection nozzle of the brown gas horn burner, and then ignited to form a flame. One to three fuel oil injection nozzles are usually installed according to the burner capacity.

Brown gas horn burner connected to the existing fuel oil supply line and the brown gas supply line of the present invention is to install the brown gas nozzle side by side with the fuel oil injection nozzle in the position of the existing fuel oil injection nozzle. If there is only one fuel oil injection nozzle of the Brown Gas Horn Burner, install the Brown Gas nozzle in parallel with the fuel oil injection nozzle, and if there are two fuel oil injection nozzles, install the fuel oil injection nozzle in the middle between both fuel oil injection nozzles. In case of three, Brown gas nozzle is installed at the center of three triangular fuel injection nozzles.

All fuels are mainly composed of hydrogen (H) and carbon (C). When the fuel is ignited by injecting fuel into the combustion burner, it is thermally decomposed during combustion and momentarily hydrogen is first burned and carbon is burned together. Therefore, in the center of the fire closest to the burner tip, a hydrogen burning zone is formed and the surrounding area is burned by forming a large flame by secondary air. The maximum temperature of the flame reaches 1,200 ℃.

Water-energy mixed combustion system is a method of blowing Brown gas, H2 and O2, directly into the center of flame in the molecular state. The problem of backfire in Brown Gas must be solved. Therefore, the present invention is configured so that Brown gas is directly injected into the flame without catching fire at the nozzle tip by using the ejector principle using compressed air as a motif.

If brown gas is blown toward the center of the flame, brown gas is burned in the flame to form a high temperature, so a high temperature brown gas combustion zone (brown gas zone) is formed at the center of the flame. Brown gas zone in the flame of high temperature maintains the ultra-high temperature, and thus plays a role of promoting combustion of the existing fuel particles around the brown gas zone.

In other words, H, O of brown gas and C, H of fossil fuel are thermally fused to each other to generate high heat due to the heat fusion characteristics of brown gas alone. At this time, since the generation of CO is suppressed, the amount of CO generated is drastically reduced, so that air pollutants such as smoke odors do not come out.

In summary, Brown Gas's fossil fuel combustion promotion technology by water-energy mixed combustion system generates heat in the combustion chamber by the following three methods, which saves fuel and reduces CO2 emissions as much as fossil fuel is saved. You get

1) Self burning heat burned by brown gas.

2) Heat generated by inducing incomplete combustion of fossil fuel to complete combustion.

3) Heat generated by Brown Gas's unique heat fusion characteristics in the Brown Gas Zone.

6 is a photograph of the applicant directly photographing the flame inside the boiler while mixing combustion experiments by installing a water energy plant model WE-12000 (gas production 12,000 l / h) in a boiler room of a 20 ton boiler using heavy oil. This photo shows how the brown gas zone, like the sun, actually formed in the center of the flame.

1 is a schematic diagram showing a water energy mixed combustion system of the present invention,
2 is a perspective view showing a brown gas ejector that is one component of the present invention;
3 is an assembly cross-sectional view of the Brown gas ejector which is one component of the present invention,
4 is a view schematically showing a position where the brown gas nozzle of the present invention is installed in the brown gas horn burner,
5 is a view schematically showing that the Brown gas nozzle of the present invention is installed between fuel oil injection nozzles,
Figure 6 is the appearance of the brown gas zone actually shining like the sun in the flame inside the boiler,
7 is a reference diagram citing a mixed combustion burner proposed in a similar patent.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

Figure 1 is a schematic diagram showing a water energy mixed combustion system of the present invention, Figure 2 is a perspective view showing a brown gas ejector of one component of the present invention, Figure 3 is a brown gas ejector of one component of the present invention 4 is a schematic cross-sectional view, and FIG. 4 is a view schematically showing a position where a brown gas nozzle of the present invention is installed in a brown gas horn burner, and FIG. 5 schematically shows a brown gas nozzle of the present invention installed between fuel oil injection nozzles. FIG. 6 is a view in which a brown gas zone glowing like the sun is actually formed in a flame inside a boiler, and FIG. 7 is a reference diagram citing a mixed combustion burner proposed in a similar patent.

As shown in FIGS. 1 to 6, the water energy mixed combustion system of the present invention uses a brown gas ejector using compressed air as a motif to push the low pressure brown gas into the central region of the flame in a manner that does not cause backfire ( 140 is configured so that the brown gas installed in the brown gas horn burner 150 is directly injected into the center region of the flame without the fire from the nozzle tip 145.

As shown in FIGS. 2 and 3, the brown gas ejector 140 forms a hollow shaft in the horizontal direction of the body 141 and the compressed air nozzle 142 in the compressed air nozzle assembly hole 141a formed on one side of the hollow shaft. Assemble the Brown gas discharge pipe 144 in the Brown gas discharge hole (141b) produced on the opposite side and Brown gas in the Brown gas inlet (141c) created on the vertical axis forming a 90 ° direction with the hollow side in the horizontal direction The supply pipe 143 is assembled, and the brown gas nozzle tip 145 is assembled to the end of the brown gas discharge pipe 144 side by side next to the fuel oil injection nozzle 132 of the brown gas mixing burner 150.

The body 141 of the brown gas ejector 140 forms a hollow shaft in a horizontal direction, forms a compressed air nozzle assembly hole 141a having a thin screw on one side of the hollow shaft, and forms a brown gas discharge hole 141b on the opposite side. And forming a brown gas inlet hole (141c) on a vertical axis forming a 90 ° direction with the hollow side in the horizontal direction, and a throat of a small hole at a predetermined position between the compressed air nozzle assembly hole (141a) and the outlet hole (141b). 141d) is formed.

The compressed air nozzle 142 forms a hollow shaft in the horizontal direction, forms a compressed air nozzle hole 142a on one side of the hollow shaft, and PT screw 142b for assembling the compressed air supply pipe of the compressed air supply line 110 on the opposite side. ) Is generated. The Brown gas nozzle tip 145 is a PT screw 145b is formed in the Brown gas nozzle hole 145a on the center line and assembled with the Brown gas discharge pipe 144.

Compressed air supply line 110 connected to the compressed air nozzle 142 of the Brown gas ejector 140 is an air compressor for supplying compressed air and a stop valve, No. 1 solenoid valve 111, pressure gauge, regulator Brown gas supply line 120 is connected as assembled and connected to the brown gas supply pipe 143 assembled to the brown gas inlet (141c) is a water energy plant 100 and a water-sealed flashback prevention device for mass production and supply of brown gas Reference numeral 122, a pressure gauge, a stop valve, and a No. 2 solenoid valve 121 are assembled in order.

On the other hand, in the case of an oil burner using diesel fuel oil, the fuel oil supply line 130 is pumped by a gear pump through a strainer in a service tank, and then a pressure gauge, a flow meter, a solenoid valve, and a brown gas horn burner 150 are ordered. As soon as assembled. Therefore, the fuel is supplied to the brown gas horn burner 150 along the fuel oil supply line 130 and injected from the fuel oil injection nozzle 132 of the brown gas horn burner 150 to be ignited to form a flame. The fuel oil injection nozzle 132 is usually provided with one to three, depending on the burner capacity.

As shown in FIGS. 4 and 5, the brown gas horn burner 150 of the present invention is connected to the existing fuel oil supply line 130 and the brown gas supply line 120. The fuel oil injection nozzle 132 is installed side by side. When the fuel oil injection nozzle 132 of the Brown Gas Horn Burner 150 is one, the Brown gas nozzle tip 145 is installed in parallel with the fuel oil injection nozzle 132 and the fuel oil injection nozzles 132 are two. When the fuel oil injection nozzles 132 are installed in the middle between both fuel oil injection nozzles 132 and three fuel oil injection nozzles 132 are installed, the brown gas nozzle tip 145 is installed at the center of the three fuel oil injection nozzles 132. It is.

In the water energy mixed combustion system of the present invention, the No. 1 solenoid valve 111 is installed in the compressed air line 110 connected to the brown gas ejector 140, and the No. 2 solenoid valve 121 is installed in the brown gas supply line. By interlocking with No. 3 solenoid valve 131 already installed in the existing fuel supply line is configured to operate simultaneously. This is to ensure that Brown gas enters when No. 3 solenoid valve 131 is opened and Brown gas is also cut off when No. 3 solenoid valve 131 is closed, thereby ensuring safety so that Brown gas cannot enter the combustion chamber alone.

Accordingly, the water energy mixed combustion system of the present invention uses the brown gas ejector 140 using the compressed air as a motif to push the low pressure brown gas into the central region of the flame in such a way that no backfire occurs, and the brown gas ejector ( The compressed air nozzle 142 assembled in the compressed air nozzle assembly hole 141a formed in the body 141 of the 140, and the stop valve, the No. 1 solenoid valve 111, and the regulator in the compressed air nozzle 142 in order. Water energy plant that mass-produces and supplies brown gas connected to the compressed air supply line 110 and the brown gas supply pipe 143 assembled to the brown gas inlet 141c of the body 141. Brown formed on the brown gas supply line 120 and the body 141 and 100 and the water-proof flashback arrestor 122 and the pressure gauge, stop valve, No. 2 solenoid valve 121 is assembled in order The brown gas discharge pipe 144 assembled to the gas discharge hole 141b, the brown gas nozzle tip 145 assembled to the end of the brown gas discharge pipe 144, and the brown gas nozzle tip 145 are fuel oil injection nozzles. Brown gas horn burner 150 installed next to each other, a fuel oil supply line 130 connected to the brown gas horn burner 150, and a No. 3 solenoid of the fuel oil supply line 130. It further comprises a valve 131, No. 1, 2, 3 solenoid valves 111, 121 installed in the compressed air supply line 110, Brown gas supply line 120 and fuel oil supply line 130 , 131) to interlock and operate simultaneously.

100: water energy plant 110: compressed air supply line
111: No. 1 solenoid valve 120: Brown gas supply line
121: No. 2 solenoid valve 122: water-sealed flashback arrestor
130: fuel oil supply line 131: No. 3 solenoid valve
132: fuel oil injection nozzle 140: Brown gas ejector
141: body 142: compressed air nozzle
143: Brown gas supply pipe 144: Brown gas discharge pipe
145: Brown gas nozzle tip 150: Brown gas Horn burner

Claims (2)

In a mixed combustion system for mixing and burning fossil fuel and brown gas,
Brown gas ejector 140 using compressed air as a motif;
Compressed air nozzle 142 assembled in the compressed air nozzle assembly hole 141a formed in the body 141 of the Brown gas ejector 140 and No. 1 solenoid valve 111 connected to the compressed air nozzle 142. Compressed air supply line 110 is installed;
A brown gas discharge pipe 144 assembled to the brown gas discharge hole 141b formed in the body 141 and a brown gas nozzle tip 145 assembled to the end of the brown gas discharge pipe 144;
A brown gas supply line 120 connected to a brown gas supply pipe 143 assembled to the brown gas inlet hole 141c formed in the body 141 and provided with a No. 2 solenoid valve 121;
A water energy plant (100) having a water-sealed flashback arrestor (122) installed to supply brown gas to the brown gas supply line (120);
Brown gas mixing burner 150 having the Brown gas nozzle tip 145 assembled at the end of the Brown gas discharge pipe 144 installed side by side next to the fuel oil injection nozzle 132;
A fuel oil supply line 130 configured to further include a No. 3 solenoid valve 131 in the fuel oil supply line introduced into the brown gas mixing burner 150;
By interlocking the No. 1, 2, 3 solenoid valves (111, 121, 131) installed in the compressed air supply line 110, Brown gas supply line 120 and fuel oil supply line 130 to operate simultaneously Water energy mixing, characterized in that the brown gas supplied from the water energy plant 100 is injected directly into the central zone of the fuel oil flame in the molecular state of H2 and O2 without the fire on the brown gas nozzle tip 145 Combustion system.
According to claim 1, Brown gas ejector 140 is formed in the compressed air nozzle assembly hole (141a) on one side of the hollow shaft formed in the horizontal direction and the brown gas discharge hole (141b) on the opposite side of the compressed air nozzle assembly hole (141a) And forming a brown gas inlet hole 141c on a vertical axis forming a 90 ° direction with the hollow side in the horizontal direction to form a small diameter at a predetermined position between the compressed air nozzle assembly hole 141a and the brown gas outlet hole 141b. The compressed air nozzle 142 assembled to the body 141 having the throat 141d and the compressed air nozzle assembly 141a of the body 141 and the brown gas discharge hole 141b of the body 141. Water gas mixed combustion system, characterized in that the brown gas nozzle pipe 144 and PT screw (142b) formed on the end of the brown gas discharge pipe 144 and the assembled Brown gas discharge pipe (144).

Images