KR100614742B1 - A method of water purification using olivine - Google Patents

Abstract

The present invention purifies the water quality by efficiently removing phosphorus (P) that has emerged as a problem in the high-level treatment or polluted streams of sewage and wastewater treatment plants using olivine used as aggregate in the construction industry, and recovered after water purification The present invention relates to a method for purifying water using an olive stone material capable of recycling phosphorus (P) resources.

The size of the olivine used for water purification is determined by crushing the gemstone and passing the # 100 sieve and remaining in the # 200 sieve or the particle size of 1.0 ~ 50.0mm depending on the application method and device. Reverse contact for secondary treatment water to main streams or to separate streams from sludge treatment processes, ie fully mixed, stationary filtration reactors or contaminated streams. An object of the present invention is to provide a water purification method that can remove and recover phosphorus (P) using an oxidation method.

Description

A method of water purification using olivine}

1 is an XRD analysis result for the olivine material recovered after a certain period of water purification by putting the olivine material according to the present invention into the reaction tank.

The present invention relates to a water purification method using a material, that is, an olivine material, for adsorbing recovery and removal of phosphorus (P) from a main stream, a side stream, or a polluted stream in a sewage and wastewater treatment process. More specifically, the olivine is crushed and screened to have a constant particle diameter, and the olivine material having the constant particle diameter is introduced into the wastewater treatment process in an appropriate amount to efficiently remove phosphorus (P) in the water, and the phosphorus (P) as described above. The main focus is on the recycling (recycling) of the desorbed material, and further has the function of removing phosphorus (P) in the water by using as a contact material of reverse contact oxidation method applied to polluted rivers.

Most sewage and wastewater treatment plants have been designed and constructed as a system for removing organic matter and suspended solids. However, as eutrophication in public waters becomes a big problem, high-level treatments have recently been carried out to remove nutrients of nitrogen (N) and phosphorus (P) in sewage.
However, in order to implement supplementary construction for the advanced treatment of sewage or wastewater in existing sewage and wastewater treatment plants, it is difficult to have various problems such as securing the site and enormous budget.
Therefore, in order to treat sewage or wastewater highly in the existing sewage and wastewater treatment plant, new search should be made in the direction of easy installation and additional facilities with low budget.

On the other hand, reverse contact oxidation, which has been applied to water quality purification of polluted rivers, mainly uses gravel as a contact material. This treatment method aims to remove organic matter and suspended solids in water, which is effective for removing phosphorus (P). There is a disadvantage that is difficult to expect.

Phosphorus (P) recovery and removal are commonly used as the world's most widely used biological treatment (BNR) method and chemical method using coagulant. In recent years, crystallization method, which is a physicochemical method, is used. ) Is being attempted.

On the other hand, the biological treatment method using the microorganisms, the microorganisms are transferred to the anaerobic and aerobic state, the phosphorus (P) is removed by drawing the sludge through the release of phosphorus (P) and absorption of phosphorus (P), the treatment The disadvantage is that the efficiency is unstable and the amount of sludge generated is large.

In addition, a flocculation sedimentation method using a flocculant to remove phosphorus (P) is commonly used, which tends to be reluctant to be applied to sewage treatment plants due to the high treatment cost and excessive sludge generation. have.

Therefore, interest in crystallization reaction is increasing recently. The reason is that phosphorus (P) can be effectively removed and at the same time the recovered phosphorus (P) can be recycled. However, the crystallization that induces crystallization reaction is essential for this crystallization reaction, and further study on this is necessary because treatment performance and economical efficiency can vary greatly depending on the type of crystallization material.

In Korea, phosphorus (P) recovery and removal methods using steel waste slag or steel converter slag, which are steel wastes, have been developed, but due to the nature of the material, it is necessary to inject chemicals.

The present invention is difficult to remove the stable phosphorus (P) in the case of the conventional biological phosphorus (P) removal, while the chemical phosphorus (P) removal by the drug injection is stable, but a large amount of sludge generation and treatment costs increase due to the use of the drug In addition, the recovery and removal of phosphorus (P) using the existing steel waste has to inject a separate chemical, taking into account the disadvantages that have to go through the neutralization treatment during discharge due to the high pH of the steel waste characteristics. In order to solve the present invention, the present invention is capable of stable phosphorus (P) removal without additional chemical injection, and recovers phosphorus (P) in sewage and wastewater that can obtain a recoverable phosphorus (P) resource instead of waste sludge and It is an object of the present invention to provide a water purification method using olivine materials that can be efficiently removed.

The present invention is a natural mineral of olivine as a raw material to crush it and pass through the # 100 body and the particle size of 0.075 ~ 0.15mm (average particle diameter of about 1.0mm) or 1.0 ~ 50.0mm size of the material remaining in the # 200 body After obtaining and washing and completely drying the material having a predetermined particle diameter as described above, the material is put into a separate processing device to be used as a material for phosphorus (P) recovery and removal in water.

On the other hand, referring to the characteristics of the olivine (Olivine) used as a raw material of the material for the recovery and removal of phosphorus (P) in the present invention, the olivine is a major mineral belonging to the tetragonal system 6.5 to 7.0, specific gravity 3.2 to 3.4 In some cases, the columnar crystal is generally formed, but the crystal is not clear, and the composition is shown in Table 1 below.

ingredient SiO ₂ CaO MgO FeO ₃ Al ₂ O ₃ content(%) 39 3.3 35.0 11.2 1.5

In addition, the olivine has an alkalinity of pH 9.1 to 9.5, and contains a large amount of MgO component. The pulverized olivine has a large surface area and is very excellent in removing phosphorus (P). (P) When used as a removal material, phosphorus (P) can be removed with high efficiency.

The present invention is to obtain a raw material having a characteristic as described above by a predetermined method, and to recover and remove phosphorus (P) from the sewage and wastewater by using the material thus obtained, sewage and wastewater treatment process Phosphorus (P) in the water is added to the mixed liquor or stationary filtration reactor and the reverse contact oxidation apparatus that is applied to the liquor for the second treated water or to the counter-current returned from the sludge treatment process. To be removed, the water purification method of the sewage, wastewater and river water using the olivine material provided in the present invention will be described in more detail as follows.

The olivine material crushed into fine particles as described above is the final settling effluent from the biological treatment (secondary treatment) or the return water from the sludge treatment process in the sewage and wastewater treatment as raw water. Drive.

In this way, when operating for a certain period, Mg ₃ (PO ₄ ) ₂ ㆍ 22H ₂ O, Fe ₃ (PO ₄ ) ₂ (OH) ₂ , MgHPO ₄ ㆍ Particles grow in the form of 3H ₂ O, Fe (PO ₄ ), etc., and when grown to a certain size or more, the grown particles are taken out to the outside as phosphorus-containing ore and replaced with new olivine materials. By repeating this, phosphorus (P) in the sewage and wastewater can be removed to a low concentration, for example, 0.1 to 1.0 mg / l or less, and can be recovered and used as a phosphorus (P) resource.

That is, in the sewage and wastewater treatment plant, the final sedimentation effluent or the return water from the sludge treatment process is introduced into the lower end of the completely mixed reactor, and two or more baffles are provided to help the proper mixing of the appropriate size on the wall inside the reactor. Into this symmetrically attached circular or polygonal reactor, a powder olivine material with a particle diameter of about 0.1 mm is introduced at about 1 to 20 w / v%, and the mixer is installed at the top center of the reactor for about 1 to 2 hours. It has hydraulic retention time (HRT), and the upper part of the reactor is divided into bulkheads, so the limiting sedimentation rate of the olivine material is about 11-25cm / sec even when used as a sedimentation part. There will be no problem.

In addition, even in a fixed-bed filtration reactor using granular olivines, space velocity of 2.0 to 50.0 mm was obtained in a filtration tower filled with granular olivine material with the final sedimentation effluent or return water from the sludge treatment process. When operating at 6.0 (hr ^-1 ), the phosphorus (P) in the water is transferred to Mg ₃ (PO ₄ ) ₂ ㆍ 22H ₂ O, Fe ₃ (PO ₄ ) ₂ (OH) ₂ , MgHPO ₄ ㆍ 3H Particle growth in the form of ₂ O, Fe (PO ₄ ), etc., after growing to a certain size is to be taken out to be able to recycle the recovered phosphorus (P) again.

In addition, in reverse contact oxidation apparatus using granular olivine as contact material, if contaminated river water is introduced into reverse contact oxidation facility filled with granular olivine material with particle diameter 1.0 ~ 50.0mm, and operated by passing residence time of 1.0 ~ 6.0 hours, Phosphorus (P) in the water forms in the form of Mg ₃ (PO ₄ ) ₂ ㆍ 22H ₂ O, Fe ₃ (PO ₄ ) ₂ (OH) ₂ , MgHPO ₄ ㆍ 3H ₂ O, Fe (PO ₄ ) To be removed.

On the other hand, the embodiment is described by limiting the particle size of the olivine material to about 0.1mm or 1.0 ~ 50.0mm, but this is a preferred embodiment, if necessary to adjust the particle size of the olivine material appropriately, It is also possible to remove phosphorus (P) in sewage and wastewater by adding or filling the olivine material into the reaction tank, which will be within the scope of the present invention.

As described above, since the olive material used in the present invention is a natural mineral compared to the conventional phosphorus (P) removal technology using steelmaking waste, it is safe from material securing and harmfulness problems, and it is a fully mixed phosphorus (P) using existing steel waste. The decarbonation and neutralization processes that are commonly used as pretreatment steps can be omitted in the removal or stationary crystallization dephosphorization technology, which simplifies the treatment process, and thus has a useful effect of economically removing phosphorus (P). .

In addition, the conventional reverse contact oxidation method has a side effect of removing phosphorus (P) that was difficult to remove.

Claims (5)

Olivine raw material is crushed to the size of 1.0mm ~ 50.0mm to obtain olivine material, The olivine material is applied to a liquor for the second treatment water of the sewage and wastewater treatment process or to a fully mixed reactor, a fixed bed filtration reaction vessel, or a reverse contact oxidation apparatus that is applied to the return water returned from the sludge treatment process. Water purification method using an olive stone material, characterized in that to remove the phosphorus (P). The method of claim 1, The olivine material introduced into the complete mixing tank is filled with 1 ~ 20w / v% with a particle size of 0.1mm and the residence time for removing phosphorus (P) from sewage and wastewater is 1 to 6 hours. Water purification method using materials. The method of claim 1, The olivine material added to the reactor for sewage and wastewater treatment is Mg ₃ (PO ₄ ) ₂ ㆍ 22H ₂ O, Fe ₃ (PO ₄ ) ₂ (OH) ₂ , MgHPO ₄ ㆍ 3H ₂ O, Fe (PO ₄ ) After growth of the particles in the form of the like, the crystal grains thus formed are taken out of the intestine with phosphorus (P) -containing ore, and the operation of replacement of the new olivine material is repeated. ) Water purification method using an olivine material, characterized in that to remove less than 1mg / ℓ. The method of claim 1, The fixed-bed filtration reactor in which the olivine material is introduced is used to remove the phosphorus (P) by passing the final settling effluent or the return water from the sludge treatment process at a space velocity of 2.0 to 6.0 (hr ^-1 ). Water purification method using the olivine material, characterized in that. The method of claim 1, The granular olive material used as the contact material of the reverse contact oxidation apparatus is filled with a particle size of 1.0mm ~ 50.0mm, and the residence time for removing phosphorus (P) in water is 1 to 6 hours. Water purification method using the olive stone material.

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