KR20150046461A - Phosphorus recovery and total phosphorus control apparatus for recycle water - Google Patents

Abstract

The present invention relates to an apparatus for processing side stream generated during a waste water treatment process. The apparatus includes: a side stream storage tank in which side stream is stored; a reaction tank in which a crystallized product of phosphorous is generated by a phosphorous crystallization reaction occurring when the side stream supplied from the side stream storage tank, a first agent supplied from a fist agent tank, and a second agent supplied from a second tank react to one another; and a precipitation tank which separates the crystallized product of phosphorous, generated in the reaction tank, from upper cleaned water.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a control apparatus for a phosphorus-

More particularly, the present invention relates to a method for recovering and recycling a high concentration phosphorus contained in a reflux water generated in a wastewater treatment plant in the form of phosphorous oxide and recycling it, To the total number of revolutions and the number of revolutions of the total number of people to control the amount of the total person at a certain level.

In the wastewater treatment plant, the dehydration filtrate generated after the centrifugal dehydrator and the concentrate filtrate generated after concentration include the high concentration of phosphorus, so that the burden is increased in the reflux water treatment process and the scale in the dehydration filtrate pipe is generated Is urgent.

Generally, it is known that the concentration of total phosphorus in the recirculating water is more than 100 mg / L, which increases the load during the recycle water treatment process. Especially, in the existing belt dehydrator, the conversion of the centrifugal dehydrator causes scale formation during the sludge treatment process in most sewage treatment plants. It is becoming a problem.

Struvite (or Magnesium Ammonium Phosphate) precipitation has been used individually in the wastewater treatment pretreatment stage as a part of the process for high concentration nitrogen removal. However, excessive chemical cost is required and phosphorus crystallization and precipitation reaction And there was a difficulty in separation of crystallization and number of symbols.

On the other hand, it is expected that recycling of factor resources is expected to be realized if we rely on imports from domestic consumption and reuse through recycling in recycling.

The apparatus for counter current water according to the present invention aims at reducing the load of counter current by crystallizing phosphorus in counter current water such as a dehydrated filtrate generated in a sewage treatment facility.

According to an aspect of the present invention, there is provided an apparatus for controlling reflux water generated in a wastewater treatment process, comprising: a reflux water reservoir in which a reflux water is stored;

A reaction tank in which a reflux water supplied from the reflux water storage tank reacts with a first chemical supplied from a first chemical tank and a second chemical supplied from a second chemical tank to cause a phosphorus crystallization reaction to generate phosphorus oxide;

And a sedimentation tank for separating the phosphorus produced from the reaction tank from the supernatant.

At this time, a storage tank in which phosphorous oxide generated in the settling tank is stored, And a circulation tank in which the number of generated symbols is stored.

The controller may further include a control unit for calculating a concentration of total phosphorus (TP) of the influent water flowing in the storage tank and a pH for phosphorus crystallization, and the first and second drugs Can be determined.

Preferably, the control unit determines a circulation amount of the phosphorus content generated in the sedimentation tank to the reaction tank and a discharge amount of the storage tank.

The control unit controls the circulation amount of the number of symbols generated in the settling tank to the reaction tank and the amount of the discharged amount to the discharge tank,

When the total phosphorus concentration of the symbol number is higher than the reference value (TP> A) by the total phosphorus concentration (TP) reference value (A), the symbol number flows into the reaction tank again to cause the phosphorusation reaction to take place, It is preferable to flow out to the outlet tank (T-105) when TP <A is lower than the reference value.

The phosphorus load is reduced by recovering phosphorus at a high concentration contained in the reflux water such as the dehydrated filtrate and concentrated filtrate according to the present invention.

    Also, in this process, the total concentration of the number of symbols can be adjusted to a desired value by utilizing the minimum concentration lower limit value to the number of symbols generated after the crystallization reaction.

In addition, since the phosphorous crystallization product generated from the recirculating water recovery system can be utilized as a roadside or fertilizer (compost), it can reduce the cost of sewage treatment process, reduce sludge treatment cost, and provide economical effect of utilization of phosphorus crystallization.

1 is an exploded perspective view of a louver according to an embodiment of the present invention.

Before describing the present invention in detail, it is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the scope of the invention, which is defined solely by the appended claims. shall. All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise stated.

Throughout the description and claims, unless the context requires otherwise, the word "comprise" is intended to include the stated article, step or group of articles, and steps; It is not intended to exclude an object, a step, or a group of objects, or a group of steps.

On the contrary, the various embodiments of the present invention can be combined with any other embodiments as long as there is no clear counterpoint. In particular, any feature that is indicated to be advantageous or advantageous may be combined with any other feature or feature that is indicated to be advantageous or advantageous.

Preferred embodiments of the present invention will be described in detail with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a process diagram of a counter current apparatus for use in an embodiment of the present invention; FIG.

According to this, the counter current water treatment apparatus of the reflux water is composed of a reflux water storage tank T-103, a first chemical tank T-101, a second chemical tank T-102, a reaction tank R- 104, a storage tank T-106, a discharge tank T-105, and a control unit C-100.

The recirculating water storage tank (T-103) is a tank in which recycle water including high concentration phosphorus such as dehydrated filtrate generated after centrifugal dehydrator and concentrate filtrate generated after concentration is stored in the wastewater treatment process.

The first drug tank T-101 stores and supplies calcium chloride (CaCl ₂ ) or magnesium chloride (MgCl ₂ ), and the second drug tank T-102 stores sodium hydroxide (NaOH) It is a tank. The chemicals used in the first drug tank (T-101) are exemplified by calcium chloride or magnesium chloride as an example, but not limited as long as they contain calcium or magnesium in large amounts.

The reaction tank R-101 is charged with the reflux water supplied from the reflux water storage tank T-103 and the calcium chloride (CaCl ₂ ) or the magnesium chloride (MgCl ₂ ) supplied from the first chemical tank T- (T-102) is a reaction tank causing a typical reaction as shown in the following Chemical Formula 1 to cause a crystallization reaction.

[Chemical Formula 1]

5Ca ²⁺ + 3PO ₄ ^3- + OH ^- ↔ Ca ₅ (PO ₄ ) ₃ (OH)

For example, Ca ₅ (PO ₄ ) ₃ (OH) 2, which is produced in the crystallization reaction using the calcium chloride in the phosphorus crystallization reaction tank (R-101) by the crystallization reaction, to be.

In the settling tank (T-104), phosphorus crystallization and symbol water are separated. Crystalline phosphorus precipitates and sinks to the bottom, and the symbol number is located at the top.

The storage tank T-106 stores the phosphorus transferred from the settling tank T-104 and the discharge tank T-105 stores the symbol water discharged from the settling tank T-104.

The control unit C-100 automatically controls the total number of rings and the total number of persons. First, the control unit determines the amount of calcium chloride and sodium hydroxide supplied to the reaction tank in consideration of the total phosphorus (T-P) concentration of the influent water flowing in the half-cycle water storage tank (T-105) and the optimum pH for phosphorus crystallization.

Further, the control unit C-100 controls the circulation and discharge of the phosphorus content, the circulation and the discharge amount of the symbol number.

The control unit C-100 determines the amount of the phosphorus compound separated from the sedimentation tank T-104 to be returned to the phosphorus-crystallization reaction tank R-101 and the amount to be introduced into the storage tank T-106. The amount of circulation from the settling tank (T-104) to the crystallization tank (R-101), which is in turn, is the seed material capable of inducing the crystallization reaction. As a result of operating through the examples, it was found that the amount (circulating exchange rate) of the crystalline product to the reaction water (1Q) in the reaction tank (R-101) was preferably 0.01 to 0.02Q, The net exchange rate of the crystallized cargo can be adjusted, and the remaining crystallized cargo is discharged to the storage tank.

The control unit C-100 causes a part of the symbol number to be circulated back to the crystallization reaction tank R-101 and the remainder is supplied to the discharge tank. The control unit C- (R-101), the total phosphorus concentration of the water is lower than the reference value (TP-A), and the total phosphorus concentration of the water is lower than the reference value (TP = A), it is discharged to the discharge tank (T-105).

As a result, it is possible to select the optimal total phosphorus concentration in the symbol water through the sewage water system, so that the total phosphorus concentration can be reduced to 5 mg / L or less, which will not cause a load increase in the reflux water treatment process or the sewage treatment process It is expected.

Hereinafter, a method of operating the total number of yarns and total number of yarn counting devices according to the present invention will be described.

The counterflow water flows into the reaction tank (R-101) by the pump (P-103) in the storage tank (T-105) in which the counterflow water such as the dehydrated filtrate is stored. In the first chemical tank T-101, NaOH for pH adjustment is supplied through the pump P-101. In the second chemical tank T-102, calcium chloride for phosphorus crystallization is supplied to the pump P- Lt; / RTI &gt; Sodium hydroxide and calcium chloride are controlled so that the supply amount is determined according to a predetermined pH for predetermined phosphorus crystallization and a concentration of a counter current of the storage tank (T-105).

Calcium-based phosphorous compound is produced in the reaction tank (R-101) by the crystallization reaction and is separated into phosphorus compound and phosphorus compound in the precipitation tank (T-104) -105) to the reaction tank (R-101), and the remaining crystals are introduced into the storage tank (T-106).

The number of symbols is calculated by using the symbol water circulation pump (P-106) again in the reaction tank (R-101) when the total phosphorus concentration of the symbol number is higher than the reference value (TP> A) (T-105) when the total phosphorus concentration of the symbol number is lower than the reference value (TP = A).

At this time, a timer (timer) of the phosphorus transferring circulation pump P-105 and the phosphorus discharge pump P-104 according to the phosphorus crystallization reaction in the reaction tank R-101, And discharge control.

In addition, even in the case of the symbol water circulation, the rotation speed of the circulation pump (P-106) can be adjusted according to the inflow water flow rate and the reaction characteristics to enable the control of the symbol water circulation.

Table 1 summarizes the number of embroidery cycles and the number of embroidery cycles according to the number of yarn counts and the total number of yarn counting devices according to the present invention.

Reflux water (dehydrated filtrate) Symbol water exchange rate 0Q 0.5Q 0.7Q 0.9Q Total phosphorus concentration 80 mg / L 2.3 mg / L 2.6 mg / L 1.8 mg / L 3.6 mg / L

According to this, when the circulating water inflow is 1Q, the circulating circulating water circulation tends to be 0.5Q, that is, when the circulation of half of the influent circulates, the concentration of the total influent tends to be slightly higher than that of the circulating water (0Q) , The total phosphorus concentration decreased to 1.8 mg / L during the circulation of the embryo, and increased again to 3.6 mg / L when the embryo circulation was 0.9Q. Therefore, in this experimental example, 0.7Q is appropriate for symbol circulation. When the proper circulation rate is achieved, more than 1 ~ 3% of the total can be recovered. In this case, it is expected that the yield will be 95% or more depending on the nature of the recirculation.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the present invention is not limited to the disclosed exemplary embodiments, Modifications are within the scope of the present invention.

The scope of the present invention is defined by the following claims, and is not limited to the description of the specification, and all variations and modifications falling within the scope of the claims are included in the scope of the present invention.

R-101: Reactor
T-103: Rebound water storage tank
T-104: Settling tank
T-101: First medicine tank
T-102: Second drug tank
T-105: Discharging tank
T-106: Storage tank
C-100:

Claims (5)

An apparatus for treating reflux water generated in a wastewater treatment process,
A recirculating water reservoir in which the recirculating water is stored;
A reaction tank in which a reflux water supplied from the reflux water storage tank reacts with a first chemical supplied from a first chemical tank and a second chemical supplied from a second chemical tank to cause a phosphorus crystallization reaction to generate phosphorus oxide;
And a sedimentation tank for separating the phosphorus product produced in the reaction tank from the supernatant water. The method according to claim 1,
A storage tank in which phosphorous oxide generated in the settling tank is stored, and a discharge tank in which the number of symbols generated in the settling tank is stored. 3. The method of claim 2,
Wherein the number of rings and the total phosphorus control device further comprise a controller, wherein the controller calculates a concentration of total phosphorus (TP) and a pH for phosphorus crystallization of the influent water flowing in the storage tank, The number of revolutions of the rebound water and the total person control device. The method of claim 3,
The control unit
A circulating amount of the refined water for determining the amount of circulation of the phosphorus-containing substance generated in the settling tank to the reaction tank and the amount of the discharged amount of the storage tank; 5. The method of claim 4,
Wherein the control unit controls the circulation amount of the number of symbols generated in the settling tank to the reaction tank and the amount of the discharged amount to the discharge tank,
When the total phosphorus concentration of the symbol number is higher than the reference value (TP> A) by the total phosphorus concentration (TP) reference value (A), the symbol number flows into the reaction tank again to cause the phosphorusation reaction to take place, (TP <A) flows into the circulation tank (T-105), the number of revolutions of the counterflow and the total number of inlets.

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