KR101023993B1 - Vacumm steam boiler using heat from combustion of refuse derived fuel - Google Patents

Abstract

The present invention relates to a vacuum steam boiler device using the heat of combustion of solid fuel products (RDF), such as household waste, waste plastics, and waste tires, and more particularly, comprising a double-cylinder combustor, a purifier connected to the combustor, and a water supply connected to the purifier. The combustor allows the hot water and steam using the combustion heat of the solid fuel product to be separated and discharged to enable the rich use of hot water as well as the heating using the steam, and the purifier and the water supply effectively prevent harmful gases generated from the combustor. By configuring it to be removable,

The combustion heat of solid fuel products allows the use of abundant hot water, as well as high efficiency heating effect through the steam generated by the combustion heat, while harmful gases generated during the combustion process of solid fuel products Since harmful gases and dust are reasonably removed, they do not cause environmental pollution and have a very eco-friendly effect.

Steam, Boiler, Combustor, Purifier, Water Supply, Heating Tube, Solid Fuel Product

Description

Vacuum steam boiler using heat from combustion of solid fuel products {Vacumm steam boiler using heat from combustion of refuse derived fuel}

The present invention relates to a vacuum steam boiler apparatus using the heat of combustion of solid fuel products (RDF), such as household waste, waste plastics, and waste tires, and more particularly, to a waste gas produced by incineration of solid fuel products. By heating the filling water in the heating to be heated by hot water or steam, the toxic gas generated in the combustor is discharged to the outside in a sufficiently filtered state through a purifier, thereby vacuuming the solid fuel product that is embedded or discarded It can be used as a heat source of the device.

According to industrialization and modernization, various kinds and large quantities of wastes are generated, and such wastes are removed through landfilling or incineration.

However, the disposal method such as landfill or incineration has a problem of extremely low economical cost because it requires a large treatment cost and a treatment facility, and the treatment facility also has an unreasonable point to arrange a large facility in a large space.

Such wastes will typically be categorized as household waste, waste plastics or waste tires. These various wastes are collectively referred to as solid fuel products (RDF) in the Enforcement Regulations on the conservation of resources and the promotion of recycling.

The solid fuel product by the above-mentioned household wastes is molded and processed by compression, heating, friction, etc. in order to maintain the consistency of shape and size of the combustible solid wastes which are not crushed, crushed, and cut and molded. The cross-sectional shape of the circular shape is made of 30mm or less in diameter, 100mm or less in length, the cross-sectional shape is constant throughout the length.

In addition, waste plastic solid fuel products are comminuted, pulverized, and cut to form a combustible solid waste that is not formed by molding, by compression, heating, and friction methods to maintain shape and size consistency. It is circular and has a diameter of 50 mm or less and a length of 100 mm or less, but the shape of the cross-sectional area is constant throughout the length.

In addition, the waste tire solid fuel product is processed by the method of sorting, crushing and cutting in order to maintain the consistency of the size, the length of the longest cross-section of the workpiece is made of less than 120mm.

Accordingly, in recent years, the above-mentioned various types of solid fuel products are utilized as fuels. Since the solid fuel products are mostly made of petrochemical products, it is known that high efficiency thermal energy can be produced.

In particular, when the solid fuel product as described above is used as a facility fuel such as a boiler, it is possible to replace conventional kerosene or briquettes, and thus the energy saving effect is very large.

However, since such solid fuel products are mostly composed of petrochemical products, they emit large amounts of harmful gases during incineration. Such harmful gases add more environmental pollution than economic benefits of securing thermal energy. To have.

Accordingly, in order to use the solid fuel products as described above, many purification treatment facilities for harmful gases are required. Therefore, due to the expansion of excessive facilities, they are not applicable to general boiler facilities. Due to the facilities and processing facilities, the economic feasibility is greatly reduced.

The present invention is to solve the problems as described above, consisting of a double-cylinder combustor and a purifier connected to the combustor and a water supply connected to the purifier, the combustor is to separate the hot water and steam using the combustion heat of the solid fuel product By using abundant use of hot water as well as heating using steam, the purifier and the water supply is configured to effectively remove the harmful gas generated in the combustor,

The vacuum steam boiler device using the combustion heat of the solid fuel product which can use abundant hot water and steam while simplifying the configuration of the vacuum steam boiler device using the conventional solid fuel product and effective removal of harmful gas is used. It is an object of the present invention to provide.

The present invention for achieving the object as described above, has a combustor for generating hot water and steam by the heat generated by burning the solid fuel product introduced into the inside, harmful from the solid fuel product inside the combustor Gas is to be purified by a separate purifier, one side of the purifier is configured by forming a water supply for spraying water into the purifier,

The heat of combustion of the solid fuel product generates steam from the heating water charged in the double-cylinder combustor to circulate the steam, and the used water charged in the combustor may be heated by the heat of combustion and used as hot water. It is made to be configured.

According to the present invention, it is possible to use abundant hot water by using the heat of combustion of a solid fuel product, as well as to obtain a high-efficiency heating effect through steam generated by the heat of combustion, while the harmful gas generated in the combustion process of a solid fuel product is simple. Hazardous gases and dust are removed reasonably through the purifier, which does not cause environmental pollution and thus has a very eco-friendly effect.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of a vacuum steam boiler device according to the present invention, Figure 2 is a partial perspective view of the combustor of the vacuum steam boiler device according to the invention, Figure 3 is an enlarged cross-sectional view of the combustor of the vacuum steam boiler device according to the invention, 4 is an enlarged cross-sectional view of a purifier of the vacuum steam boiler device according to the present invention.

As shown in the drawing, the vacuum steam boiler device is composed of a combustor 10, a purifier 30, and a heating water supply 60.

The combustor 10 has the structure of the double cylinder which has the filling space 18 by the inner cylinder 11 and the outer cylinder 12, The perpendicular | vertical air pipe 13 is provided on the outer surface of the inner cylinder 11; ) Is radially in close contact with each other, the spiral circulating pipe 15 is located on the outer surface of the air pipe (13).

In particular, the inner cylinder 11 and the air pipe 13 is communicated with each other by the through-air air 14 can discharge the air into the inner cylinder 11 through the air pipe (13). It has a structure.

The inner end of the combustor 10 is formed with a hot water storage unit 16 in the form of an empty space, and the air supply unit 17 in the form of an empty space is formed at the lower end of the combustor 10. The hot water storage unit 16 is the end of the circulation pipe 15 is introduced into the inside,

The blower 92 is mounted at one side of the air supply unit 17 to supply external air to the inside of the inner cylinder 11 through the air pipe 13 through the operation of the blower 92.

In addition, the flue 19 is formed at the tip of the inner cylinder 11, the flue 19 is drawn to the outside of the combustor 10 via the inside of the hot water storage unit 16, The end of the flue 19 has a structure that is connected to the purifier (30).

In addition, a separate burner 20 is mounted on the inner lower portion of the combustor 10 and the burner 20 is connected to a separate fuel supply 21 to enable continuous heating and ignition. When the solid fuel product is introduced into the inner cylinder 11 through the inlet 22 formed through the upper portion of the), the burner 20 is ignited to burn the solid fuel product.

The purifier 30 has a net body 31 formed therein, and the flue 19 is located below the net body 31, and the first zeolite layer 32 is disposed on the upper surface of the net body 31. ) Is formed, and the bioceramic layer 33 and the second zeolite layer 34 are sequentially formed above the first zeolite layer 32.

In addition, an exhaust pipe 35 communicating with the outside is positioned above the second zeolite layer 34, and a water supply pipe 41 drawn from the separate water supply 40 is positioned at the tip of the purifier 30. Done.

Accordingly, when the water in the water supply 40 is provided to the water supply pipe 41 by the supply pump 42 mounted on the water supply 40, the injection head 43 mounted at the end of the water supply pipe 41. By spraying clean water inside the purifier (30) through.

In particular, both ends of the heating tube 50 are coupled to the outer cylinder 12 of the combustor 10 so as to communicate with each inside, and the heating tube 50 is equipped with a separate heating water supply 60. Therefore, when steam circulates inside the heating tube 50 by heating, the steam is liquefied in the heating water supply 60, the heating water in the liquefied state is supplied to the supply pump 61 It is returned back to the filling space 18 inside the combustor 10.

In addition, the vacuum pump 70 is provided separately so that the vacuum tube 71 is connected to the inner space of the filling space 18 and the heating water supply 60, respectively, when the vacuum pump 70 is operated, the vacuum tube 71 The inside of the filling space (18) and the heating water supply (60) is made in a vacuum state because it sucks the air inside and discharges it to the outside.

In particular, the hot water storage unit 16 formed in the upper portion of the combustor 10 is formed with a hot water discharge pipe 80 is drawn out to be able to abundantly use the hot water in the heated state in the hot water storage unit 16. The water supply pipe 90 formed at the lower side of the combustor 10 is connected to the circulation pipe 15 to continuously supply tap water according to the amount of hot water used.

In addition, the water supply pipe 90 is equipped with an electronic valve 91 to use and discharge the hot water through the hot water discharge pipe 80 to automatically operate the electronic valve 91 to replenish the water from the outside to supply do.

The operation process of the vacuum steam boiler device having such a configuration and the process of heating, hot water and harmful gas will be described sequentially.

First, the operator operates the vacuum pump 70 to remove the air inside the filling space 18 and the heating water supply 60 through the vacuum tube 71 so that these spaces are vacuumed. Here, the vacuum process of the internal space as described above is for the smooth circulation and movement of steam or heating water in accordance with the internal vacuum state.

In this state, the operator inputs various solid fuel products into the inner cylinder 11 through the inlet 22 formed in the upper portion of the combustor 10.

Then, when the burner 20 is ignited in the state in which the inlet 22 is sealed, the solid fuel product is burned to emit high efficiency thermal energy.

This combustion heat is to heat the inner cylinder 11 to heat the water filled in the filling space 18 between the inner cylinder 11 and the outer cylinder 12, the conduction heat at this time is inside the circulation pipe 15 Water will also heat up.

Therefore, the heating water filled in the filling space 18 as described above is to generate steam while being heated to a high temperature, and to discharge steam through one end of the heating tube 50 located at the tip of the filling space 18. .

Therefore, the heating tube 50 may be utilized for indoor heating and heating of a house or various facilities while hot steam is circulated by steam pressure, and the other end of the heating tube 50, that is, of the filling space 18. The heating water supply unit 60 located at the lower end is the steam flowing along the heating pipe 50 as described above is converted into the water of the liquefied state in the heating water supply unit 60 is stored, the heating water supply unit 60 The water in) is supplied to the filling space 18 in the combustor 10 through the supply pump 61 to be circulated by supplying water.

In addition, in the hot water storage unit 16 located above the combustor 10, as the water inside the spiral circulation pipe 15 is heated, the hot water in the circulation pipe 15 is discharged from the hot water storage unit 16. When collected inside, the hot water in the hot water storage unit 16 can be used in abundance through a separate hot water discharge pipe 80 drawn from the hot water storage unit 16, and the circulation pipe 15 is a combustor in a heated state. (10) Since the inner cylinder 11 is formed to be rotated to form a high temperature as the solid fuel product burns inside, the water inside the circulation pipe 15 can be used as hot water within a short time. will be.

In addition, when hot water in the hot water storage unit 16 is used through the hot water discharge pipe 80, hot water is filled in the circulation pipe 15, and a separate water supply pipe 90 is provided at the lower end of the circulation pipe 15. Is equipped with the electronic valve 91 is mounted on the water supply pipe 90, so if the electronic valve 91 is interlocked according to the opening and closing of the hot water discharge pipe 80, the circulation pipe 15 and the hot water storage unit automatically (16) It is to be filled with fresh water inside.

In particular, the burner 20 located inside the combustor 10 is ignited by receiving fuel from a fuel supply 21 on one side, and the fuel supply 21 may use general kerosene or gasoline or the like. As it can be used, the use of waste oil will be an effective facility for waste oil treatment.

In addition, in the case of burning the solid fuel product introduced into the inner cylinder 11 as described above, the more active combustion can be made by injecting air through the air tube 13 to the inner cylinder 11. Since the air pipe 13 is in close contact with the outer surface of the inner cylinder 11, and the air pipe 13 and the inner cylinder 11 are penetrated by a plurality of air holes 14, the combustor By operating the blower 92 provided on the lower side of the (10) is the air flowing from the outside is filled in the interior of the air supply unit 17 to supply air to the plurality of air pipes 13 and such air is air ball Through 14, the inside of the inner cylinder 11 is provided with air.

In addition, the solid fuel product introduced into the inner cylinder 11 as described above is to discharge a large amount of harmful gas while being burned by the flame of the burner 20, the harmful gas of the inner cylinder 11 The flue 19 is moved from the combustor 10 to the purifier 30 through the flue 19 formed in the upper part, and the flue 19 is formed through the interior of the hot water storage unit 16, and thus, harmful gases and exhaust heat. The hot water in the hot water storage unit 16 is heated again by the flue 19 that is heated by the heat 19 to maximize the thermal efficiency.

In addition, the harmful gas discharged to the inside of the purifier 30 through the flue 19 as described above rises from the lower portion of the purifier 30 to the upper side by pressure, and the net body 31 and the first zeolite layer 32 and While passing through the bioceramic layer 33 and the second zeolite layer 34 sequentially, dust or toxic substances are filtered. The water sprayed from the upper side of the purifier 30 is the same as the first zeolite layer ( 32) and the bioceramic layer 33 and the second zeolite layer 34 to continuously wash the dust and toxic substances filtered in the state of the filter and the purification unit, even during continuous operation may cause clogging or deterioration of the filter. It is not.

Especially. The first zeolite layer 32, the bioceramic layer 33, and the second zeolite layer 34 are filled with activated carbon, ceramics, zeolites, and the like, and are carbon monoxide or sulfite in the combustion air passing through them by their adsorption force. Clean air that removes various pollutants by adsorbing toxic gases such as gas, nitric oxide, hydrogen chloride, dust, smoke, heavy metals and various odors, dioxins, environmental hormones and other harmful effects on the human body It is to be discharged through the exhaust pipe (35).

In addition, the water supply 40 is to continuously supply the water in the water supply 40 to the water supply pipe 41 by the supply pump 42, the water supply pipe 41 of the inside of the combustor 10 Since the water is sprayed into the purifier 30 while being widely spread through the spray head 43 mounted at the bottom, the various harmful substances and dusts filtered in the purifier 30 are washed down.

As another embodiment of the present invention, as shown in Figure 5, due to the heat of combustion of the solid fuel product is heated in the filling space 18 to generate steam and the steam is circulated along the heating tube 50, Since the generator 93 is mounted on the heating tube 50, the generator 93 may be rotated by the circulation pressure of steam to generate power from the generator 93. It will also be possible to produce electrical energy for turning on home appliances or lights.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

1 is an overall configuration diagram of a steam boiler device according to the present invention

2 is a partial perspective view of a combustor of a steam boiler device according to the present invention;

3 is an enlarged cross-sectional view of the combustor of the steam boiler device according to the present invention;

4 is an enlarged cross-sectional view of a purifier of the steam boiler device according to the present invention.

5 is another embodiment of a steam boiler apparatus according to the present invention

Explanation of symbols on the main parts of the drawings

10: burner 20: burner

30: purifier 40: water supply

50: heating tube 60: heating water supply

70: vacuum pump 80: hot water discharge pipe

90: water supply pipe

Claims (13)

delete delete delete delete delete It is provided with a combustor 10 to generate hot water and steam by the heat generated by burning the solid fuel product introduced into the inside, and the harmful gas generated from the solid fuel product in the combustor 10 is a separate purifier (30). To be purified by), One side of the purifier 30 is formed by forming a water supply 40 for spraying water into the purifier 30, The heat of combustion of the solid fuel product generates steam from the heating water filled in the double-cylinder combustor 10 so that the steam is circulated, and the used water filled in the combustor 10 is heated by the heat of combustion to provide hot water. In the vacuum steam boiler device using the heat of combustion of a solid fuel product configured to be used in the state of, The combustor 10 is comprised from the inner cylinder 11 and the outer cylinder 12, and arrange | positions the vertical air pipe 13 closely on the outer surface of the inner cylinder 11, The air pipe 13 and the inner cylinder 11 ) Are in communication with each other by the air ball (14), The outer surface of the air pipe 13 is formed a spiral circulation pipe 15, the upper side of the combustor 10 to form a hot water storage unit 16 in communication with the circulation pipe 15, the combustor 10 On the lower side of the air pipe 13 and the air supply unit 17 is formed, The flue 19 drawn out from the inner cylinder 11 is connected to a separate purifier 30, and is formed between the inner cylinder 11 and the outer cylinder 12 on the side of the outer cylinder 12. A heating tube 50 is formed to be connected to the filling space 18, and one side of the hot water storage unit 16 is connected to a hot water discharge tube 80, and one end of the circulation pipe 15 has a water supply pipe 90. Vacuum steam boiler device using the heat of combustion of the solid fuel product, characterized in that by forming a connection. The method of claim 6, Solid fuel characterized in that the air supply unit 17 is connected to the lower end of the air pipe (13) by forcibly forming a blower 92 for forcibly suctioning the air from the outside of the combustor 10 to provide to the air supply unit 17 Vacuum steam boiler device using the combustion heat of the product. The method of claim 6, Flue 19 for discharging the harmful gas generated from the inner cylinder 11 is in communication with each other from the front end of the inner cylinder 11, the flue 19 is combustor ( The heat of combustion of the solid fuel product, characterized in that it is configured to be drawn to the outside of the 10, the heat transmitted from the harmful gas of high temperature to heat the filling water in the hot water storage unit 16 through the flue (19). Used vacuum steam boiler device. The method of claim 6, As the hot water in the hot water storage unit 16 by the hot water discharge pipe 80 is discharged, the water is supplied to the circulation pipe 15 through the automatic opening of the electronic valve 91 of the water supply pipe 90, and the heating pipe is in a heated state. Water supplied through the (15) is a vacuum steam boiler device using the heat of combustion of the solid fuel product, characterized in that configured to be filled into the hot water storage unit 16 in the hot water state. The method of claim 6, A burner 20 is mounted on an inner lower portion of the combustor 10, and the burner 20 is connected to a fuel supply 21 of one side of the combustor 10, and an inlet formed in an upper portion of the combustor 10. 22) A vacuum steam boiler device using the heat of combustion of the solid fuel product, characterized in that the solid fuel product to be filled inside is configured to be heated and burned by the burner (20). The method of claim 6, A vacuum pump 70 is formed at one side of the combustor 10, and the filling space 18 of the combustor 10 is connected to the vacuum pump 70 by a vacuum tube 71, so that the filling space 18 is provided. Vacuum steam boiler device using the heat of combustion of the solid fuel product, characterized in that configured to be in a vacuum state. delete delete

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