KR100557475B1 - Inorganic coagulant composition using the inorganic complex and manufacturing methods thereof - Google Patents

Abstract

A composition and preparation method of a powdery inorganic flocculant using hard gypsum as a main material for treating industrial wastewater is disclosed. Powdered inorganic flocculant composition of the present invention is 20 to 50% by weight of gypsum, 10 to 40% by weight of aluminosilicate, 10 to 30% by weight of sodium salt, 5 to 30% by weight of kalinite, 5 to 40% by weight of aluminum sulfate %, 5 to 30% by weight of silicon oxide and 1 to 10% by weight of cement, the powdery inorganic coagulant according to the present invention simplifies the treatment process of industrial wastewater and can stably treat a wide range of wastewater, and treatment efficiency Can increase.

Wastewater Treatment, Powder, Inorganic Coagulant, Pumice, Aluminosilicate, Sodium Salt

Description

Inorganic Coagulant Composition Using the inorganic complex and manufacturing methods

The present invention relates to a composition and preparation method of a powdered inorganic flocculant using an inorganic compound. More specifically, the present invention relates to a powdered inorganic material that can simplify the industrial wastewater treatment process and make an effective treatment at low cost. It relates to preparing a flocculant.

Generally, flocculants used in treating industrial wastewater include inorganic and organic flocculants. As inorganic coagulants, aluminum sulfate, ferrous sulfate, ferric chloride, polyaluminum chloride, etc. are used. Organic coagulants include organic polymers such as starch, glue, and synthetic polymers such as polyethyleneimine, polyacrylamide and sodium polyacrylate. Polymeric flocculants are used. In addition, the pH neutralizing agent required to adjust the pH is used. In some cases, an inorganic coagulant, an organic coagulant, and a pH neutralizing agent may be used in combination.

In the treatment of industrial wastewater, inorganic coagulants or organic coagulants are used depending on the characteristics of the waste water. However, each flocculant has unique treatment conditions, so it is difficult to treat all kinds of wastewater, remove heavy metals, and remove high concentrations of suspended solids. Have

In addition, in the case of using both the inorganic coagulant, the organic coagulant, and the pH neutralizing agent, there is a problem in that the storage facility, the transportation means, and the treatment period become longer.

In the conventional invention, iron salts such as ferric chloride, ferrous sulfate, and ferric sulfate, which are inorganic coagulants, were mostly used to treat industrial wastewater. In Korean Patent No. 10-0347652, a composite inorganic coagulant composition prepared by mixing ferric chloride and ferrous chloride to prepare a composite inorganic coagulant and then adding Ca (OH) ₂ (Lime) is known. Patent No. 2003-0082777 discloses an inorganic coagulant composition for treating alkaline industrial wastewater, which is prepared by mixing magnesium and calcium ions, and salts of iron, such as ferrous chloride and ferrous sulfate, and Korean Patent No. 2001-0084089 In the heading, inorganic coagulant compositions using iron salts selected from ferric chloride, ferric chloride, ferrous sulfate, ferric sulfate, bentonite or zeolite, sodium carbonate or sodium sulfate, kali alum, aluminum sulfate, cement, gypsum are known but inorganic from these compositions. Flocculation works efficiently when treating industrial wastewater with flocculant There are problems that are born. In addition, when iron salt is used as an inorganic coagulant in the treatment of industrial wastewater, the flocculation floc is heavy, so the sedimentation rate is fast and the pH range is a little wide, but the divalent iron cation is oxidized to trivalent iron cation, which prevents the aggregation. The trivalent iron cations with strong corrosiveness can cause corrosion of equipment pressurization over a long period of time, iron ions remain after industrial wastewater treatment, and color remains.

Accordingly, the present inventors are applicable to a wide range of industrial wastewater without containing iron ions in order to solve the above problems, it is possible to form a floc in a short time, a flocculant exhibiting excellent dehydration and flocculation efficiency During the research, it was found that it is possible to prepare a powdery inorganic flocculant through mixing and drying with other natural mineral-based inorganic materials as a main material, and completing the present invention.

An object of the present invention is to mix the inorganic substances in a simple ratio and add them to the waste water to be treated and to reduce the concentration of suspended solids, heavy metals, and dissolved pollutants present in the waste water in a short time by a simple treatment process. It is to provide a powdery inorganic flocculant.

In addition, the present invention is a powdered inorganic flocculant that can significantly reduce the treatment cost and simplify the installation of the treatment facility by performing the wastewater treatment by a simple process, unlike the wastewater treatment method that required the installation of many facilities through several steps To provide.

In order to achieve the above object, the present invention is characterized in that the main material is prepared by mixing a predetermined ratio with natural mineral-based inorganic materials, such as aluminosilicate, sodium salt, kalinite, aluminum sulfate, silicon oxide and cement It provides a powdery inorganic flocculant composition.

Hereinafter, the configuration and action of the powdery inorganic coagulant according to the present invention will be described in detail.

Powdered inorganic flocculant composition of the present invention is 20 to 50% by weight of gypsum, 10 to 40% by weight of aluminosilicate, 10 to 30% by weight of sodium salt, 5 to 30% by weight of kalinite, 5 to 40% by weight of aluminum sulfate %, 5 to 30% by weight of silicon oxide and 1 to 10% by weight of cement.

Pumice gypsum, which is used as the main material of the powdery inorganic coagulant of the present invention, is a mineral belonging to a tetragonal system and is also called anhydrous gypsum (CaSO ₄ ), and is used in an amount of 20 to 50 wt% based on the total composition of the inorganic coagulant, more preferably 30 to 40 wt% Used as If more than 50% by weight of the inorganic coagulant composition is used, causing the turbidity of the supernatant water, and if less than 20% by weight of the floc forming is poor, there is a problem that the addition effect is reduced.

Aluminosilicate is used in an amount of 10 to 40% by weight, more preferably 15 to 25% by weight based on the total composition of the inorganic coagulant, and is preferably bentonite, and sodium bentonite is used as the bentonite. The bentonite is SiO ₂ (60'70%), Al ₂ O ₃ (15-20%), Fe ₂ O ₃ (1'5%), MgO (3-5%), CaO (1-3%), Consists of Na ₂ O (1 ~ 5%), K ₂ O (0.1 ~ 1.0%), ig.loss (10 ~ 15%), swells 7 ~ 15 times of original volume by absorbing high dispersibility and moisture It has the property of high ion exchangeability, and has the property of caking without causing chemical activity even when mixed with other substances, thereby adsorbing harmful heavy metals and bacteria. When the aluminosilicate is used in an amount of 40% by weight or more with respect to the total composition of the inorganic coagulant, the effect of the treatment is reduced by increasing the turbidity of the treated water and decreasing the proportion of other components. Problems occur.

The sodium salt is preferably selected from sodium carbonate, sodium sulfate and sodium bicarbonate, and is used in an amount of 10 to 30% by weight, preferably 15 to 20% by weight, based on the total composition of the inorganic coagulant. If the inorganic coagulant is used in an amount of 30% by weight or more, the effect of addition is not significantly increased, causing turbidity, and when used in an amount less than 10% by weight, there is a problem in that the effect of adding the effect is not sufficient.

The potassium salt is preferably kalinite called potassium alum, which is composed of potassium aluminum sulfate, used as a coagulant in wastewater treatment, and 5 to 30% by weight, preferably 10 to 20, based on the total composition of the inorganic coagulant. Used in weight percent. If used more than 30% by weight relative to the total composition of the inorganic coagulant causes turbidity of the supernatant, when used less than 5% by weight is greatly reduced the rate of floc formation, the size of the floc is also small, the problem of sedimentation rate is lowered.

Silicon oxide is composed of a porous structure has a large surface area, and due to this porosity, the ability to adsorb contaminants is very strong, and has the characteristic of removing odors. The silicon oxide is used in 5 to 30% by weight, preferably 7 to 20% by weight based on the total composition of the inorganic coagulant. If more than 30% by weight of the inorganic coagulant composition is used, the flocculated floc is separated to increase the turbidity by increasing the turbidity, and when less than 5% by weight, the flocculation effect of adsorbing the pollutants cannot be exhibited. .

Cement is one commonly used Portland cement, which is generally used in an amount of 1 to 10% by weight, preferably 3 to 7% by weight, based on the total composition of the inorganic coagulant, and agglomerated floc when 10% by weight or more is used in the total composition of the inorganic coagulant. This easily collapses, and if less than 1% by weight is used, there is a problem that no floc is formed and meaning of addition is lost.

In addition, 5 to 40% by weight of aluminum sulfate, preferably 10 to 25% by weight, based on the total composition of the inorganic coagulant is used.

As described above, the powdery inorganic coagulant according to the present invention is mixed with aluminosilicate, sodium salt, kalinite, aluminum sulfate, silicon oxide, and cement in powder form based on hard gypsum, and then dried and aged at 100 to 200 ° C. Manufactured through.

The drying and aging process removes the water present on the powder, changes the color of the powder, and serves to cause the reaction of the powder itself of each component.

The inorganic coagulant prepared according to the present invention had the most cohesive effect when the powder size was 250 to 300 mesh. Therefore, if necessary, the particle size of the above conditions can be adjusted before or after the drying and maturing process. By using the powdered inorganic flocculant prepared above, the flocculation is accelerated and the flocculated flocs are heavy to increase the settling speed.

In addition, since it buffers against changes in pH due to the use of a flocculant, it is possible to use the powdered inorganic flocculant of the present invention to exhibit excellent flocculation performance in a wide pH range.

Hereinafter, the composition and action of the powdery inorganic flocculant according to the present invention will be described in more detail with reference to Examples and Comparative Examples, but the scope of the present invention is not limited thereto. Modifications commonly known in the art may be made, and it is noted that such modifications are included in the scope of the present invention.

Example 1-4

The compositions and contents of Examples 1 to 4 are shown in Table 1 below, and the results of experiments in which each flocculant was applied to industrial wastewater are shown in Table 2 below.

Examples 1 to 3 were prepared by mixing the composition of Table 1 to prepare a powdery inorganic coagulant in a 250 mesh passage, Example 4 after mixing the composition of Table 1 at 200 ℃ in rotary kiln (Rotary Kiln) Powdery inorganic coagulant was prepared by passing through 250 mesh for 4 hours after drying and aging.

Turbidity, which represents the opacity of water due to suspended substances, represents 0.5 NTU for drinking water and 1.0 NTU for tap water. Generated by inorganic, organic suspended solids or mud, Fe, Mn, Mg, Ca, etc. may cause chemical changes and become cloudy. The larger the particles of suspended matter, the faster the sedimentation, but in the case of fine particles, turbidity can be sustained for a long time.

Turbidity before and after treatment (NTU) is turbidity meter (SHIMAZU UV-160 A, Japan), SS removal rate (%) is SS removal device (Samyoung Environmental Engineering, MC-FILTER), heavy metal removal rate (%) is ICP (Induced Coupled Plasma) It was measured using (Perkin-Elmer, Optima 4100DV).

The turbidimeter is measured by digitally measuring the turbidity by the measurement of combat and light scattering transmitted light, and the SS removal rate is measured by filtering out the measurement liquid using a device composed of a container of a certain volume and glass fiber filter paper.

Comparative Example 1-2

The composition and the content of Comparative Examples 1 and 2 are shown in Table 1 above, and the results of experiments in which each flocculant was applied to industrial wastewater are shown in Table 2 above. Turbidity (NTU), SS removal rate (%), and heavy metal removal rate (%) before and after treatment were measured in the same manner as in Examples 1 to 3.

TABLE 1

TABLE 2

As shown in Table 2, Examples 1 to 4 that do not contain iron trivalent ions are significantly lower turbidity after wastewater treatment, compared to Comparative Examples 1 to 2 that contain iron trivalent ions, removal of suspended solids. It can be seen that most of the removal is more than 96%, heavy metals are also removed more than 95%.

In addition, in the case of the powdery inorganic coagulant of Example 1 and Example 4 of the same type and content, the powdery inorganic coagulant of Example 4, which was dried and aged at 200 ° C., was not dried and aged. It can be seen that it has lower turbidity after treating industrial wastewater than flocculant and shows excellent effects in removing suspended solids and heavy metals.

Therefore, it can be seen that the powdery inorganic coagulant of Example 4 which does not contain iron trivalent ions and which has been dried and aged shows the most excellent effect.

In the present invention, by using the hard mineral gypsum as a main material as a composition of the powdered inorganic coagulant composition, the wastewater treatment by a simple process significantly reduces the treatment cost and shows an improved efficiency in treating industrial wastewater. It is possible to reduce the concentration of suspended solids, heavy metals, and dissolved pollutants in the wastewater in a short time, and to greatly simplify the treatment process, so that it can be applied to a wide range of industrial wastewater.

Claims (7)

Pumice gypsum 20-50% by weight of the total composition; 10-40% by weight of aluminosilicate; 10 to 30% by weight sodium salt selected from sodium carbonate, sodium sulfate and sodium hydrogen carbonate; 5-30 wt% of kalinite; 5 to 40 weight percent aluminum sulfate; A powdery inorganic coagulant composition comprising 5 to 30% by weight of silicon oxide and 1 to 10% by weight of cement. The method of claim 1, 30-40% by weight of gypsum relative to the total composition; 15-25% by weight of aluminosilicate; 15 to 20% by weight sodium salt selected from sodium carbonate, sodium sulfate and sodium hydrogen carbonate; 10-20% by weight kalinite; 10-25 wt% aluminum sulfate; 7-20 wt% silicon oxide; 3 to 7 weight percent of cement; The powdery inorganic flocculant composition characterized by containing it dried and matured at 100-200 degreeC after mixing. The method of claim 2, The aluminosilicate is powdered inorganic flocculant composition, characterized in that the bentonite. delete The method of claim 2, Powdered inorganic flocculant composition, characterized in that 250 to 300 mesh. a) 30-40% by weight of gypsum relative to the total composition; 15-25% by weight of aluminosilicate; 15 to 20% by weight sodium salt selected from sodium carbonate, sodium sulfate and sodium hydrogen carbonate; 10-20% by weight kalinite; 10-25 wt% aluminum sulfate; Mixing 7-20 wt% silicon oxide and 3-7 wt% cement in the reactor; b) drying and ripening the mixed a) at 100 to 200 ° C; Method for producing a powdery inorganic flocculant, characterized in that. delete