KR20100006445A - Combustor for the higher calorific valued solid fuel derived from dried sludge, mobile grate used thereof - Google Patents

Abstract

PURPOSE: A combustor for the higher calorific valued solid fuel derived from the dried sludge and a movable grate used for the same are provided to easily discharge the ash by increasing the pitch of a transfer blade in the moving section of the ash. CONSTITUTION: A combustor for the higher calorific valued solid fuel derived from the dried sludge comprises a solid fuel storage hopper(10) a movable grate(20), a combustion unit(30), an ash collection unit(40), a second combustion chamber(50), and a purifying unit(60). The movable grate moves the solid fuel by the rotation of a spiral transfer blade(22), and supplies the combustion air to the solid fuel. The combustion unit burns the solid fuel moved by the movable grate. The ash completely burned is flowed into the ash collection unit. The second combustion chamber burns the incombustible gas with the vortex. The purifying unit purifies the combustion gas.

Description

High-calorie dry sludge solid fuel combustor and movable grate used for it {Combustor for The Higher Calorific Valued Solid Fuel Derived from Dried Sludge, Mobile Grate used approximately}

The present invention relates to a high-calorie dry sludge solid fuel combustion device and a movable grate used therein, wherein a high-calorie dry sludge solid which transfers solid fuel by rotation and uses a movable grate to enable combustion to completely burn solid fuel. A fuel combustion device and a movable grate used therefor.

In general, organic sludge has a water content of about 70 to 80%, and in order to form a solid fuel using the same, it is essentially dehydrated and dried. Sludge drying methods include convection type drying method in which hot gas and sludge are directly contacted to dry, and indirect conductive heat transfer drying method which moves hot steam or heat medium inside the rotating screw and injects sludge to dry the screw. Due to the sludge caking and fine particles, the drying efficiency is low and the drying time is long. The dry sludge has a water content of 20 to 40%, a drying time of 40 to 120 minutes, and a calorific value of 2,500 to 4,000 kcal / kg, making it difficult to use as a solid fuel.

However, glycerol and residues, which are by-products of various industrial waste oils and biodiesel, animal and vegetable fats and oils and vegetable oils contained in food waste desorbents, emit air pollutants during the water environment and thermal treatment. In case of drying organic sludge by using frying oil, it is possible to produce high quality solid fuel with water content of 10% of sludge and calorific value of 5,000 ~ 6,500 kcal / kg after frying oil temperature of 120 ~ 160 ℃ and drying time of about 10 minutes. Can be. However, since large amounts of sewage and wastewater sludge produced in Korea contain a large amount of minerals, the ash content is high after drying, which is about 15 to 30% .If the ash is not removed quickly from the combustion device, the incomplete combustion of solid fuel And there was a problem that the dust generation increases.

As a result, as of 2006, we used about 2.72 million tonnes of sewage sludge and about 20,000 tonnes of biodiesel oil by-products such as glycerol and wastes, which contribute to the increase of national resource utilization. There is a need to develop a solid fuel combustion device using organic sludge that can reduce the source of sewage caused by endless discharge as a treatment and biodiesel waste and improve fuel economy by providing alternative fuel.

The present invention has been made to solve the above problems, an object of the present invention is to enable the complete combustion of the solid fuel by using a movable grate to transfer and burn the solid fuel by the rotation and discharge of ash quickly It is to provide a high-calorie dry sludge solid fuel combustion device made and a movable grate used therein.

High calorie dry sludge solid fuel combustion apparatus of the present invention, the storage hopper for storing the solid fuel; A movable grate having a spiral feed vane formed on an outer circumferential surface to transfer the solid fuel supplied from the storage hopper by rotation, and to supply combustion air to the solid fuel; A combustion unit provided on an upper side of the movable grate to combust the solid fuel transported by the movable grate; A ash collecting part formed at the end of the movable grate to receive the completely burned ash; A second combustion chamber in which a predetermined space is provided on an upper portion of the movable grating to burn incombustible gas by vortex; And purifying means provided at one side of the second combustion chamber to purify combustion gas. Characterized in that it comprises a.

The movable grate is characterized in that a plurality of communication ports are formed on the outer surface of the hollow hollow tube.

The movable grate is characterized in that the pitch of the transfer blade (Pitch) is increased toward the ash collecting portion in the storage hopper.

The movable grate is characterized in that a plurality of communication ports are further formed on the transfer wing.

A partition wall is formed above the movable grate to promote turbulence of combustion gas.

The lower side of the movable grate is formed with a fixed grate is in contact with the solid fuel is transported in accordance with the rotation of the movable grate, the fixed grate is characterized in that the communication port is supplied with combustion air is formed.

In the movable grate for a combustion apparatus of a high calorie dry sludge solid fuel of the present invention, the movable grate is a hollow tube having a hollow inside, and a plurality of communication ports are provided to which combustion air is supplied to the outer surface, and a spiral feed wing is formed on the outer peripheral surface. It is characterized in that the transfer of the solid fuel by the rotation and enable the combustion.

The movable grate is characterized in that the pitch of the transfer blade (Pitch) is increased from one end to the other end.

The movable grate is characterized in that a plurality of communication port is further formed on the transfer wing.

With the above configuration, the pitch of the transfer blades formed on the outer circumferential surface of the movable grate is different so that the pitch of the transfer blades is made smaller in the combustion section of the solid fuel to enable the complete combustion of the solid fuel, and the combustion section of the burned material In the effect of increasing the pitch of the feed blade to enable the rapid discharge of the ash.

In addition, there is an effect of forming a communication port through which the combustion air is supplied to the movable grate and the fixed grate so that the solid fuel transported by the rotation of the movable grate is in uniform contact with the combustion air to enable complete combustion of the solid fuel.

Hereinafter, a high calorific value dry sludge solid fuel combustion device and a movable grate used therein will be described in detail with reference to the accompanying drawings.

1 is a conceptual view showing a combustion apparatus of the present invention, Figure 2 is a front view showing a movable grate of the present invention, Figure 3 is a cross-sectional view showing a movable grate of the present invention, Figure 4 is a movable grate and a fixed grate of the present invention 5 is a sectional view of an embodiment of the present invention, and FIG.

Combustion apparatus of the present invention, as shown in Figure 1, the storage hopper 10 for storing the solid fuel; A helical transfer blade 22 formed on an outer circumferential surface to transfer the solid fuel supplied from the storage hopper 10 by rotation, and to supply combustion air to the solid fuel; A combustion unit (30) provided above the movable grate (20) to combust the solid fuel transported by the movable grate (20); A ash collecting part 40 formed at an end of the movable grate 20 to which ash completely burned is introduced; A second combustion chamber 50 in which a predetermined space is provided above the movable grating 20 so that the non-combustible gas is burned by the vortex; And purifying means (60) provided at one side of the second combustion chamber (50) to purify combustion gas. It is made, including.

The storage hopper 10 has a space formed therein to store high calorie dry sludge solid fuel. Solid fuel as described above, when the sludge with an initial moisture content of about 80% is dried by using various sludge drying methods, the inorganic components are present and the inorganic components are about 3 to 30% and the water content of the sludge is 10% according to the type of sludge. It is about. When organic sludge is used for frying evaporation drying technology using various oils, the heat generated in the organic sludge and the oil for frying are replaced with each other, and the calorific value is greatly improved. Thus, a solid fuel having a calorific value of 5,000 to 6,500 kcal / kg is obtained. . A supply port 12 through which solid fuel is supplied into the combustion device is formed below the storage hopper 10.

From the supply port 10 side of the storage hopper 10 to the ash collecting part 40, as shown in Figures 2 and 3, the movable grate 20 is provided. One side of the movable grate 20 is provided with a drive motor 26 for rotating the movable grate 20. The movable grate 20 is a hollow hollow tube having a predetermined length is formed with a spiral transfer blade 22 extending from one side to the other side along the outer circumferential surface. The transfer blade 20 is formed to have a larger pitch (L ₁ <L ₂ ) from the storage hopper 10 side toward the ash collecting part 40 side. Therefore, when the movable grate 20 is rotated at a constant speed by the drive motor 26, the solid fuel on the side of the storage hopper 10 having a small pitch has a short transfer distance per unit rotation of the movable grate 20. The time to be transported to the collecting unit 40 side is increased more, and the ash which has been burned on the ash collecting unit 40 having a large pitch has a large transfer distance per unit rotation of the movable grating 20, and the ash collecting unit 40 is larger. Quickly conveyed to the side has the effect of being discharged to the ash collecting part (40). A plurality of communication ports 24 are formed on the outer circumferential surface of the movable grate 20 so that combustion air is supplied to the solid fuel outside the movable grate 20 through a hollow tube of the movable grate 20. In addition, if the communication blade (24) is further formed to supply the combustion air to the transfer blade (22), it is possible to smoothly supply the combustion air to the solid fuel conveyed by the movable grate 20, thereby increasing the combustion efficiency. have.

The lower side of the movable grate 20 is formed with a fixed grate 70 on which the solid fuel transported by the movable grate 20 is seated. Since the solid fuel to be transported is in contact with the fixed grate 70 and friction occurs, the solid fuel is more smoothly transferred along the transfer blade 22 of the movable grate 20. In addition, the formation of a plurality of communication holes 72 through which the combustion air is supplied to the fixed grate 70 can supply a larger amount of combustion air to the solid fuel, thereby improving the combustion efficiency.

4 illustrates an arrangement according to the number of formation of the movable grating 20 as an example of the movable grate 20 and the fixed grate 70 as described above. In the case where only one movable grate 20 is provided, the fixed grate 70 is provided on the lower side and both sides of the movable grate 20 to facilitate the transfer of the solid fuel by friction, and the movable grate 20 and the fixed grate ( Through the communication ports 24, 72 of 70) there is an effect that more combustion air is supplied to the solid fuel. When two or more movable gratings are provided as shown in FIG. 4 (b), the fixed grating 70 is formed between the two movable gratings 20, and the movable grate 20 is also located outside and below the movable grate 20. Since the fixed grate 70 is formed along the longitudinal direction of), the transfer is smoothed due to the friction between the fixed grate 70 and the solid fuel, and the combustion air is moved from the movable grate 20 and the fixed grate 70. Since it is supplied, there is an effect of improving the combustion rate. In the above embodiment, although two movable grates are provided, it is also possible to form a plurality of movable grates and fixed grates when the size of the solid fuel combustion apparatus is increased.

On the upper side of the movable grate 20 is provided with a combustion unit 30 for burning solid fuel transported by the movable grate 20. The combustion grate 30 is supplied to the combustion unit 30 in a state in which combustion air is supplied to the solid fuel conveyed by the rotation of the movable grate 20 through the communication ports 24 and 72 of the movable grate 20 and the fixed grate 70. The fire is injected toward the solid fuel, and the solid fuel is burned. In the present invention, the combustion unit 30 is illustrated as being located above the movable grate 20, but is not limited thereto, and may be used anywhere to increase the combustion rate of the solid fuel.

The partition wall 52 protrudes from the inner wall surface of the combustion chamber above the movable grate 20. When the solid fuel transported by the movable grate 20 is ignited by the combustion unit 30 and combustion occurs, combustion gas is generated. However, since the generated combustion gas contains incombustible gas, this causes environmental pollution, and energy efficiency is reduced due to incomplete combustion gas. Therefore, due to the partition wall 52 provided above the movable grate 20, the non-combustible gas is moved upwards to meet the partition wall 52, and the partition wall 52 promotes turbulence of the non-combustible gas. Since the non-combustible gas is widely dispersed due to the vortex in the second combustion chamber 50, complete combustion is possible due to the heat of the combustion gas. In addition, if one side of the second combustion chamber 50 is provided with a heat exchange means 54 such as a boiler, it can be used as a heating facility or a power generation facility.

The combustion gas whose temperature is lowered while passing through the heat exchange means 54 of the second combustion chamber 50 passes through the purification means 60. The combustion gas is removed from the purifying means 60 to remove dust and harmful gases into the atmosphere, thereby preventing the environmental pollution.

The ash collecting port 40 is provided at the end of the movable grate 20. The ash is transported by the movable grate 20 to the ash collecting part 40 and the ash remaining after combustion is transferred to the ash collecting part 40 along the movable grate 20 which is continuously rotated by the driving motor 26. If it is collected and collected over a certain amount, it is discharged to the outside for reprocessing or reclamation.

The operation of the combustion apparatus having the above configuration will be described with reference to FIG. 5. Solid fuel produced using a frying evaporation drying technique having a calorific value 5,000 to 6,500 kcal / kg is stored in the storage hopper 10. The stored solid fuel is rotated by the movable grate 20 according to the driving of the driving motor 26. Therefore, the solid fuel is supplied to the movable grate 20 by the supply port 12 below the storage hopper 10. It is done. As the solid fuel is supplied to the movable grate 20, combustion air is supplied to the solid fuel through the communication ports 24 and 72 of the movable grate 20 and the fixed grate 70. As the solid fuel is mixed with the combustion air, the combustion conditions are sufficiently satisfied, and the solid fuel is ignited by injecting fire from the combustion unit 30 above the movable grate 20 to the solid fuel side. First, it starts to burn from the solid fuel of the outer side in direct contact with the flames of the combustion unit 30, and the solid fuel transferred to the ash collection unit 40 by the rotation of the movable grate 20 is continuously mixed with the inner side. All of the solid fuel is burned evenly to generate combustion gas. The generated combustion gas is raised to the upper side of the second combustion chamber 50 due to the high temperature, and the rising combustion gas is in contact with the partition wall 52 to generate a strong vortex. Therefore, the non-combustible gas in the combustion gas is widely dispersed and completely combusted due to the heat of the combustion gas, and the enormous heat retained by the combustion gas is used as heat or power by heat exchange with the heat exchange means 54 on one side of the second combustion chamber 50. . Since the solid fuel conveyed along the movable grate 20 has a smaller pitch of the transfer blade 22 on the storage hopper 10 side, the transfer distance of the solid fuel per unit rotation of the movable grate 20 is reduced. It is short and transported slowly and all solid fuel is burned in total contact with the flames of the combustion unit 30. The ash remaining after combustion is transferred to the ash collecting part 40 side according to the rotation of the movable grating 20, wherein the pitch of the transfer blade 22 of the movable grating 20 on the ash collecting part 40 side is more Since it is largely formed, the transfer distance of the ash per unit rotation of the movable grate 20 is increased, and the ash remaining after combustion is quickly discharged to the ash collecting part 40. After the solid fuel is burned, the remaining ash is discharged to the ash collecting part 40, and the combustion gas generated as the solid fuel is burned passes through the heat exchange means 54 on one side of the second combustion chamber 50, and is used for heating or power generation. The heat of the combustion gas is passed through the purifying means 60 and harmful gas dust is removed to be released into the atmosphere.

The movable grate 20 provided in the combustion device may be installed in plural numbers according to the size of the combustion device to increase the combustion efficiency. In addition, according to the type of sludge from which the solid fuel is manufactured, the sludge having a mineral content of about 10% is significantly increased after drying, so it is difficult to completely burn in a domestic waste incinerator such as a conventional coal combustion device. However, the combustion apparatus of the present invention forms a narrow pitch in the combustion section of the solid fuel as the pitch of the transfer blades 22 of the movable grate 20 is different, enabling complete combustion, and in the transport section of the burned ash remaining The pitch of the transfer blade 22 is formed to be large, there is an effect that can quickly discharge the burned ash.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not satisfy all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be variations and variations.

1 is a conceptual diagram showing a combustion device of the present invention.

Figure 2 is a front view showing a movable grate of the present invention.

3 is a cross-sectional view showing a movable grating of the present invention.

Figure 4 is a cross-sectional view of an embodiment of a movable grate and a fixed grate of the present invention.

5 is a conceptual view of an operation of the combustion apparatus of the present invention.

** Description of the symbols for the main parts of the drawings **

10: storage hopper 12: supply port

20: movable grate 22: feed wing

24: communication port 26: drive motor

30: combustion part 40: ash collection part

50: second combustion chamber 52: partition wall

60: purification means 70: fixed grate

72: communication port

Claims (9)

A storage hopper 10 in which solid fuel is stored; A helical transfer blade 22 formed on an outer circumferential surface to transfer the solid fuel supplied from the storage hopper 10 by rotation, and to supply combustion air to the solid fuel; A combustion unit (30) provided above the movable grate (20) to combust the solid fuel transported by the movable grate (20); A ash collecting part 40 formed at an end of the movable grate 20 to which ash completely burned is introduced; A second combustion chamber 50 in which a predetermined space is provided above the movable grating 20 so that the non-combustible gas is burned by the vortex; And Purification means (60) provided on one side of the second combustion chamber (50) to purify the combustion gas; High calorie dry sludge solid fuel combustion apparatus comprising a. The method of claim 1, The movable grate (20) is a high-calorie dry sludge solid fuel combustion apparatus, characterized in that a plurality of communication holes (24) formed on the outer surface of the hollow hollow tube. The method of claim 2, The movable grate 20 is a high-calorie dry sludge solid fuel combustion apparatus, characterized in that the pitch of the transfer blades 22 is increased toward the ash collecting part 40 side from the storage hopper (10). The method of claim 3, wherein The movable grate 20 is a high-calorie dry sludge solid fuel combustion device, characterized in that a plurality of communication holes 24 are further formed on the transfer blade (22). The method of claim 4, wherein High calorie dry sludge solid fuel combustion apparatus, characterized in that the partition wall 54 for promoting the turbulence of the combustion gas is formed on the upper side of the movable grate (20). The method of claim 5, wherein The lower side of the movable grate 20 is formed with a fixed grate 70 is contacted and transported by the solid fuel in accordance with the rotation of the movable grate 20, the communication grate to which the combustion air is supplied to the fixed grate 70 High calorie dry sludge solid fuel combustion apparatus, characterized in that the 72 is formed. In the movable grate for the combustion device of high-calorie dry sludge solid fuel, The movable grate 20 is a hollow hollow tube is formed with a plurality of communication holes 24 through which the combustion air is supplied to the outer surface, a spiral feed blade 22 is formed on the outer peripheral surface to transfer the solid fuel by rotation A movable grate for a high calorific value dry sludge solid fuel combustor, characterized in that for enabling combustion. The method of claim 7, wherein The movable grate 20 is a movable grate for a high-calorie dry sludge solid fuel combustion device, characterized in that the pitch of the transfer blades 22 is increased from one end to the other end. The method of claim 8, The movable grate 20 is a movable grate for a high-calorie dry sludge solid fuel combustion device, characterized in that a plurality of communication holes 24 are further formed on the transfer blade (22).

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