JPH09290298A - Method of adjusting feed methanol quantity and aerated quantity in nitrifying/denitrifying device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate a rise in TOC concentration and a rise in nitrogen concentration due to too much or too little supply of methanol and to eliminate an increase in running cost due to excess aeration air and the deterioration of treated water quality with which a shortage of the aerated quantity is attended. SOLUTION: In a denitrification tank 2 of a nitrifying/denitrifying device 1, pH of treated liquid is detected, and based on the pH value, the feed quantity of methanol is adjusted so that the pH value in the denitrifying tank 2 may be preferably 6.8-8.5 or more preferably 7.2-7.8. In a nitrification tank 3 of the nitrifying/denitrifying device 1, pH of treated liquid is detected, and based on the pH value, the aerated quantity is adjusted so that the pH value in the nitrification tank 3 may be within a range of 6.8-7.8.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to sewage, industrial wastewater,
The present invention relates to a nitrification / denitrification device that removes ammonia nitrogen contained in organic wastewater such as human waste using biological nitrification and denitrification reactions. More specifically, it relates to a method for adjusting the amount of methanol supplied and aeration. Regarding how to adjust the quantity.

[0002]

2. Description of the Related Art Conventionally, in order to treat nitrogen-containing organic wastewater (hereinafter referred to as raw water) using a nitrification denitrification device, a biological nitrification and denitrification reaction has been used to utilize ammonia nitrogen in a nitrification tank. A method of oxidizing nitrogen to nitrate nitrogen and reducing nitrate nitrogen to nitrogen gas in a denitrification tank has been performed. Then, methanol was added to the raw water supplied to the denitrification tank to adjust the C / N ratio of the raw water, and alkali such as caustic soda was added to the liquid in the nitrification tank to adjust the pH.

The amount of methanol to be added to the denitrification tank has been determined based on the C / N ratio of raw water which has been investigated in advance. Also, regarding the aeration amount in the nitrification tank, an appropriate aeration amount may be determined in advance, or a dissolved oxygen meter (hereinafter referred to as "D
The aeration amount has been changed according to the load fluctuation of the treated water.

[0004]

However, regarding the addition of methanol in the above denitrification tank, C /
Since the N ratio fluctuates, too much methanol is added excessively, or conversely, the supply amount of methanol becomes insufficient. Then, in the former case, the TOC concentration (total organic carbon amount) of the treated water increases, and in the latter case, sufficient denitrification is not performed and the nitrogen concentration of the treated water increases.

Regarding the aeration in the nitrification tank, when an appropriate aeration amount is determined in advance, the aeration amount may become excessive or conversely insufficient due to the load fluctuation of the treated water. Become. In the former case, the running cost in the nitrification tank is high, and in the latter case, the water quality after treatment deteriorates. On the other hand, when a DO meter is used, such a problem does not occur, but D
Initial costs, running costs, and maintenance costs associated with the adoption of the O meter are required.

It is an object of the present invention to provide a wastewater treatment method in a nitrification denitrification apparatus which can eliminate the above-mentioned various inconveniences and problems.

[0007]

A method for adjusting the amount of supplied methanol according to the present invention detects the pH of a treatment liquid in a denitrification tank in a nitrification denitrification apparatus and adjusts the amount of supplied methanol based on the pH value. Is.

The denitrification reaction is as shown in the following equation.

[0009] ^{_{6NO 3 - + 5CH 3 OH →}} 5CO 2 +3
_{N 2 + 7H 2 O + 6OH} -

In this case, as the denitrification progresses, the OH ^- groups increase and the pH value rises. Therefore, it is understood that the denitrification is not progressing when the pH value in the denitrification tank decreases.

Therefore, the pH is monitored in the denitrification tank, and when the obtained pH value decreases, the supply amount of methanol increases, and when the pH value increases, the supply amount of methanol decreases.

The supply amount of methanol is preferably adjusted so that the pH value in the denitrification tank is in the range of 6.8 to 8.5, and more preferably in the range of 7.2 to 7.8. .

The method for adjusting the aeration amount according to the present invention is
The pH of the treatment liquid is detected in the nitrification tank of the nitrification denitrification device,
The aeration amount is adjusted based on the pH value.

The pH detection is based on the existing pH in the nitrification tank.
This can be done using a controller.

The nitrification reaction is as shown in the following equation.

NH ₄ ⁺ + 2O ₂ → NO ₃ ⁻ + H ₂ O + 2H ⁺

In this case, as the nitrification progresses, H ⁺ groups increase and the pH value decreases. When the aeration necessary for nitrification is not sufficiently performed and oxygen is insufficient, nitrification does not proceed, and therefore the pH value does not decrease.

Therefore, the pH is monitored in the nitrification tank, and the aeration amount is increased when the pH value does not decrease.

The aeration amount is such that the pH value in the nitrification tank is 6.8 to
It is preferable to adjust it so that it is in the range of 7.8.

Further, another method for adjusting the amount of supplied methanol according to the present invention is to detect the C / N ratio of the raw water supplied to the denitrification tank in the nitrification denitrification apparatus, calculate the detected value and supply methanol. The amount is calculated, and the supply amount of methanol is adjusted based on the calculated value.

It is preferable that the reference value of the C / N ratio after the supply of methanol in the denitrification tank is calculated in the range of 2.5 to 3.5.

[0022]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the drawings.

In each of the embodiments described below, FIG.
As shown in FIG. 3 and FIG. 5, the nitrification denitrification device (1) consists of a nitrification tank (3) for nitrifying ammonia nitrogen contained in organic wastewater containing nitrogen such as sewage, industrial wastewater, and human waste, that is, raw water, (3) Denitrification tank that denitrifies the nitrification liquid sent from (2)
And In the nitrification tank (3), aeration is performed by the blower (9), and part of the nitrification solution is circulated to the bottom of the denitrification tank (2) by the circulation pump (4).

The total volume of the nitrification and denitrification device (1) is 120 liters, and the capacities of the denitrification tank (2) and the nitrification tank (3) are each 60 liters. And the nitrification denitrification process of the raw water was performed on condition of the following.

Raw water supply amount: 60 (initial) to 480 (maximum) liters / day Actual raw water composition concentration: TOC concentration = average 80 to 100 mg / liter TN concentration = average 80 to 100 mg / liter Raw water load amount: TOC Load = 0.05 (initial) -1.0 (maximum) g / liter / day TN load = 0.05 (initial) -0.5 (maximum) g / liter-day Nitrification tank pH control: lower limit 6 .5 (Injecting 1N NaOH solution) Denitrification tank pH control: None Aeration rate: 100 liters / min (constant); Tank temperature = constant (30 ° C) Embodiment 1 As shown in FIG. ) From the denitrification tank (2) to the liquid feed pump (6) to the pH controller
(7) is connected, pH meter (8) of pH controller (7)
Is contained in the liquid in the denitrification tank (2). In this case, a pH meter
Based on the pH value of the treatment liquid in the denitrification tank (2) detected by (8), the pH controller (7) sends a signal for adjusting the supply amount of methanol to the liquid feed pump (6).

Specifically, when the pH value of the treatment liquid in the denitrification tank (2) is in the range of 7.2 to 7.8, an amount of methanol commensurate with the C / N ratio calculated in advance is constantly added. Denitrification tank
Supplied to (2). When the pH value exceeds 7.8, the supply amount of methanol is reduced by the pH controller (7), and when the pH value becomes less than 7.2,
The pH controller (7) increases the supply of methanol.

However, the present invention is not limited to the above-mentioned numerical values, and the pH value at which a sufficient amount of methanol corresponding to the C / N ratio calculated in advance is constantly supplied has an upper limit of 7.3 to The lower limit is 8.5, and the lower limit is preferably 6.8 to 7.5.

FIG. 2 compares the residual nitric acid concentration in the denitrification tank (2) in this embodiment with the residual nitric acid concentration in the conventional method in which the supply of methanol by the pH controller (7) was not adjusted. . From this result, it is recognized that the present embodiment enables denitrification treatment superior to the conventional method.

Embodiment 2 As shown in FIG. 3, a pH controller (13) is provided in a liquid feed pump (12) for sending an aqueous solution of caustic soda from an alkali tank (11) to a nitrification tank (3) and a blower (9) for aeration. ) Is connected, and the pH meter (14) is put in the liquid in the nitrification tank (3). Then, according to the pH value detected by the pH meter (14), p
The H controller (13) sends a signal to the liquid feed pump (12) to adjust the supply amount of the caustic soda solution, and
A signal for adjusting the aeration amount is sent from the controller (13) to the blower (9).

Specifically, when the pH value in the nitrification tank (3) becomes 7.5 or more, the aeration amount of the blower (9) is increased by the pH controller (13). The reference pH value is not limited to the above-mentioned 7.5, and usually a range of 6.8 to 7.8 is suitable.

FIG. 4 compares the residual ammonia concentration in the nitrification tank (3) in this embodiment with the residual ammonia concentration in the conventional method in which the aeration adjustment by the pH controller (13) was not performed. From this result, it is recognized that the present embodiment enables nitrification treatment superior to the conventional method.

Embodiment 3 As shown in FIG. 5, on the upstream side of the denitrification tank (2), a flow rate adjusting tank (1
0) is provided, and before the raw water flows into the denitrification tank (2) from the flow rate adjustment tank (10), the flow rate and C / N ratio can be detected by the flow rate monitor (15) and the C / N ratio monitor (16). Done. Flow rate monitor (15) and C / N ratio monitor (16) are arithmetic units
It is connected to (17), and a control signal is generated from the arithmetic unit (17) to the methanol feed pump (18).

Specifically, a flow monitor for raw water
The detection output from (15) and the C / N ratio monitor (16) is arithmetically processed by the arithmetic unit (17), and the amount of supply from the methanol tank (19) to the liquid feed pump (18) is calculated based on the numerical value. A signal is sent to make the adjustment.

In this embodiment, C /
Although the arithmetic processing was performed with the reference value of the N ratio being 3, the present invention is not limited to this, and the range of 2.5 to 3.5 is suitable.

The calculation process is: Ci = TOC concentration of raw water (mg / liter) Cm = TOC concentration of methanol (mg / liter) Cn = TN (ammonia) concentration (mg / liter) Qi = raw water inlet flow rate (liter / day) ) As Qm = methanol flow rate (liter / day), the supply flow rate of methanol is calculated by (Ci · Qi + Cm · Qm) / (Cn · Qi) = 3∴Qm = Qi (3Cn−Ci) / Cm.

Then, this program is input to the arithmetic unit (17), the methanol flow rate = Qm is obtained based on each data from the flow rate monitor (15) and the C / N ratio monitor (16), and the output signal is obtained. It is sent to the liquid feed pump (18) to constantly adjust the flow rate of methanol.

For the C / N ratio, measure C by T
It can be performed with an OC meter, and N can be measured with an ammonia electrode or liquid chromatography. Since denitrifying bacteria also consume methanol, the C / N ratio is approximately 2.5 to 3.
A range of 5 is good.

FIG. 6 compares the residual nitric acid concentration in the denitrification tank (2) in the present embodiment with the residual nitric acid concentration in the conventional method in which the supply of methanol by the arithmetic unit (17) is not adjusted. From this result, it is recognized that the present embodiment enables denitrification treatment superior to the conventional method.

[0039]

In the method for adjusting the amount of supplied methanol according to the present invention, even if the C / N ratio of the raw water changes, the C / N ratio is detected or the pH value accompanying the change of the C / N ratio is detected. Since fluctuations are detected and appropriate methanol is constantly supplied in the denitrification tank, problems such as an increase in TOC concentration and an increase in nitrogen concentration due to excess or deficiency of the supply amount of methanol are solved, and efficiency is improved. Denitrification can be performed.

In addition, in the method for adjusting the aeration amount according to the present invention, the pH fluctuation associated with the progress of nitrification in the nitrification tank is detected to adjust the aeration, so that the running cost is increased and the aeration amount is insufficient due to excessive aeration. Problems such as deterioration of the quality of treated water will be resolved. Further, it is not necessary to use a DO meter as in the conventional case.

[Brief description of drawings]

FIG. 1 is a flow sheet showing a first embodiment.

FIG. 2 is a graph showing changes in residual nitric acid concentration according to the same embodiment and a conventional method.

FIG. 3 is a flow sheet showing a second embodiment.

FIG. 4 is a graph showing changes in residual ammonia concentration according to the same embodiment and a conventional method.

FIG. 5 is a flow sheet showing a third embodiment.

FIG. 6 is a graph showing changes in residual nitric acid concentration according to the same embodiment and a conventional method.

[Explanation of symbols]

 1: Nitrification and denitrification device 2: Denitrification tank 3: Nitrification tank 4: Circulation pump 5, 19: Methanol tank 6, 12, 18: Liquid feed pump 7, 13: pH controller 8, 14: pH meter 9: Blower 10: Flow rate adjusting tank 11: Alkaline tank 15: Flow rate monitor 16: C / N ratio monitor 17: Arithmetic device

Claims (7)

[Claims] 1. A method for adjusting the amount of methanol supplied to a nitrification denitrification apparatus, which comprises detecting the pH of a treatment liquid in a denitrification tank of the nitrification denitrification apparatus and adjusting the amount of supply of methanol based on the pH value. Method. 2. The methanol in the nitrification denitrification apparatus according to claim 1, wherein the supply amount of methanol is adjusted so that the pH value in the denitrification tank is in the range of 6.8 to 8.5. How to adjust the supply. 3. The methanol in the nitrification denitrification apparatus according to claim 1, wherein the supply amount of methanol is adjusted so that the pH value in the denitrification tank is within the range of 7.2 to 7.8. How to adjust the supply. 4. A method for adjusting the amount of aeration in a nitrification denitrification apparatus, which comprises detecting the pH of a treatment liquid in a nitrification tank of the nitrification denitrification apparatus and adjusting the amount of aeration based on the pH value. 5. The adjustment of the aeration amount in the nitrification denitrification apparatus according to claim 4, wherein the aeration amount is adjusted so that the pH value in the nitrification tank is in the range of 6.8 to 7.8. Method. 6. The C / N ratio of the raw water supplied to the denitrification tank in the nitrification denitrification apparatus is detected, the detected value is calculated to calculate the supply amount of methanol, and the methanol is supplied based on the calculated value. A method for adjusting the amount of supplied methanol in a nitrification denitrification apparatus, which comprises adjusting the amount. 7. The methanol in the nitrification denitrification apparatus according to claim 6, wherein the reference value of the C / N ratio after supplying methanol in the denitrification tank is calculated as a range of 2.5 to 3.5. How to adjust the supply.