JP2016099089A - Method for producing raw material for iron production and method for treating ferrous oil-containing sludge - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for treating oil-containing sludge that can treat sludge irrespective of the property thereof by simple treatment and reduce an amount of expensive heavy fuel oil to be used for a roasting furnace.SOLUTION: A method for producing a raw material for iron production includes: roasting ferrous oil-containing sludge containing iron and oil contents; burning the oil contents to remove the oil contents; and using the sludge where the oil contents are removed and iron is contained for a raw material for iron production. The method for producing a raw material for iron production uses waste plastic as fuel when roasting the ferrous oil-containing sludge.SELECTED DRAWING: Figure 1

Description

  The present invention roasts an iron-based oil-containing sludge containing iron and oil, burns and removes the oil, and converts the sludge containing iron from which the oil has been removed into an iron-making raw material, and a process for the iron-based oil-containing sludge Regarding the method.

  At steelworks, iron ore is reduced with coke to form hot metal, and the hot metal is refined to produce various steel products as steel. However, when steel products are manufactured, iron containing oil is mainly used. Various types of sludge and dust are generated. For example, in the rolling process, various rolling lubricating oils, hydraulic oils, greases, etc. are used to reduce the rolling load by reducing the friction coefficient, to ensure the lubricity of the rolling mill, and to prevent wear and the like. Is used, and a large amount of iron-based oil-containing sludge containing these oils and iron (hereinafter also simply referred to as “oil-containing sludge”) is generated.

  The concentration of the oil contained in the oil-containing sludge varies depending on the generation process, the type of rolling mill, and the like, but in some cases, the oil content is higher than 10 mass%. Conventionally, it has been desired to reuse oil-containing sludge as a sintering raw material or a converter steelmaking raw material. However, when used as a sintering raw material, the oil-containing sludge is granulated as it is as a part of the granulating raw material and charged into a sintering machine as a pseudo-particle sintering raw material. If the oil content is vaporized, it may cause an accident such as clogging or fire in an electrostatic precipitator or bag filter attached to the sintering machine.

  When oil-impregnated sludge is used as a converter steelmaking raw material, the particle size is fine and the amount of dust scattering increases. Therefore, briquette or pelletization is required separately, increasing costs and containing oil. There is a risk that smoke may be generated when the furnace is charged, or that a steam explosion may occur during pouring.

  As described above, when oil-containing sludge is reused, there is a problem of adversely affecting the operation. For this reason, oil-containing sludge is difficult to reuse as an iron-making raw material as it is, and has been conventionally used as landfill for industrial waste.

  However, oil-containing sludge contains a large amount of iron. Therefore, it has been studied to remove oil (dehydration / separation, roasting, etc.) and reuse it as an iron source.

  For example, Patent Document 1 discloses a method for treating oil-containing sludge using a cocurrent rotary kiln-type combustion furnace, in which oil is burned at a point where oil in the oil-containing sludge evaporates in the furnace of the combustion furnace. Forcibly blowing air necessary for air or oxygen-enriched, controlling the oxygen concentration in the exhaust gas on the outlet side of the combustion furnace to 0.1 to 5% by volume, and further in the furnace at the inlet of the oil-containing sludge An oil-containing sludge treatment technique is disclosed in which an oil component is burned and removed under a condition where the inner wall surface temperature is 400 ° C. or higher, and the sludge from which the oil component has been removed is cooled under non-oxidizing conditions.

  Patent Document 2 proposes a method in which a high-pressure fluid is sprayed on oil-containing sludge to disperse the oil-containing sludge in the form of 1 to 10 mm, and the oil-containing sludge is incinerated in a high-temperature rotary kiln.

Japanese Patent Laid-Open No. 10-169957 Japanese Patent Laid-Open No. 8-121736

  However, in the technique disclosed in Patent Document 1, since the moisture concentration, oil concentration, and properties (boiling point, etc.) of the oil contained in the sludge are different, the blowing position of air enriched with air or oxygen is changed to the property of oil. Accordingly, there is a problem that the process becomes complicated.

  In the technique disclosed in Patent Document 2, a facility for spraying a high-pressure fluid is necessary to disperse sludge to 1 to 10 mm, and when the sludge is in the form of clay with little water content, it is necessary to disperse the sludge. There is a problem that it is difficult.

  Further, Patent Documents 1 and 2 have the following problems.

First, the oil removal process when the oil in the oil-containing sludge is removed by roasting will be described. The oil-containing sludge supplied to the roasting furnace is heated by combustion of fuel (generally heavy oil), and the oil content volatilizes from the sludge when it reaches a temperature equal to or higher than the boiling point of the oil. Volatilized oil is burned by excess air in the space inside the roasting furnace and becomes CO ₂ or H ₂ O.

  Inside the roasting furnace is a fuel combustion gas and excess air atmosphere, and depending on the roasting furnace conditions, the residence time of the fuel combustion gas and excess air atmosphere in the roasting furnace is several tens of seconds. It is necessary to burn the oil content of the oil-containing sludge within this tens of seconds, but this oil has various properties (rolling lubricating oil, hydraulic oil, grease, etc.), and high boiling point oil is also present. Some will not burn completely in time. In addition, oil-impregnated sludge generated at steelworks also has a high oil concentration. Therefore, there is a method to increase the temperature of the roasting furnace. However, when the temperature is increased, fuel (heavy oil, recycled oil, secondary oil) There is also a problem that raw gas (hereinafter referred to as heavy oil) increases.

  The present invention has been made for such problems, and can be processed with simple processing regardless of the properties of the iron-based oil-containing sludge, and the amount of heavy oil used in the roasting furnace can be reduced. It is an object of the present invention to provide a method for treating oil-containing sludge that can be reduced.

In order to achieve the above object, the present invention has the following features.
[1] An iron-based oil-containing sludge containing iron and oil is roasted, the oil is combusted and removed, and the iron-containing oil-containing sludge is roasted in a manufacturing method of an iron-making raw material that converts the sludge containing iron from which oil has been removed into an iron-making raw material. A method for producing steelmaking raw materials that uses waste plastics as fuel when firing.
[2] The method for producing a steelmaking raw material according to [1], wherein the waste plastic is granulated and used as a fuel for a roasting furnace.
[3] The method for producing an iron-making raw material according to [1], wherein waste plastic is crushed, mixed with heavy oil, and used as a slurry in a fuel for a roasting furnace.
[4] The method for producing an iron-making raw material according to [1], wherein waste plastic is crushed, heated and mixed with heavy oil, and used as a liquid in a fuel for a roasting furnace.
[5] The method for producing a steelmaking raw material according to [2], wherein the waste plastic granulated material is air-transported and used as fuel for a roasting furnace.
[6] In an iron-based oil-containing sludge treatment method in which iron-based oil-containing sludge containing iron and oil is roasted, the oil is burned and removed, and the sludge containing iron from which oil has been removed is used as an iron-making raw material. A method for treating ferrous oil-containing sludge using waste plastic as fuel when roasting wood.

  According to the present invention, it is possible to perform processing with simple processing regardless of the properties of the iron-based oil-containing sludge, and to reduce the amount of heavy oil used in the roasting furnace.

It is a figure which shows the processing equipment used for the processing method of the iron-type oil-containing sludge which concerns on Embodiment 1 of this invention. It is a flowchart which shows the processing method of the iron-type oil-containing sludge which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the granulator of the waste plastic used for the iron-type oil-containing sludge of this invention. It is a figure which shows the processing equipment used for the processing method of the iron-type oil-containing sludge which concerns on Embodiment 2 of this invention. It is a flowchart which shows the processing method of the iron-type oil-containing sludge which concerns on Embodiment 2 of this invention. It is a flowchart which shows the processing method of the iron-type oil-containing sludge which concerns on Embodiment 3 of this invention.

  As a result of intensive studies on the method for solving the above problems, the inventors have supplied waste plastic as fuel together with heavy oil and the like in order to reduce expensive fuel (heavy oil, etc.). We have come up with a method to efficiently burn oil.

  Waste plastic refers to plastic products that are discharged as garbage from ordinary households, scraps and defective products (industrial waste) generated during the manufacture and processing of plastics at factories, etc., and foreign materials other than plastic (metal, paper, It includes plastics with other inorganic and organic substances) attached or mixed. Since such foreign matters do not dissolve in heavy oil, it is necessary to remove them in advance by wind sorting, magnetic sorting or the like.

  The plastic is a plastic mainly composed of C, H, and O such as polypropylene, polyethylene, polystyrene, polyethylene terephthalate, vinyl chloride, polyvinyl alcohol, and celluloid. When vinyl chloride is mixed, chlorine is also contained.

  The present inventors have further studied a method for supplying waste plastic, and have come up with a method for treating oil-containing sludge according to the following first to third embodiments.

  FIG. 1 is a diagram showing an oil-containing sludge treatment facility used in the method for treating oil-containing sludge according to Embodiment 1 of the present invention.

  The first embodiment is characterized in that waste plastic is granulated by a granulator (not shown) and supplied to the roasting furnace 4.

  The oil-containing sludge is introduced from the hopper 1 and supplied to the roasting furnace 4 via the oil-containing sludge supply device 2. Combustion air and heavy oil are mixed and supplied to the roasting furnace 4. Heavy oil is supplied by the heavy oil supply device 3. Further, waste plastic is supplied to the roasting furnace 4. In Embodiment 1, the waste plastic is granulated and supplied to the roasting furnace 4 as a plastic molding 21 (described later). In the roasting furnace 4, the oil-containing sludge and the plastic molding 21 are burned while rolling, and move at the bottom of the roasting furnace 4.

  From the lower side of the hood 5 provided on the exit side of the roasting furnace 4, sludge from which the oil component after roasting has been removed is discharged via the conveyor 12. High temperature exhaust gas is discharged from above the hood 5. The high temperature exhaust gas is sent to the exhaust gas treatment device 7 through the exhaust gas pipe 6. The hot exhaust gas is cooled by cooling air before being sent to the exhaust gas treatment device 7.

  The exhaust gas treatment device 7 includes a cyclone dust collector 8 and an electric dust collector 9. The cyclone dust collector 8 separates dust contained in the high-temperature exhaust gas by the swirling airflow. The electric dust collector 9 separates dust contained in the exhaust gas having a temperature higher than that of electrostatic force. The dust collected by the cyclone dust collector 8 and the electric dust collector 9 is collected by the collection hopper 13.

  The exhaust gas from which the dust has been removed is discharged from the chimney 11 by the blower 10.

  FIG. 2 is a flowchart showing a method for treating oil-containing sludge according to Embodiment 1 of the present invention.

  The oil-containing sludge is supplied to the roasting furnace 4. At the same time, combustion air, heavy oil, and waste plastic are supplied to the roasting furnace 4 as fuel for volatilizing and burning oil in the oil-containing sludge. As a result, the oil-containing sludge is roasted in the roasting furnace 4.

  Waste plastic is crushed to a predetermined particle size, and then foreign matter removal using magnetic separation, wind separation, etc. and washing with water are performed in advance to remove foreign matter other than plastic as much as possible. (Not shown) is granulated in a granular form and supplied to the roasting furnace 4 as a plastic molding 21.

  In the roasting furnace 4, high-temperature combustion gas is generated by combustion of heavy oil and waste plastic, and the oil component contained in the oil-containing sludge is heated and volatilized, and burned by excess oxygen in the furnace.

  Sludge from which oil has been removed is discharged from the kiln outlet of the roasting furnace 4, and high-temperature exhaust gas (combustion gas of fuel such as heavy oil, combustion gas of oil, excess air, unburned oil, dust, etc.) is discharged. The

  The high temperature exhaust gas is supplied to an exhaust gas treatment device 7 such as a cyclone dust collector 8. Since the exhaust gas is hot, cooling air is mixed before it is supplied to the exhaust gas treatment device 7 from the viewpoint of equipment protection. In the exhaust gas treatment device 7, fine dust in the exhaust gas is removed.

  As a method for granulating the waste plastic, a known method may be used. For example, a compression molding type waste plastic granulator shown below may be used. The compression molding type waste plastic granulator is particularly suitable for granulation of film-like waste plastic.

  FIG. 3 is a diagram illustrating an example of a waste plastic granulator used in the method for treating oil-containing sludge according to Embodiment 1 of the present invention.

  This waste plastic granulator (compression molding device) is rotated so that a ring die 17 having a plurality of die holes 16 penetrating the entire periphery and an inner surface of the ring die in contact with the ring die 17. A rolling roller 18 that is freely arranged and a cutter 19 that is arranged outside the ring die 17 are provided.

  The ring die 17 is composed of a ring body having an appropriate width, is rotatably supported by a device main body (not shown), and is rotationally driven by a driving device (not shown). A plurality of die holes 16 are provided in the circumferential direction and the width direction of the ring die 17. These die holes 16 are provided in the radial direction of the ring die 17 so as to penetrate between the inner side (inner peripheral surface) and the outer side (outer peripheral surface) of the ring die 17. The hole diameter (diameter) of the die hole 16 is determined according to the size (diameter) of the plastic molding 21 to be granulated, but is usually about 2 to 15 mm. The length of the die hole 16 (the thickness of the ring die 17) is usually about 30 to 150 mm.

  The cutter 19 is provided so that the cutting edge thereof is in contact with the outer peripheral surface of the ring die 17 or located in the vicinity of the outer peripheral surface, and an appropriate plastic molding 21 is extruded from the die hole 16 to the outside of the ring die 17 in a rod shape. It is cut into length (or scraped off from the outer peripheral surface of the ring die).

  In such a granulator, the ring die 17 is driven to rotate in the direction of the arrow in the figure, and the rolling roller 18 is also rotated in the direction of the arrow in accordance with the rotation. The plastic molding 21 is put into the box. The injected plastic molding 21 is mixed in the ring die 17 and is pressed into the die hole 16 of the ring die 17 while being compressed and crushed by the rolling roller 18 with the inner peripheral surface of the ring die 17.

  The plastic molding 21 pushed into the die hole 16 passes through the die hole 16 and is sequentially pushed out in a state of being molded into a rod shape on the outer surface side of the ring die 17. The plastic molded product 21 is cut into an appropriate length by the cutter 19 to obtain a cylindrical plastic molded product 21. Reference numeral 22 denotes a discharge port for the plastic molding 21.

  At least a part of the plastic molding 21 is mainly melted or melted by frictional heat in the die hole 16 and then solidified to obtain the plastic molding 21.

  The plastic molding 21 (waste plastic) manufactured by the granulator as described above can be used as part of the fuel. Specifically, the plastic molding 21 may be blown into the roasting furnace 4 using a lance or a dedicated burner by a normal air current transportation method. Moreover, you may supply the plastic molding 21 mixed with oil-containing dust.

  Next, the effect of the method for treating oil-containing sludge according to Embodiment 1 of the present invention will be described. The burning rate of the plastic molding 21 (waste plastic) is slower than that of heavy oil or the like. Therefore, in the roasting furnace 4, heavy oil or the like is first burned, and combustion of the plastic molding 21 is started by the combustion heat. Since the plastic molding 21 is solid, it burns while moving together with the oil-containing sludge that moves while rolling in the roasting furnace 4. Since the plastic molding 21 burns while adjoining the oil-containing sludge, the combustion heat of the plastic molding 21 can be directly transmitted to the oil-containing sludge.

  In addition, the plastic molding 21 has a higher heat transfer rate with the oil-containing sludge than heavy oil or the like, and can accelerate the volatilization of volatile components from the oil-containing sludge and accelerate the combustion of the volatile components. Therefore, the oil contained in the oil-containing sludge can be burned efficiently. Thereby, the quantity of expensive heavy oil etc. consumed in the roasting furnace 4 can be reduced. Further, in the present invention, the oil content contained in the oil-containing sludge can be burned efficiently, so that the oil-containing concentration in the recovered sludge can be reduced, and the environmental load of the recovered sludge to be discarded can be reduced. .

  Further, the present invention does not need to set the position for supplying the plastic molding 21 according to the moisture concentration, oil concentration, and properties (boiling point, etc.) of the contained oil, and the processing is simpler than in the past. It is.

  Furthermore, since the combustion heat of the plastic molding 21 can be directly transmitted to the sludge, the present invention can also be applied to a case where the sludge is in the form of clay with a small amount of moisture.

  FIG. 4 is a diagram showing a treatment facility used in the method for treating oil-containing sludge according to Embodiment 2 of the present invention.

  The difference from FIG. 1 is that a crusher 14 and a mixer 15 are provided in addition to the processing facility of FIG. In addition, about the same structure as the processing equipment of FIG. 1, the description is abbreviate | omitted by attaching | subjecting the same code | symbol.

  The feature of the method for treating oil-containing sludge according to Embodiment 2 is that the crushed waste plastic is mixed with heavy oil and supplied in a slurry form to a roasting furnace.

  As shown in FIG. 4, the waste plastic is crushed to a predetermined particle size by a crusher 14 in order to improve mixing with heavy oil. Waste plastic and heavy oil crushed to a predetermined particle size are supplied to the mixer 15 and mixed. The heavy oil mixed with the waste plastic is supplied to the roasting furnace 4 in a slurry state.

  Note that the viscosity of the slurry-like mixture of heavy oil and waste plastic increases. Therefore, it is necessary to reduce the viscosity of the mixture to a viscosity that can be supplied to a pump or the like that supplies the mixture to the roasting furnace 4. Therefore, it is preferable to heat the transportation pipe of the mixture to lower the viscosity of the mixture.

  When the waste plastic is supplied in the form of a slurry, it depends on the pumping capacity to be supplied, but it is preferable that the waste plastic is pulverized to about several mm by the crusher 14. The crusher 14 may be a shearing type crusher, and may be a uniaxial or biaxial type. The mixer 15 is not limited, and a mixer equipped with a normally used stirrer can be used. Any mixing method may be used as long as heavy oil and waste plastic are sufficiently mixed.

  FIG. 5 is a flowchart showing a method for treating an iron-based oil-containing sludge according to Embodiment 2 of the present invention.

  In the second embodiment, waste plastic is not granulated but mixed with heavy oil to form a slurry, which is supplied to the roasting furnace 4. Other processes are substantially the same as those in the first embodiment.

  Next, the effect of the method for treating oil-containing sludge according to Embodiment 2 of the present invention will be described. In the slurry-like mixture of heavy oil and waste plastic, the heavy oil first volatilizes and burns in the roasting furnace 4, and then the waste plastic burns. In the second embodiment, the heat transfer rate as high as that of the waste plastic granulated product of the first embodiment cannot be obtained, but the mixture of heavy oil and waste plastic moves through the roasting furnace 4 together with the oil-containing sludge. Since the combustion heat can be directly transferred, the substantially same effect as the first embodiment can be obtained.

  FIG. 6 is a flowchart showing a method for treating oil-containing sludge according to Embodiment 3 of the present invention. The third embodiment is characterized in that waste plastic is heated and mixed with heavy oil to supply the mixture of waste plastic with heavy oil as a liquid to the roasting furnace 4. In addition, about the installation which implements the processing method of the oil-containing sludge which concerns on Embodiment 3, since the heating function was only added to the mixer 15 of FIG. 4, the description is abbreviate | omitted.

  Since the waste plastic is manufactured from petroleum, the compatibility with heavy oil is high. However, in the third embodiment, the mixer 15 (FIG. 4) is further heated to actively dispose the waste plastic in the heavy oil. To dissolve the waste plastic into a liquid mixture of heavy oil. The heating temperature is preferably not higher than the boiling point of the heavy oil component and not higher than the temperature at which the waste plastic is decomposed. Specifically, it may be 100 ° C. or higher and 250 ° C. or lower. Heating to 250 ° C. or higher is not preferable because the vinyl chloride component contained in the waste plastic is decomposed to generate hydrogen chloride.

  Note that, similarly to Embodiment 2 of the present invention, in order to lower the viscosity of the mixture, it is preferable to heat the transportation pipe of the mixture to lower the viscosity of the mixture.

  An experiment was conducted to prove the effect of the present invention. The roasting furnace used in the experiment is a rotary kiln system, and has an inner diameter of 3.9 m and a length of 16 m. The waste plastic was crushed to 50 mm or less with a coarse crusher, and further crushed to 10 mm with another crusher. The oil-impregnated sludge used is sludge generated at a steel mill, and its composition is shown in Table 1.

  Waste plastics are collected after being collected from ordinary households. The composition of the waste plastic used is shown in Table 2.

  Recycled oil was used as heavy oil. The calorific value of recycled oil is 40.2MJ / kg.

  The experimental results are shown in Table 3.

(Invention Examples 1-3)
Invention Examples 1 to 3 correspond to the first embodiment. In Examples 1 to 3 of the present invention, a plastic granulated product was produced by the waste plastic granulating apparatus shown in FIG. 3 and supplied into the roasting furnace using an air flow transport device to roast the oil-containing sludge.

(Invention Examples 4 to 6)
Invention Examples 4 to 6 correspond to the third embodiment. In Invention Examples 4 to 6, waste plastic crushed to 10 mm or less was heated and mixed with recycled oil at 150 ° C. and supplied as a liquid to the roasting furnace. Other processes are the same as those in the first embodiment.

(Invention Examples 7 to 9)
Invention Examples 7 to 9 correspond to the second embodiment. Invention Examples 7 to 9 were mixed with waste plastic and recycled oil crushed to 10 mm or less at room temperature and supplied to a roasting furnace as a slurry. Other processes are the same as those in the first embodiment.

(Comparative Examples 1 and 2)
In Comparative Examples 1 and 2, waste plastic was not supplied to the roasting furnace. In Comparative Examples 1 and 2, oil-containing sludge was roasted using only regenerated oil as fuel.

  As shown in Table 3, it can be seen that in Examples 1 to 9 of the present invention, the regenerated oil supply rate relative to the oil-containing sludge supply rate is slower than in Comparative Examples 1 and 2.

  In addition, as shown in Table 3, when comparing the present invention example and the comparative example with the same oil-containing sludge supply rate, the present invention reduces the amount of recycled oil used compared to the comparative example by using waste plastic as a fuel. I understand that I can do it. Moreover, it turns out that the oil content density | concentration in collection | recovery sludge can be reduced in Example 1-9 of this invention compared with the comparative examples 1 and 2 which roast oil-containing sludge using only regenerated oil as a fuel.

  Furthermore, it can be seen that in Examples 1 to 9 of the present invention, the oil concentration in the exhaust gas treatment recovered dust and the dust recovered under the chimney can also be reduced.

DESCRIPTION OF SYMBOLS 1 Hopper 2 Oil-impregnated sludge supply device 3 Heavy oil supply device 4 Roasting furnace 5 Hood 6 Exhaust gas pipe 7 Exhaust gas treatment device 8 Cyclone dust collector 9 Electric dust collector 10 Blower 11 Chimney 12 Conveyor 13 Recovery hopper 14 Crusher 15 Mixer 16 Die hole 17 Ring Die 18 Rolling roller 19 Cutter 20 Input port 21 Plastic molding 22 Discharge port

Claims (6)

  When roasting iron-based oil-containing sludge in a method for producing iron-making raw materials, roasting iron-based oil-containing sludge containing iron and oil, burning and removing the oil, and converting the sludge containing iron from which oil has been removed into iron-making raw materials In addition, a method for producing steelmaking raw materials using waste plastic as fuel.   The manufacturing method of the iron-making raw material of Claim 1 which granulates a waste plastic and uses it for the fuel of a roasting furnace.   The manufacturing method of the iron-making raw material of Claim 1 which crushes waste plastic, mixes with heavy oil, and uses it for the fuel of a roasting furnace as a slurry form.   The manufacturing method of the iron-making raw material of Claim 1 which crushes waste plastic, heat-mixes with heavy oil, and uses it as a liquid for the fuel of a roasting furnace.   The method for producing a steelmaking raw material according to claim 2, wherein the waste plastic granulated material is air-transported and used as fuel for a roasting furnace.   Iron-based oil-impregnated sludge containing iron and oil is roasted, and the oil-based oil-containing sludge is roasted in the processing method of iron-based oil-containing sludge that burns and removes the oil and turns the sludge containing iron from which oil has been removed into ironmaking raw materials. A method for treating iron-based oil-containing sludge using waste plastic as a fuel.

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