JP5617182B2 - Method for processing iron-containing slurry - Google Patents

Description

  The present invention improves the dehydration efficiency and concentrates the fluidity of the concentrated slurry obtained by dehydration when dehydrating and concentrating the iron-containing slurry containing fine particles containing iron as a main component with a centrifugal separator, Furthermore, it relates to a method for improving the drying efficiency.

  The iron-containing slurry treatment method of the present invention is a method for reusing iron-containing slurry containing wet dust collection dust as raw materials (raw materials, auxiliary materials, reducing agents, etc.) in a smelting furnace, smelting furnace or melting furnace. This is useful as a technique for improving the dewatering efficiency of the iron-containing slurry.

  In a smelting furnace such as steel, a smelting furnace, or a melting furnace, a large amount of dust is scattered in the gas discharged from the furnace, and this dust is recycled after being wet collected by a venturi scrubber or the like. However, when wet dust collection dust containing a large amount of moisture is supplied as it is to the surface of a molten metal such as a smelting reduction furnace, moisture introduced together with the dust reduces the thermal efficiency of the furnace.

  Therefore, conventionally, when recycling such wet dust collected dust, the dust collected is settled and separated by a thickener or the like into a high concentration slurry having a water content of about 70%, and this slurry is used for a filter press, a centrifuge, etc. After concentration by a dehydrator, the concentrated slurry is dried and further subjected to necessary treatments such as granulation and curing, and then recycled to each furnace. As described above, the concentration and drying of the slurry also provides an effect that the handleability and the processing efficiency are improved by reducing the volume of the iron-containing slurry.

  Conventionally, in order to improve the dewatering efficiency of such iron-containing slurry, a method of adding a polymer flocculant has been proposed (Patent Document 1).

  However, by adding a polymer flocculant to the iron-containing slurry, the dewatering efficiency is improved by forming a floc floc. However, the addition of the polymer flocculant increases the viscosity of the slurry, so that the flow of the concentrated slurry after dehydration is increased. There was a problem that the property deteriorated and the transfer to the next process became difficult.

  Usually, the dehydrated and concentrated slurry is then subjected to a drying process in a drying process. However, when the slurry viscosity is increased, there is a problem that problems such as poor drying occur due to poor contact efficiency with drying air. is there.

JP 2002-136998 A

  The present invention solves the above-mentioned conventional problems, improves the dehydration efficiency when the iron-containing slurry is dehydrated with a centrifugal separator or the like, and increases the fluidity of the concentrated slurry obtained by the dehydration treatment, and then drying It aims at providing the processing method of the iron containing slurry which can also improve efficiency.

Method of processing iron-containing slurry of the present invention (Claim 1), in the processing method of the iron-containing slurry comprising a concentration step of concentrating the slurry containing the particulate material containing iron as a main component by dehydration treatment, the iron-containing slurry Is an iron-containing slurry containing wet dust collection dust generated in a smelting furnace, smelting furnace, or melting furnace, and is characterized by adding potassium carbonate to the iron-containing slurry for dehydration treatment.

  The method for treating an iron-containing slurry according to claim 2 is characterized in that, in claim 1, the dehydration treatment is performed by centrifugation.

A method for treating an iron-containing slurry according to claim 3 is characterized in that, in claim 1 or 2, the concentrated slurry from the concentration step is transferred to a drying step .

Method of processing iron-containing slurry 請 Motomeko 4, in any one of claims 1 to 3, the dried product from the drying step, smelting furnace, to be charged into the smelting furnace or melting furnace Features.

In the method for treating an iron-containing slurry of the present invention, one agent is obtained by adding carbonate and / or bicarbonate (hereinafter, these may be referred to as “(bi) carbonate”) to the iron-containing slurry. The following effects (1) and (2) can be obtained by adding the chemicals.
(1) The dehydration efficiency of a dehydrator such as a centrifugal separator can be improved.
(2) The fluidity of the concentrated slurry after dehydration can be improved compared to when no chemical is added.

  Although the details of the mechanism of action by which the effects of (1) and (2) are obtained by addition of (bi) carbonate are not clear, (bi) carbonate brings the zeta potential of SS in the slurry close to zero, As a result of promoting aggregation, it is considered that SS sedimentation increases, the efficiency of dehydration separation in the dehydrator is improved, and the viscosity of the concentrated slurry decreases due to the fine aggregation of SS, thereby improving the fluidity.

  For this reason, according to the present invention, the concentrated slurry obtained by the dehydration process can be efficiently transferred to the next step. In particular, when the next step is a drying step, the concentrated slurry is low in viscosity because of low viscosity. Drying efficiency is also improved by improving the contact efficiency with the working air.

It is a systematic diagram which shows embodiment of the processing method of the iron containing slurry of this invention. 3 is a graph showing the results of Example 1 and Comparative Example 1.

  Hereinafter, embodiments of the method for treating an iron-containing slurry of the present invention will be described in detail.

  The method for treating an iron-containing slurry of the present invention comprises adding (bi) carbonate to the iron-containing slurry when dehydrating and concentrating the slurry containing iron particles as a main component using a centrifugal separator or the like. And dehydrated.

  The iron-containing slurry to be treated in the present invention is typically a slurry obtained by concentrating wet dust collection dust in a smelting furnace, smelting furnace, melting furnace or the like with a thickener or the like, and mainly contains iron. It contains a granular material as a component at a high concentration. Here, the granular material containing iron as a main component refers to a granular material containing 40% by mass or more as Total Fe (total iron), and the presence form of iron is an oxide other than the case of metallic iron. Exist as well.

Examples of the water quality of the iron-containing slurry include the following water qualities.
SS concentration: 10 to 60% by mass
pH: 8-13

  The (bi) carbonate added to such iron-containing slurry is not particularly limited, and carbonates such as potassium carbonate and sodium carbonate, and bicarbonates such as sodium bicarbonate and potassium bicarbonate can be used. These may be used alone or in combination of two or more.

  The amount of (heavy) carbonate added varies depending on the water quality (SS concentration) of the iron-containing slurry to be treated, but is 100 to 2000 mg / L, particularly 250 to 500 mg / L with respect to the iron-containing slurry. preferable. If the amount of (heavy) carbonate added is too small, a sufficient dehydrating effect cannot be obtained.

  As the addition form of (heavy) carbonate, it may be added as a powder, or dissolved in water and added as a liquid, but it is effective to add it in a liquid form from the viewpoint of uniform mixing with the slurry. is there.

  When added in a liquid state, it is preferable to add a high-concentration solution using a substance having high solubility in water. From this viewpoint, it is advantageous to use potassium carbonate because it leads to a reduction in drug cost. In addition, when adding (bi) carbonate as aqueous solution, it is preferable to add as aqueous solution with a density | concentration of about 10-50 mass%.

  Moreover, when adding (bi) carbonate to an iron-containing slurry, it is preferable to stir and mix (bi) carbonate and iron-containing slurry sufficiently uniformly. In this case, if the mixing time is too short, a sufficient agglomeration effect cannot be obtained, and if it is too long, the finely agglomerated SS is destroyed. Therefore, the stirring and mixing time is preferably about 1 to 24 hours.

  The treatment method of the iron-containing slurry of the present invention is, as described above, dehydrating a slurry obtained by concentrating wet dust collection dust in a smelting furnace, smelting furnace or melting furnace with a thickener or the like, followed by further drying treatment. In this case, for example, as shown in FIG. 1 (a), the concentrated slurry obtained by sedimentation and separation by the thickener 1 is placed in the middle part of the pipe for transferring to the dehydrator 3. A storage tank 2 is provided. In this storage tank 2, (heavy) carbonate is added and mixed by stirring to improve agglomeration, and the iron-containing slurry to which (bi) carbonate is added and mixed is passed through a dehydrator 3 and dried. 4 is preferably sent. As shown in FIG. 1B, a storage tank 5 as a retention tank is also provided in the middle of the pipe for transferring the concentrated slurry from the dehydrator 3 to the dryer 4, and after stirring and mixing in this storage tank 5 It may be fed to the dryer 4.

  In either case, by adding and mixing (bi) carbonate to the iron-containing slurry, the dehydrating property in the dehydrator 3 is increased, and the fluidity of the obtained concentrated slurry is also increased, so that this concentrated slurry can be made smooth. While being transferred to the dryer 4, the drying process can be efficiently performed in the dryer 4.

  The (heavy) carbonate may be added through a pipe on the upstream side of the storage tank 2 and stirred and mixed in the storage tank 2.

  In the present invention, the dehydrator 3 is not particularly limited and may be a filter press or the like. However, it is possible to effectively obtain a sedimentation improvement effect due to fine aggregation of SS by (bi) carbonate. A centrifuge is preferred.

  The iron-containing slurry is dehydrated and dried through a dehydrator 3 and a dryer 4, and then subjected to necessary treatments such as crushing, humidity conditioning, granulation, and curing, and then a smelting furnace, a smelting furnace, or a melting furnace Etc.

  According to the knowledge of the present inventors, as a result of applying the present invention, the drying trouble in the dryer 4 can be reduced to about 1/5 of the conventional one, and the dry amount and thus the iron production amount in the smelting furnace etc. is improved by about 3% by mass. It was possible.

However, the present invention is such smelting furnace is recovered from the smelting furnace or melting furnace, smelting furnace, can be applied to the dehydration treatment of iron-containing slurry over to be reused in smelting furnace or melting furnace.

  Hereinafter, the present invention will be described more specifically with reference to examples, comparative examples, and experimental examples.

[Example 1]
In order to confirm the dehydrating effect of (heavy) carbonate, 50 mass of potassium carbonate was added to thickener sludge slurry (pH: 11.5 (20 ° C)) mainly composed of iron oxide and having an SS concentration of 50 mass%. % Aqueous solution was added as a potassium carbonate concentration of 500 mg / L and mixed for 10 hours, followed by centrifugation and concentration with a centrifuge (“DMX type” manufactured by Sakai Kogyo Co., Ltd.) for 2 months. The SS concentration of the dehydrator inlet slurry and the dehydrator outlet slurry at this time was measured, respectively, and the effect of improving the dewaterability was determined by the difference in SS concentration relative to the SS concentration of the slurry before dehydration (= SS concentration of slurry after dehydration−before dehydration SS concentration of slurry: The greater this value, the better the dehydration.) The results are shown in FIG.

[Comparative Example 1]
In Example 1, the effect of improving the dehydrating property on the SS concentration of the slurry before dehydration was examined in the same manner except that dehydration was performed without adding potassium carbonate, and the results are shown in FIG.

  From FIG. 2, it can be seen that the addition of potassium carbonate improves the dewaterability of the iron-containing slurry.

[Experimental Examples 1 to 10]
Prior to dehydrating a thickener waste slurry (pH: 11.5 (20 ° C.)) mainly composed of iron oxide and having an SS concentration of 50% by mass in order to investigate the effect of improving fluidity by adding chemicals to the iron-containing slurry. The various chemicals shown in Table 1 were added to the slurry at the addition concentrations shown in Table 1 and mixed for 1 hour (no chemical added in Experimental Example 4), and the funnel viscosity according to the API standard of the slurry after mixing (500 / 500).

  The funnel viscosity (500/500) according to the API standard (muddy water test by American Petroleum Institute (American Petroleum Institute)) is put into the funnel container by the API standard funnel viscometer, and the whole amount of the slurry is discharged. The smaller the value, the lower the viscosity and the better the fluidity.

  According to Table 1, in the case of (bi) carbonate, the viscosity of the slurry after addition is low, and therefore, the viscosity of the concentrated slurry obtained by dehydrating this slurry is also low. Therefore, the fluidity of the concentrated slurry after dehydration is low. It can be seen that the improvement effect is obtained. As a result, since the adhesion of the slurry to the dryer is reduced, the drying efficiency of the dryer can be improved.

1 Thickener 2,5 Storage tank 3 Dehydrator 4 Dryer

Claims (4)

In a method for treating an iron-containing slurry comprising a concentration step of concentrating a slurry containing iron particles as a main component by dehydration, the iron-containing slurry is a wet collection generated in a smelting furnace, a smelting furnace, or a melting furnace. A method for treating an iron-containing slurry, which is an iron-containing slurry containing dust dust, wherein potassium carbonate is added to the iron-containing slurry for dehydration treatment.   The method for treating an iron-containing slurry according to claim 1, wherein the dehydration treatment is performed by centrifugation.   The method for treating an iron-containing slurry according to claim 1, wherein the concentrated slurry from the concentration step is transferred to a drying step. The method for treating an iron-containing slurry according to any one of claims 1 to 3 , wherein the dried product from the drying step is charged into a smelting furnace, a smelting furnace, or a melting furnace.

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