JPS6129685A - Method and device for preheating scrap using electric steelmaking furnace exhaust gas - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a method and apparatus for preheating scrap using exhaust gas from an electric steelmaking furnace, and more specifically, ``It is possible to completely deodorize the foul-smelling exhaust gas generated by preheating scrap.'' The present invention relates to a method and apparatus for preheating scrap that can prevent air pollution. By preheating the scrap that is charged into the electric steelmaking furnace using the exhaust gas containing high thermal energy that is generated during the operation of the electric M&H furnace, this method reduces the melting power consumption rate in the electric steelmaking furnace and makes steelmaking possible. It is used in the field to realize time reduction.

[Prior art]

Although the exhaust gas generated during the operation of an electric steelmaking furnace contains a large amount of dust, it retains a large amount of thermal energy. Therefore, by preheating the scrap charged into the electric steelmaking furnace using this exhaust gas, it is possible to save melting power and shorten the steelmaking time. However, scrap often has oil, paint, rubber, plastic, etc. attached to or mixed with it, and while the exhaust gas flows through the preheating basket containing the scrap, heat exchange with the scrap causes the temperature to rise between 100 and 300 degrees. As the temperature decreases to about C.C., it becomes difficult to maintain a temperature of 650 to 700 degrees Celsius that thermally decomposes the above-mentioned organic substances mixed in the scrap, and preheated exhaust gas with a foul odor due to incomplete combustion is discharged.

Therefore, attempts were made to prevent air and environmental pollution by removing bad odors from the preheated exhaust gas.
There is a scrap preheating device 20 as shown in FIG.

In this system, dust-containing high-temperature exhaust gas discharged from an electric steelmaking furnace 2 is used in a combustion tower 3 to combust combustible substances such as CO gas. or 4b, and preheats the scrap to be charged into the electric Nwi furnace 2 using the heat energy possessed by the exhaust gas.Then, the induction fan 21 is used to move the scrap from the circulation duct 22 to the main duct 2 upstream of the combustion tower 3.
The preheated exhaust gas is returned to the gas supply box 24 installed in the combustion tower 3, and mixed with the dust-containing high temperature exhaust gas discharged from the electric & I4 furnace 2 in the combustion tower 3. The idea is to deodorize by burning the same with other substances.

However, as shown in Figure 2, the exhaust gas from electric steelmaking furnaces is characterized by a low temperature inside the furnace during the initial melting after charging scrap, a temperature drop due to the mixing of outside air when stacking scrap, and a temperature drop during melting after stacking. The temperature of the exhaust gas fluctuates greatly in the range of 400 to 1200°C depending on the intermediate temperature, the temperature drop during reconnection, and the high melting temperature after reconnection.

As a result, during periods when the exhaust gas temperature is low, the temperature in the combustion tower 3 decreases to 65%, which can be used for thermal decomposition to deodorize the preheated exhaust gas.
There are cases where the temperature cannot be maintained above 0°C and the emission of bad odors cannot be prevented. In addition, the exhaust gas in the combustion tower 3 is introduced into the scrap preheater 4 again, so much of the exhaust gas circulates between the combustion tower 3 and the scrap preheater 4, reducing the utilization rate of sensible heat of the exhaust gas. decreases significantly. That is,
Since all of the preheated exhaust gas is circulated to the combustion tower for odor removal, the thermal energy of the electric furnace exhaust gas cannot be utilized to its full potential for preheating the scrap, which is a basic problem on an industrial scale. It has become clear that it has some drawbacks.

[Purpose of the invention]

The present invention was made in view of the above-mentioned problems, and its purpose is to make it possible to utilize the sensible heat possessed by electric steel furnace exhaust gas to the maximum extent possible for preheating scrap, and to remove dust and preheat dust-containing high-temperature exhaust gas. By deodorizing the finished exhaust gas,
An object of the present invention is to provide a method and apparatus for preheating scrap using exhaust gas from an electric steelmaking furnace, which can prevent air and environment pollution and make exhaust gas discharged from electric steelmaking equipment pollution-free.

In addition, the bad odor contained in the preheated exhaust gas of scrap is
Previously, it was thought that it could only be removed by burning it. However, according to the research of the present inventors, the extremely unpleasant odor is caused by general odorous substances caused by things other than music, and oil mist that is the evaporation of cutting and lubricating oil contained in powder. Moreover, it was confirmed that they have a synergistic effect that mutually promotes bad odor. Based on this knowledge, in order to deodorize preheated exhaust gas, it is sufficient to remove general odor substances and collect oil mist. The present invention has been completed by taking measures to enable the collection of the following information.

[Structure of the invention]

To explain the features of the present invention, in the invention of the method, preheated exhaust gas with a foul odor whose temperature has been lowered by preheating the scrap is mixed with the exhaust gas that is led out for direct dust removal after combustion, After removing dust from this mixed exhaust gas, the mixed exhaust gas is brought to a predetermined temperature using cooling water adjusted according to fluctuations in gas temperature, the mixed exhaust gas is primarily deodorized using a cleaning liquid, and saturated steam is added to the mixed exhaust gas, and a low-temperature cleaning liquid is supplied. Next, it is deodorized and rapidly cooled, a part of the water vapor is condensed to make it larger, an oil mist is attached, and the water vapor particles are collected by electrostatic action.
The present invention is a method for preheating scrap using electric M&fA furnace exhaust gas, which makes it possible to remove the bad odor and oil mist contained in the preheated scrap exhaust gas.

Further, the invention of the device will be explained based on the drawing shown in FIG. 1.A sub duct 8 introduces exhaust gas into the scrap preheater 4 into the combustion tower 3 interposed in the main duct 6 from which dust-containing high temperature exhaust gas is led out. (a recirculation duct is provided in which the preheated exhaust gas with a foul odor that has passed through the scrap is led out to the main duct 6)
Booster fans 10 are installed at 8a to 8C, and in the main duct 6 downstream from the merging points 6A to 6C with the return ducts,
Sequentially, a dust remover 11, an induction fan 12, an exhaust gas temperature adjustment tower 13 that attempts to equalize the exhaust gas temperature, a hot water cleaning tower 14 that deodorizes the exhaust gas with a cleaning liquid and generates a large amount of water vapor depending on the temperature of the gas, and a cooled Preheating of scrap by electric steelmaking furnace exhaust gas, which is equipped with a cold water cleaning tower 15 that deodorizes the exhaust gas with a cleaning liquid and enlarges the water vapor, and a wet electrostatic precipitator 16 that collects oil mist adhering to the water vapor from the exhaust gas together with the water vapor. This was done as a device.

〔Example〕

The present invention will be described in detail below based on examples thereof.

FIG. 1 is an overall system diagram of a preheating device 1 capable of carrying out the method of preheating scrap using electric steelmaking furnace exhaust gas according to the present invention. After burning the combustible material, all or part of the exhaust gas is introduced into the scrap preheater 4, and the scrap to be charged into the electric steelmaking furnace 2 is preheated in the scrap preheater 4 by the mature energy possessed by the exhaust gas. It is something.

To be more specific, a main duct 6 for discharging electric furnace exhaust gas is connected to a gas discharge port 2a provided on the furnace wall or ceiling of an electric steelmaking furnace 2 for refining scrap, and a gap adjustment ring 7 and A combustion tower 3 is interposed in sequence. A suitable amount of outside air is sucked into the gap adjustment ring 7, and this air is supplied to the combustion tower 3 together with the dust-containing high-temperature exhaust gas discharged from the electric steel making furnace 2.

The combustion tower 3 has a structure that allows mixing of the dust-containing high-temperature exhaust gas and the taken in outside air, combustion of combustible materials by spontaneous ignition based on a decrease in flow velocity, and further removal of coarse dust. In the upper part of such a combustion tower 3, a sub duct 8 is provided to lead out part or all of the exhaust gas after combustion to the scrap preheater 4, so as to bypass the main duct 6 which leads it directly to the dust remover 11. There is. In the sub duct 8, there is a scrap preheater 4 consisting of one or more preheating baskets 4a to 4c arranged in series or in parallel as shown.
They are connected via valves 9a to 9f provided at the front and rear. Note that a booth 10 for introducing exhaust gas into each of the preheating baskets 4a to 4c is interposed in each of the downstream recirculation ducts 1-8a to 8C, and preheated exhaust gas accompanied by bad odor and oil mist is passed through the ducts to the above-mentioned It is designed to be led out to the main duct 6.

Merging section 6 with return flow ducts 8a to 8c in main duct 6
Downstream from A to 6C, there is a dry dust remover 11 such as a bag filter that removes dust from the mixed exhaust gas in which the exhaust gas from the combustion tower 3 and the preheated exhaust gas from the scrap preheater 4 are mixed.
．． An induction fan 12 is installed to introduce the mixed exhaust gas into the dust remover 11 and then lead the exhaust gas to an exhaust gas temperature adjustment tower 13, which will be described next. The main duct 6 downstream of the induction fan 12 includes an exhaust gas temperature adjustment tower 13 for leveling the exhaust gas temperature, and a hot water cleaning tower for deodorizing the exhaust gas and generating a large amount of water vapor using the heat of the gas. 14. A cold water washing tower 15 is installed to deodorize the exhaust gas again with the cooled washing liquid, condense the water vapor, and make it larger, and a wet electrostatic precipitator 16 is installed to collect the oil mist adhering to the water vapor. It is now possible to remove bad odors and oil mist contained in preheated exhaust gas.

The exhaust gas temperature adjustment tower 13 is equipped with a circulation pump 13m that circulates cooling water within the tower. This is to cool the exhaust gas so as to adjust it to a predetermined temperature, for example, 80°C, and to maintain the action in the hot water washing tower 14 at all times. This is done by detecting the gas temperature upstream of the exhaust gas temperature adjustment tower 13 using a temperature sensor (not shown), and in response to the signal, the amount and temperature of the cooling water that is brought into contact with the exhaust gas in the form of a mist or water sprinkler via the water sprinkler 13S is adjusted. It is being adjusted.

The hot water washing tower 14 is installed alone or in several units as necessary, and the washing pump 14m attached thereto cleans the tower.
The structure is such that a neutralizing agent such as acids or alkalis, a solvent having a strong affinity with malodorous components, or a cleaning liquid into which ozone is blown are supplied from the water sprinkler 14s. The cleaning liquid primarily deodorizes the foul odor in the exhaust gas. At that time, the thermal energy possessed by the exhaust gas is given to the cleaning liquid, and the exhaust gas temperature is brought to a temperature of approximately 50"C, for example, at which both the exhaust gas temperature and the cleaning liquid temperature are in equilibrium. The cold water cleaning tower 15 into which such exhaust gas is introduced deodorizes the exhaust gas with a cleaning liquid similar to or similar to the cleaning liquid described above, and condenses the water vapor with oil mist as the core. Furthermore, oil mist is applied.

Therefore, the cold water washing tower 15 is provided with washing pumps 15m and 15n for circulating the washing liquid and a cooling tower 15p for cooling the washing liquid, so that the cooled washing liquid is supplied to the exhaust gas through the water sprinkler 1'5s. It has become. The wet electrostatic precipitator 16 collects oil mist adhering to the water vapor in the introduced exhaust gas from the exhaust gas together with the water vapor, and a pump 16m supplies a cleaning liquid to clean the electrode surface to which water vapor particles including oil mist have adhered. is provided. The device is extremely compact due to the adhesion of steam to the oil mist in the exhaust gas temperature adjustment tower 13, hot water cleaning tower 14, and cold water cleaning tower 15 installed in the preceding stage, and the charging promotion function by increasing the size of the water vapor.

According to the scrap preheating device 1 having such a configuration, the preheated exhaust gas can be deodorized and the oil mist in the exhaust gas can be removed in the following manner.

First, scrap preheated in the scrap preheater 4 is charged into the electric steel making furnace 2, and the scrap is melted. In such refining, as shown in FIG. 2, scraps are sequentially loaded and the melting temperature is raised. Meanwhile, dust-containing high-temperature exhaust gas is led out from the electric steelmaking furnace 2 to the main duct 6, and the combustible substances such as CO gas contained in the combustion tower 3 are completely combusted by the outside air introduced through the gap adjustment ring 7. At the same time, coarse dust is removed. If there is no need to preheat the scrap now, the valves 9a to 9c in the scrap preheater 4 are closed so that all of the exhaust gas is led out to the main duct 6. Exhaust gas from the combustion tower 3 is introduced into the dust remover 11 by an induction fan 12, where a predetermined amount of dust is collected, and then released into the atmosphere from a valve 17 via a diffusion tower (not shown). Electric steel making furnace 2
Since the dust-containing high-temperature exhaust gas discharged from the combustion tower 3 is completely combusted in the combustion tower 3, unlike the preheated exhaust gas after preheating the scrap, there is almost no foul odor or oil mist. It is processed by following the following route.

When the scrap is preheated by the mature energy contained in the exhaust gas during the operation of the electric steelmaking furnace 2, the preheating basket containing the scrap (for example, the reflux duct 4a) 8a
The booster fan 10 interposed therein is driven. As a result, an amount of exhaust gas corresponding to the suction force of the booster fan 10 is led out from the combustion tower 3 to the sub duct 8, and the remaining exhaust gas is led out directly to the dust remover 11 via the main duct 6.

In this way, the exhaust gas extracted for direct dust removal,
Accompanied by a bad odor caused by the temperature being lowered by preheating the scrap.
Preheated exhaust gas of about 100 to 300°C flows to confluence point 6A.
This mixed exhaust gas is removed by a dust remover 11. Since this mixed exhaust gas cannot be released from the stripping tower, valve 17 is closed while valve 18 is opened.
The exhaust gas is introduced into the temperature adjustment tower 13. In this system, even if the temperature of the dust-containing high-temperature exhaust gas fluctuates, as shown in Figure 2, the temperature of the dust-containing high-temperature exhaust gas is lowered to a predetermined temperature, for example, 80°C, by using cooling water whose amount and temperature are adjusted according to the fluctuations in gas temperature. . Therefore, the temperature of the mixed exhaust gas discharged from the hot water washing tower 14 is
It is maintained constant in any process of the operating state of the electric steel making furnace 2. When the mixed exhaust gas is introduced into the hot water cleaning tower 14, it is first deodorized by a cleaning liquid such as a neutralizing agent, and the heat is given to the cleaning liquid, so that the temperature of both is balanced, and the water in the cleaning liquid evaporates to almost Saturated steam at 50°C is generated. When the mixed exhaust gas accompanied by water vapor is introduced into the cold water cleaning tower 15 in this way, the cooled low-temperature cleaning liquid is sprayed together with the cold water appropriately replenished by the cooling tower 15p attached to the kettle. As a result, the mixed exhaust gas is subjected to secondary deodorization and rapidly cooled, and the water vapor becomes supersaturated, and a portion of the water vapor condenses with the oil mist as a core, and the growth of its particles is promoted. At this time, the oil mist in the exhaust gas is further encouraged to adhere to the water vapor. Up to this cold water washing tower 15, malodorous components contained in the preheated exhaust gas are completely removed by a wet method, while preparations are made for removing oil mist.

To explain a little more about oil mist collection, the oil mixed in the scrap becomes mist due to its preheating and floats in the preheated exhaust gas. This oil mist is very fine and cannot be removed by the above-mentioned cleaning solution, and if left as it is, a very large-capacity electrostatic precipitator is required. On the other hand, electric dust collector 16
consists of a discharge electrode and a dust collection electrode, and when a high negative voltage is applied to the discharge electrode and the dust collection electrode is grounded, a strong electric field is formed around the discharge electrode and a corona discharge occurs. This corona discharge generates positive and negative ions very close to the discharge electrode, the positive ions are immediately neutralized by the negative discharge electrode, and the negative ions move in the electric field to the dust collecting electrode.

If there are dust or water vapor particles on the way, they in the exhaust gas will be negatively charged by the moving negative ions,
It is attracted to the dust collecting electrode by electric force and collected. In this case, as can be understood from the following equation, it is known that the larger the dielectric constant and particle diameter of particles, the easier they will move to the dust collection electrode.

Q=K E -Dp2/ 4 ------
---111u =QE/ 3 π・/l ・Dp
-------12 However, Q; the amount of charge received by particles present in the gas flow in the precipitator; dielectric constant Dp of particles; diameter E of particles; strength of electric field U; particles move toward the electrode plate. velocity μ: viscous drag coefficient of gas By the way, the dielectric constant of water particles is 2.93, which is larger than 1.5 for oil mist, and although it is not easy for oil mist to grow, water particles become larger. This is possible due to the cooperative action of the hot water washing tower 14 and the cold water washing tower 15 described above. In addition, oil mist forms the core of the water particles, and other Q oil mist adheres to the water particles, so the oil mist is effectively collected through large water vapor particles that are easily collected by the electrostatic precipitator 16. be done. Of course, the purified exhaust gas is released into the atmosphere from a diffusion tower (not shown), and the oil mist is treated separately.

The above is the combustion tower 3 at the confluence points 6A to 6C of the main duct 6.
The case has been described in which the preheated exhaust gas after preheating the scrap is mixed with the exhaust gas flowing directly from the combustion tower 3 to the dust remover 11. All of the exhaust gas may be allowed to flow through the scrap preheater 4. In this case, there is an advantage that all the thermal energy possessed by the exhaust gas can be used for preheating the scrap, and furthermore, the deodorization of the preheated exhaust gas and the removal of oil mist are carried out in the same way as described above.

Next, an example of implementation results according to the present invention will be introduced.

70 ton furnace, 30 tons of paddy bags, 30 tons of continuous loading, 0 recycling devices
In refining by charging tons of scrap, the electricity consumption per 11,111 tons of electric steelmaking furnace is approximately 415 KW.
It is H. Under these conditions, (1.1 without preheating device, (2) when all of the charged scrap is preheated with the preheating device, and (2) when using the preheating device, the power consumption reduction will be 57KW as shown in the table below) I/) was achieved.

Furthermore, the contents of dust and the like in the exhaust gas at the inlet and outlet of the dust remover 11 and the outlet of the electrostatic precipitator 16 at that time were as follows. Note that the odor concentration in the table means that the odor disappears when diluted by a numerical multiple thereof.

[Effects of the Invention] As can be seen from the detailed description of the embodiments above, the present invention has a primary duct for introducing exhaust gas into a scrap preheater into a combustion tower interposed in a main duct from which dust-containing high-temperature exhaust gas is led out. The preheated exhaust gas with foul odor that has flowed through it is led out to the main duct, which is equipped with a dust remover, an induction fan, an exhaust gas temperature adjustment tower, a hot water washing tower, a cold water washing tower, and an electrostatic precipitator. are arranged so that the exhaust gas sequentially flows through them, so that the foul odor and oil mist of the preheated exhaust gas from scrap can be effectively removed. As a result, it is possible to prevent pollution of the atmosphere and the environment, and to achieve pollution-free exhaust gas discharged from electric steel manufacturing equipment. Furthermore, since only electric steelmaking furnace exhaust gas is introduced into the scrap preheater, the +sensible heat contained in the exhaust gas can be utilized to the maximum for preheating the scrap. It is possible to reduce the number of units and reduce the M adjustment time. In addition, we have created large particles of water vapor that are easy to charge in the front stage of the electric precipitator that collects oil mist, so the movement speed of the particles to the electrode plate in the electrostatic precipitator is high, and the amount of gas flowing through the electrostatic precipitator is high. Therefore, an inexpensive electrostatic precipitator with a small capacity can be used, and the installation cost of pollution prevention equipment can be reduced.

[Brief explanation of the drawing]

1FI is a system diagram of a scrap pre-filling device using electric steelmaking furnace exhaust gas to which the present invention is applied, FIG. 2 is a graph showing the temperature fluctuation of exhaust gas over time in the operating state of the electric steelmaking furnace, and FIG. 1 is a system diagram of a prior art apparatus for preheating scrap using exhaust gas from an electric steelmaking furnace; FIG. 1-Preheater, 2-Electric steel furnace, 3-Combustion tower, 4 Scrap preheater, 6-Main duct, 6A to 6C-Confluence, 8
- Sub duct, 8a-8cm = - Return duct, 10 - Booster fan, ll - Dust remover, 12 = - Induction fan, 13
-Exhaust gas temperature adjustment tower, 14-Hot water washing tower, 15-Cold water washing tower, 16-Wet % type %

Claims (2)

[Claims] (1) Scrap preheating that preheats the scrap charged into the electric steel making furnace using the thermal energy possessed by the exhaust gas after burning combustibles in the dust-containing high temperature exhaust gas generated during the operation of the electric steel making furnace. In this method, preheated exhaust gas with a foul odor whose temperature has been lowered by preheating the scrap is mixed with the exhaust gas that is directly taken out for dust removal after combustion, and after this mixed exhaust gas is dust removed, the temperature is adjusted according to fluctuations in the gas temperature. The mixed exhaust gas is brought to a predetermined temperature using the coolant water, the cleaning liquid is used to first deodorize the mixed exhaust gas and saturated steam is added to the mixed exhaust gas, and the low temperature cleaning liquid is supplied to perform secondary deodorization and rapid cooling, condensing a part of the water vapor and It is characterized by making it possible to remove the bad odor and oil mist contained in the preheated exhaust gas of scrap by increasing the size of the particles, attaching oil mist, and collecting the water vapor particles by electrostatic action. A method for preheating scrap using electric steelmaking furnace exhaust gas. (2) After burning the combustibles in the dust-containing high-temperature exhaust gas generated during the operation of an electric steelmaking furnace in a combustion tower, all or part of the exhaust gas is introduced into a scrap preheater, and the exhaust gas retains heat. In the scrap preheating device that uses energy to preheat the scrap charged into the electric steelmaking furnace, exhaust gas is sent to the scrap preheater into the combustion tower interposed in the main duct from which dust-containing high-temperature exhaust gas is led out. A booster fan is installed in the reflux duct that directs the preheated exhaust gas with foul odor that has passed through the scrap to the main duct, and the booster fan is installed in the main duct downstream from the point of confluence with the reflux duct. Dust remover, induction fan, exhaust gas temperature adjustment tower to level out exhaust gas temperature,
A hot water cleaning tower that deodorizes exhaust gas with a cleaning liquid and generates a large amount of water vapor depending on the temperature of the gas, a cold water cleaning tower that deodorizes exhaust gas with a cooled cleaning liquid and enlarges the water vapor, and oil mist attached to the water vapor. Preheating of scrap by electric steelmaking furnace exhaust gas, characterized in that a wet electrostatic precipitator is installed to collect water vapor from the exhaust gas, thereby removing bad odors and oil mist contained in the preheated exhaust gas of scrap. Device.