KR100446984B1 - Continuous, struvite crystallization apparatus - Google Patents

Abstract

The present invention relates to a continuous struvite crystallization apparatus for continuously treating wastewater containing high concentrations of nitrogen and phosphorus by struvite.

The present invention provides a continuous struvite crystallization apparatus which has the characteristics of simultaneously removing nitrogen and phosphorus in a short time and continuously removing wastewater, and which does not interfere with subsequent biological treatment processes. have.

Specific means include raw water and flocculation source inlet, nitrogen and phosphorus struvite crystallization unit, propeller for inducing centrifugal force of fluid, hydrocyclone solid-liquid separator, struvite crystal inlet acting as agglutinating nucleus And a sludge hopper, a solid-liquid separated effluent and an air outlet.

Description

Continuous struvite crystallization apparatus

The present invention relates to a continuous struvite crystallization apparatus, and more particularly, to a continuous struvite crystallization apparatus for continuously treating wastewater containing high concentrations of nitrogen and phosphorus by struvite crystallization. will be.

Chemically, there is a method of removing nitrogen and phosphorus, but there is a method of removing nitrogen by degassing with ammonia gas by adjusting aeration and pH, and removing phosphorus by coprecipitation with aluminum salt. Although used conventionally, these treatments have low treatment efficiency and have a lot of difficulties in simultaneously removing nitrogen and phosphorus.

On the other hand, there are several processes as biological treatment methods, such as bardenpho, A2 / O, A / O, UTC, VIP, etc., and these processes are operated by appropriately combining aeration and non-aeration as nitrogen and Although it is widely used in developed countries to remove phosphorus, wastewater containing high concentrations of nitrogen and phosphorus takes a lot of time because of hydraulic retention time for nitrification. There was a problem that the throughput of the wastewater to be treated is limited.

In particular, industrial wastewater contains higher concentrations of nitrogen and phosphorus than domestic sewage, and has high pH and in some cases contains toxic substances. There was a problem in that it is impossible to treat industrial wastewater separately.

It is an object of the present invention that the technology related to nitrogen and phosphorus treatment by struvite crystallization has been developed to some extent in the sewage treatment plant and industrial site in foreign countries, but it is practically applied in the field in Korea. Is none. Therefore, the present invention provides an apparatus for efficiently treating malignant wastewater containing high concentrations of nitrogen and phosphorus and having difficulty in biological treatment due to toxicity using struvite crystallization.

In addition, another object of the present invention is a technique for the continuous treatment of the crystallization of wastewater having a high concentration of nitrogen and phosphorus with struvite, the present device is simultaneously removed in a short time in view of the above problems and circumstances It is possible to provide continuous struvite crystals and devices that can be used and have the ability to remove wastewater continuously and do not interfere with subsequent biological treatment.

Specific means for achieving the above object;

The struvite crystallization unit and the top of the struvbite crystallization unit, which are installed at the top of the inlet unit and the inlet unit for supplying air, target water, Mg, PO4, and alkaline agent to the top of the inlet unit, to cause the struvite crystal reaction of nitrogen and phosphorus. Installed with a propeller to induce centrifugal force for solid-liquid separation A hydraulic solid separator, a struvite crystal overflow portion formed between the struvite crystallization unit and a hydraulic solid separator, a struvite crystal inlet serving as an agglomeration nucleus formed between the injection unit and the struvite, and an injection Sludge hopper shaped like a rhombus installed to surround the outer peripheral surface of the part, Struvite crystal drawing part formed between the lower inner wall and the sludge hopper, and installed along the outer circumference of the upper part so that the inflow of raw water undergoes the struvite crystallization reaction It consists of an outlet for discharging the discharged water, and an air outlet formed in the upper portion of the hydraulic solid-liquid separator to discharge the supplied air contained in the inlet source water, a plurality of it is installed on the outer circumferential surface of the hydraulic solid-liquid separator is separated from the flow of fluid This is achieved by providing a scaled groove separating the true bite crystals and the effluent.

1 is a schematic cross-sectional view of a struvite crystallization apparatus according to the present invention.

2 is a cross-sectional view of a hydraulic solid separator in a struvite crystallization apparatus according to the present invention;

<Code Description of Major Parts of Drawing>

1: injection part 2: struvite crystallization part

3: propeller 4: hydrocyclone solid-liquid separator

5: struvite determination overflow portion 6: fluid flow

7: Struvite crystal inlet part 8: sludge hopper

9: struvite crystal drawing part 10: outlet

11 air outlet 12 fluid flow

13: discharge flow 14: home

Therefore, the specific embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic cross-sectional view of a continuous struvite crystallization apparatus for continuously and simultaneously removing nitrogen and phosphorus. The main apparatus includes an injection unit 1 for supplying air, influent water, and agglomerates, and a struvite of nitrogen and phosphorus. Crystallization section (2), propeller (3) for inducing centrifugal force of fluid, hydraulic solid-liquid separator (4), struvite crystal inlet (7) acting as agglutinating nucleus, sludge hopper (8), solid-liquid outlet 10, the air outlet 11 is organically coupled and is comprised.

Therefore, looking at the action and effect of the continuous struvite crystallization apparatus of the present invention having the configuration as described above;

When the Mg source, PO ₄ source, and alkaline agent are injected through the pump at an appropriate ratio together with the inflow source containing air, nitrogen, and phosphorus from the flocculation source inlet unit 1, it is generated from an air lifter (not shown) installed outside the apparatus. The vortex of the air causes the influent and determinants to move upwards.

At this time, the crystallization process of nitrogen and phosphorus by stirring occurs in the struvite crystallization unit (2).

In addition, the role of the air supplied from the inlet (1) is to move up the influent or struvite generating source up, and degassing the CO ₂ present in the influent source to increase the pH of the influent source to reduce the alkaline agent required It serves to reduce.

Since the time at which the reaction takes place is extremely short, the residence time at which the reaction takes place can be greatly reduced.

As such, the struvite crystals generated in the reaction are reacted simultaneously with the continuous movement in the upstream.

In addition, the struvite crystals that cause a reaction simultaneously with the upward movement are moved to the propeller 3 installed on the top of the struvite crystallization unit 2.

At this time, the fluid in the propeller (3) is subjected to the action of the centrifugal force for the solid-liquid separation so that the part of the struvite crystal contained in the fluid is collected in the sludge hopper (8) along the fluid flow (6) and piggybacked on this fluid flow The remaining struvite crystals are transferred to the hydraulic solid separator (4).

At this time, the propeller (3) is connected to the underwater motor (not shown) and is installed between the struvite crystallization unit (2) and the hydraulic liquid-liquid separator (4) by a suspension device (not shown). .

The sludge hopper 8 is formed in a rhombus shape to facilitate the drawing of the struvite crystal in a natural shape and is easily installed to be supported to cover the portion of the inlet 1 through which the inflow water is introduced. It is removed via the true byte decision drawing section 9.

In addition, between the struvite crystallization unit 2 and the hydraulic solid-liquid separator 4 in the struvite crystallization unit 2 along the fluid flow of the strutbite crystal overflow unit 5 due to the centrifugal force of the propeller 3. A portion of the struvite crystals that are separated and settled by gravity move along the fluid flow of the struvite crystal inlet 7 serving as agglutinating nuclei and meet with the influent water and the struvite crystal source to form struvite crystallization. In the reaction, it acts as a struvite agglomeration nucleus, thereby reducing the injection amount of agglutination source.

At this time, it is possible to enhance the removal efficiency of suspended solids (SS) and toxic substances of the influent water due to coprecipitation during the action reaction process.

In this way, the effluent water separated through the struvite crystallization reaction by gravity is discharged through the device outlet 10, and the air introduced from the air lifter and injected with the inlet water is a hydraulic solid separator ( 4) exits to the air outlet 11 installed at the top.

At this time, the fluid flow 6 in the apparatus shown in FIG. 1 virtually illustrates the flow of water generated by the propeller 3 in the struvite crystallization apparatus.

Figure 2 shows a cross-sectional view of a hydraulic solid separator (4), the solid-liquid separation of the fluid is made in the hydraulic solid-liquid separator and the operating principle is that the fluid is a hydraulic solid-liquid separator due to the centrifugal force induced by the propeller (3) In (4), the rotation flow 12 of the fluid rotates in a circular counterclockwise direction, and the struvite crystals contained in the fluid detach from the fluid and exit into the scaly groove 14, and the detached struvite The crystals are collected in the sludge hopper 8.

In addition, the effluent stream 13 shown in FIG. 2 is a virtual diagram of the flow of water separated from the fluid inside the hydraulic solid separator and discharged to the outlet.

As such, a series of processes for struvite crystallization occur continuously.

In particular, the struvite crystallization device has a wide application range as a unit process, so that it can be applied to nitrogen and phosphorus treatment in anaerobic digestion tanks of municipal sewage treatment plants. It is applicable also as a process.

In addition, if the strubit crystallization device is packaged in conjunction with biological treatment as a unit process, the strubit crystallization device may be more widely used.

As described above, the struvite crystallization apparatus of the present invention is an effective treatment of malignant wastewater containing high concentration of nitrogen and phosphorus and recycles the struvite crystal produced as a by-product during struvite crystallization due to environmental effects. Can meet the requirements of enhanced environmental regulation of effects and nutrients.

At this time, the treatment of nitrogen and phosphorus by struvite crystallization can remove nitrogen and phosphorus simultaneously, and the reaction time is fast and the toxic substances and solids are co-precipitated together during the crystallization reaction to improve the subsequent biological treatment efficiency. have.

In addition, as an economic effect, there is an effect of reducing the cost of facilities and equipment by the simple renovation and supplementation of the existing treatment plant, as well as the selection of the optimal treatment process and optimization of operation according to the characteristics of industrial wastewater.

Claims (3)

An injection unit 1 for supplying air, target water, Mg, PO ₄ , and alkali agent into the apparatus, A struvite crystallization unit (2) installed spaced apart from the upper end of the injecting unit and causing a struvite crystal reaction between nitrogen and phosphorus; A hydraulic type solid-liquid separator (4) installed with a propeller (3) spaced apart from the top of the struvite crystallization unit (2) and inducing centrifugal force for solid-liquid separation; A struvite crystal overflow portion 5 formed between the struvite crystallization unit 2 and the hydraulic solid-liquid separator 4, A struvite crystal inlet 7 serving as an aggregate nucleus formed between the injection section 1 and the struvite crystallization section 2, A sludge hopper 8 having a rhombus shape installed to surround the outer circumferential surface of the injection portion 1, A struvite crystal drawing portion 9 formed between the lower inner wall and the sludge hopper 8, Outlet 10 is installed along the outer circumference of the upper end and discharges the effluent from the solid-liquid separation after the inflow of water through the struvite crystallization reaction, Continuous struvite crystallization apparatus, characterized in that formed on the hydraulic pressure separator (4) is composed of an air outlet (11) for discharging the supplied air contained in the inlet source water. 2. A continuous slewing device as set forth in claim 1, characterized in that a plurality of grooves (14) are provided on the outer circumferential surface of the hydraulic solid separator (4) and are composed of scale grooves (14) for separating struvite crystals and effluents from the flow of fluid. Byte crystallization unit. The continuous struvite crystallization apparatus according to claim 1, wherein the sludge hopper (8) formed to surround the injection port (1) is formed in a rhombus shape.