JP2002066207A - Device for injecting chemical liquid - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device for injecting a chemical liquid which can surely prevent the excess injection of the chemical liquid and control an injection ratio precisely at a target value. SOLUTION: The device has a chemical liquid storage tank, a first flow rate adjustment means for adjusting the flow rate of the chemical liquid supplied from the storage tank, a measuring tank which receives the chemical liquid from the storage tank temporarily and detects the present quantity of the housed chemical liquid, a second flow rate adjustment means for adjusting the flow rate of the chemical liquid injected from the measuring tank into raw water, and a control means for controlling the first and second flow rate adjustment means to keep a detected value at a prescribed value set in advance or within a prescribed range based on the detected value from the detection means.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a coagulant or the like suitable for use in water treatment such as surface water such as river water or lake water as a raw water or solid-liquid separation treatment of industrial water or waste water. The present invention relates to a drug solution injection device.

[0002]

2. Description of the Related Art In water purification treatment and wastewater treatment, it is necessary to remove suspended substances in raw water and treat the treated water to a treatment water having a predetermined turbidity or less. There are many. When performing coagulation sedimentation treatment, usually,
Aggregation and precipitation are performed using an inorganic coagulant and a polymer coagulant (especially an organic polymer coagulant) as a chemical solution for coagulation.

As described above, when the coagulant is injected into the water to be treated, particularly when the organic polymer coagulant is injected, it is required to control the injection rate strictly. For example, when an acrylamide-based organic polymer flocculant is used for water purification treatment, the presence of an acrylamide monomer, which is a mutagenic substance, becomes a problem. Therefore, the injection rate of the acrylamide-based organic polymer flocculant is limited in order to suppress the amount of the monomer in the water to be treated. In Japan, the Water Law
1 mg / L is defined as the maximum injection rate.

More specifically, the monomer concentration in the purified water must be less than 0.00005 mg / L. Therefore, when 1 mg / L of the acrylamide-based organic polymer flocculant is injected, the monomer concentration becomes 0.000 / L.
The monomer content in the polymer flocculant that is less than 05 mg / L is less than 0.005% (solid). Conversely, if the monomer content is low, it is possible to increase the injection rate of the organic polymer flocculant, but in practice, the maximum injection rate is specified as described above. Therefore, when actually injecting the polymer flocculant, it is necessary to prevent excessive injection even if it is mistaken. As the method, for example, as described in Japanese Patent Publication No. 7-32902, a method is known in which a signal of a flow meter is pulse-counted and used for control, or control is performed by an automatic valve.

[0005]

However, in such a method, when the polymer flocculant is injected, even if a flow meter is used or control using an automatic valve is used alone or in combination, failures occur at the same time. If it does, control is lost.

For example, a signal from a flow meter is used for controlling a pump output to control a constant injection rate, or a constant flow valve is further provided to control both an electric signal and a constant flow valve. Is conceivable. In that case,
Even if only one of them fails and the flow rate becomes excessive, the control of the other is maintained. However, unfortunately, if both controls fail and the flow rate becomes excessive, the injection rate may be higher than the above-described maximum injection rate (for example, 1 mg / L). Further, the constant flow valve has a problem that the range of the flow rate that can be controlled by using the valve is narrow. In the case of a monitor using a flow meter, the accuracy of the flow meter itself becomes a problem.
It is difficult to control a very small flow rate such as / L with high accuracy.

Further, when the pump is operated at a maximum output of 1 mg /
There is also a method of selecting the value to be L, but in that case, it becomes impossible to control the injection of the polymer flocculant in detail with respect to the fluctuation of the flow rate of the raw water. To cope with fluctuations in the flow rate of raw water, it is possible to arrange multiple coagulant injection pumps side by side and control the number of operating pumps. However, doing so increases the size of the entire water treatment equipment, increases equipment costs, and complicates control. And other problems.

Accordingly, an object of the present invention is to prevent a chemical solution such as a polymer flocculant from being injected excessively into a water to be treated more reliably and to control the injection rate to a target value with high accuracy. It is an object of the present invention to provide a liquid injector.

[0009]

In order to solve the above-mentioned problems, a chemical solution injection device according to the present invention is a device for injecting a chemical solution into water to be treated, comprising a chemical solution storage tank and a chemical solution delivered from the chemical solution storage tank. A flow rate adjusting means for adjusting the flow rate of the liquid, a measuring tank provided with a means for temporarily receiving the chemical liquid from the chemical liquid storage tank and detecting the current storage amount, and a method for measuring the amount of the chemical liquid injected into the water to be treated from the measuring tank. Second flow rate adjusting means for adjusting the flow rate, and the first flow rate adjusting means such that the detected value is maintained within a predetermined value or a predetermined range based on a detection value from the storage amount detecting means, and And control means for controlling the second flow rate adjusting means.

As the first flow rate adjusting means and the second flow rate adjusting means, a pump capable of adjusting a flow rate,
And / or a flow control valve capable of adjusting the flow rate can be used. Further, as the storage amount detecting means in the measuring tank, a means for detecting the level of the chemical solution stored in the measuring tank, a means for detecting the weight, or the like can be used. As the liquid level detecting means, an electrode type or ultrasonic type liquid level meter, or a liquid level meter using an optical sensor can be used.
As the weight detecting means, means for measuring the weight of each measuring tank using a load cell or the like and detecting a value obtained by subtracting the weight of the empty measuring tank from the measured value can be used. The value detected by the weight detecting means can be easily converted into a liquid level position of the stored chemical solution. From this aspect, the weight detecting means also has the function of the liquid level detecting means.

The measuring tank is provided with an overflow line connected to the chemical storage tank, and when an excessive flow rate of the chemical is supplied from the chemical storage tank to the measuring tank and the liquid level in the measuring tank rises excessively. Is preferably returned to the chemical storage tank by overflowing.

The capacity of the measuring tank is not particularly limited, but is set to a capacity of 3 to 60 seconds with respect to the flow rate of the chemical solution injected into the water to be treated via the second flow rate adjusting means. Is preferred. By setting in this way, even if only the supply of the chemical liquid by the second flow rate adjusting means becomes excessive and the state is maintained for some reason, the inside of the measuring tank is emptied in a short time. This can prevent a situation where excessive injection is continued. If the capacity of the measuring tank is less than 3 seconds, it may be difficult to maintain the control state according to the present invention when the liquid level fluctuation becomes relatively large. With a capacity exceeding 60 seconds,
If an over-infusion occurs for some reason as described above, the duration of the state may be too long.

Further, in the drug solution injection device of the present invention,
In addition to the storage amount detecting means in the measuring tank, a flow rate detecting means (flow meter) may be provided as a backup in the chemical solution injection line provided with the second flow rate adjusting means.
In this case, the control means can control the first and second flow rate adjustment means using the detection value from the flow rate detection means in addition to the detection value from the storage amount detection means, so that the excessive injection of the drug solution can be performed more reliably. Can be prevented. In addition, even when the first and second flow rate adjusting means simultaneously supply excessively at the same flow rate, the excessive injection amount can be detected by the flow rate detecting means, thereby preventing actual excessive injection from occurring. it can.

In the above-described chemical liquid injector according to the present invention, the first liquid is stored in the measuring tank for temporarily receiving the chemical from the chemical liquid storage tank (for example, the level of the liquid surface).
When the balance between the inflow amount into the measuring tank through the flow rate adjusting means and the outflow amount from the measuring tank through the second flow rate adjusting means is detected, and either one is excessively large or too small. In this case, the state is accurately detected as a change in the amount stored in the measuring tank. Therefore, the first and second flow rate adjusting means are controlled so as to suppress this variation, that is, to control the value detected by the accommodation amount detecting means within a predetermined value or a predetermined range. It is prevented that one of them becomes too large or too small, and in particular, that one of them is not too large, so that excessive injection of the drug solution is prevented.

When both of the first and second flow rate adjusting means have a predetermined flow rate, the balance between the two is adjusted to a predetermined state by detecting the capacity of a measuring tank interposed therebetween. And it can be constantly monitored that the good balance is lost. Therefore, high-precision flow injection can be stably continued.

In the control according to the present invention, only when the supply is excessive at the same flow rate at both the first and second flow rate adjusting means at the same time, it is not possible to cope with only the information from the capacity detecting means. However, the occurrence of such a state is extremely low in probability. Even in such a case, if a flow rate detecting unit is provided in the chemical liquid injection line for the water to be treated, control can be performed based on the information, and excessive injection can be prevented. Can be.

[0017]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a case where a chemical solution injection device according to one embodiment of the present invention is applied to injection of a polymer flocculant in a flocculation / sedimentation filtration device. In FIG. 1, raw water (water to be treated) 1 is mixed in a mixing tank 2.
And the inorganic flocculant 3 is injected into the mixing tank 2 via the pump 4. In the mixing tank 2, the water 1 to be treated and the injected inorganic coagulant 3 are stirred by a stirrer 6 driven by a motor 5, and suspended substances in the water 1 to be treated are combined with the inorganic coagulant 3. Agglomerated into the form of fine flocs.

Subsequently, the water to be treated 1 is sent to a flocculation tank 7 where a polymer flocculant 8 is injected and stirred by a paddle type stirrer 9 to grow the fine flocs into coarse flocs. For injecting the polymer coagulant 8 as the chemical solution, the polymer coagulant injection device 10 as the chemical solution injection device according to the present invention is used.

The polymer coagulant injection device 10 has a chemical storage tank 11 storing a polymer coagulant 8 to be injected into the water to be treated, and a polymer coagulant 8 delivered from the chemical storage tank 11.
And a first chemical liquid pump 12 as first flow rate adjusting means for adjusting the flow rate. First chemical liquid pump 1
By 2, the polymer flocculant 8 from the chemical solution storage tank 11 is sent into the measuring tank 14 via the supply line 13.

The measuring tank 14 has a means for detecting the amount of the polymer flocculant 8 received in the measuring tank 14.
In this embodiment, an ultrasonic level gauge 15 is provided, and a detection signal from the level gauge 15 is sent to a sequencer 16 as control means. The measuring tank 14 is provided with an overflow line 17 at an upper part thereof.
1, the polymer flocculant 8 overflowing in the measuring tank 14 is returned to the chemical liquid storage tank 11.

The flow rate of the polymer flocculant 8 from the measuring tank 14 is adjusted by a second chemical liquid pump 18 as a second flow rate adjusting means for adjusting the flow rate of the polymer flocculant 8, and the injection line 19 Is injected into the water 1 to be treated in the coagulation tank 7 through the coagulation tank 7. In this embodiment, a flow meter is provided at a position on the downstream side of the second chemical pump 18 of the injection line 19 as flow rate detection means for detecting the flow rate of the polymer flocculant 8 injected through the injection line 19. 20 are provided.

In this embodiment, the first and second chemical liquid pumps 12, 18 are controlled by controlling their own rotation speeds (for example, automatic control using an inverter or the like, or manual control). The supply amount and injection amount of the polymer flocculant 8 can be controlled. For example, a constant flow pump is used, a separate flow control valve is provided, and the first and second flow control means are controlled by the flow control valve. It may be configured. Further, it is also possible to configure first and second flow rate adjusting means by providing a flow rate adjusting pump and a flow rate adjusting valve together. In the present embodiment, the actual injection amount of the polymer flocculant 8 into the flocculation tank 7 is controlled by the second chemical liquid pump 18. On the other hand, the capacity is appropriately set from the capacity for 3 to 60 seconds.

The sequencer 16 as a control means controls the liquid level of the measuring tank 14 to be maintained at a predetermined level based on the detection signal of the liquid level gauge 15, or
The first chemical pump 12 and the second chemical pump 1 are maintained so as to be maintained within a predetermined liquid level range set in advance.
8 is controlled. Further, in the present embodiment, the first and second chemical liquid pumps 12 and 18 can be controlled with reference to the detection value from the flow meter 20 in addition to the detection signal from the liquid level gauge 15.

The treated water having coarse flocs formed in the flocculation tank 7 is then sent to a sedimentation tank 21 where the flocs are settled and separated. The sedimentation tank 21 is provided with a partition wall 22 for inverting the water to be treated from a downward flow to an upward flow, and an inclined plate 23 for promoting the separation of flocs and suppressing the outflow of flocs.

The settling water from the settling tank 21 is sent to a filtering device 24 and is filtered by passing through a filter layer 25 formed of sand or the like.

The treated water from the filtration device 24 is taken out as purified water 26. In this embodiment, the extracted purified water 2
6 is temporarily stored in a purified water tank 27, and the purified water in the tank 27 is sent to the next step or the like as final treated water 28. From the bottom of the water purification tank 27, the tank 2
7 is used as backwash water for the filtration device 24,
, So that it can be supplied to the filtration device 24.

The control of the polymer coagulant injection device 10 in the coagulation / sedimentation filtration device configured as described above will be described. Basically, the pump flow rates of the first and second chemical liquid pumps 12 and 18 are both adjusted to a predetermined value. For example, automatic control using an inverter or the like may be used, or manual setting may be used. Here, the predetermined flow rate may be set by using the performance curve of the pump, but it is desirable to measure the actual flow rate and confirm it based on the calibration curve.

There is no problem if both units are operating at an accurate flow rate, but the following measures can be taken in the case where the flow rate of either or both units does not come out accurately.

When the supply of the first chemical liquid pump 12 becomes excessive, the liquid level of the intermediate measuring layer 14 gradually rises from a predetermined value, and this can be detected by the liquid level gauge 15. This may be detected and the flow rate of the first chemical liquid pump 12 may be corrected based on a signal from the sequencer 16. In addition, due to the overflow of the measuring tank 14, it is possible to prevent an excessive supply.

When the supply of the second chemical liquid pump 18 becomes excessive, the liquid level in the measuring tank 14 gradually falls below a predetermined value, and this can be detected by the liquid level gauge 15. This may be detected and the flow rate of the first chemical liquid pump 18 may be corrected based on a signal from the sequencer 16. In this case, for example, by issuing an alarm and performing an emergency stop, excessive injection of the polymer flocculant 8 can be appropriately prevented. In addition, by appropriately setting the capacity of the measuring tank 14 (by setting the capacity corresponding to the injection flow rate for 3 to 60 seconds as described above), the measuring tank 14 is set.
In this case, over-injection hardly occurs because the pressure is reduced within a few minutes.

When the two pumps 12 and 18 simultaneously supply excessively, if the flow rates are not the same, the liquid level rises or falls, and this can be detected by detecting this with the liquid level gauge 15. Becomes In this case, for example, by issuing an alarm and performing an emergency stop, excessive injection of the polymer flocculant 8 can be appropriately prevented.

When the injection rate of either of the pumps 12 and 18 decreases, the liquid level rises or falls, so that it can be detected by detecting this with the liquid level gauge 15. In this case, no over-injection occurs, so that there is no problem associated with over-injection.

Therefore, it is impossible to cope only with the case where the two pumps 12 and 18 supply excessively at the same flow rate at the same time. However, such a state is extremely low in probability. In such a state, an excessive injection amount can be detected by providing the flow meter 20 on the outlet side of the second chemical liquid pump 18 as in the present embodiment, so that the signal from the sequencer 16 can be detected. Can be controlled to prevent or correct the state.

As described above, the control is basically performed based on the signal from the liquid level gauge 15, and in a specific case, the control is also performed with reference to the signal from the flow meter 20, whereby the coating of the polymer flocculant 8 is performed. Excessive injection into the treated water can be prevented, and normal injection operation at a predetermined injection rate can be accurately and stably continued.

[0035]

[Experiment conditions]

・ Raw water flow rate: 200 m ³ / day ・ Inorganic flocculant mixing tank: 555 L effective volume (residence time 4 minutes), with stirrer ・ Flocculation tank: horizontal paddle system (residence time 30 minutes) ・ Precipitation tank: 40 minutes residence time Surface load rate 10 mm / min. Filtration device: tower diameter 1200 mm, water flow rate 150 m / day, filter layer composition Silica sand: height 600 mm ・ raw water turbidity: 4 to 300 degrees (average 8.0 degrees) ・ raw water pH: 7.2 to 7.5 ・ Inorganic coagulant: PAC [polyaluminum chloride] (injection in proportion to raw water turbidity) ・ Organic polymer coagulant: 0.1% solution of acrylamide-based anionic polymer coagulant ・ First Liquid pump with inverter: Maximum use flow rate 138.8 mL / min with inverter Discharge rate 10-150 mL / min ・ Measurement tank: With ultrasonic level gauge Effective capacity 16.2 mL (17.0 mL overflow) Maximum water volume and maximum injection rate 8.6 seconds residence time (0.1% solution was injected so that the amount of polymer flocculant added was 1 mg / L for 200 m ³ / day of treated water) ・ Second chemical pump: maximum use with inverter Flow rate 138.8 mL / min Discharge rate 10-150 mL / min

When operated under the above conditions, excessive injection of the polymer flocculant could be properly prevented, and operation could be stably performed for a long time at a predetermined injection rate.

In the above embodiment and the above embodiment, the polymer coagulant injecting apparatus has been described. However, the present invention is not limited to this, and is applicable to injecting any chemical solution which should prevent excessive injection into the water to be treated. It is possible.

[0038]

As described above, according to the chemical liquid injector of the present invention, it is possible to reliably prevent the excessive injection of the chemical liquid into the water to be treated, particularly the excessive injection of the polymer flocculant, and The injection rate can be accurately and stably controlled to the target value.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of a water treatment apparatus to which a chemical liquid injector according to an embodiment of the present invention is applied.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Raw water (processed water) 2 Mixing tank 3 Inorganic coagulant 4 Pump 5 Motor 6 Stirrer 7 Coagulation tank 8 Polymer coagulant 9 Stirrer 10 Polymer coagulant injection device as a chemical liquid injection device 11 Chemical liquid storage tank 12 First flow rate First chemical liquid pump as adjusting means 13 Supply line 14 Measuring tank 15 Ultrasonic liquid level gauge as capacity detecting means 16 Sequencer as control means 17 Overflow line 18 Second chemical liquid as second flow rate adjusting means Pump 19 Injection line 20 Flow meter as flow rate detecting means 21 Precipitation tank 22 Partition wall 23 Inclined plate 24 Filtration device 25 Filter layer 26 Purified water 27 Purified water tank 28 Final treated water 29 Pump

Claims (7)

[Claims] 1. A device for injecting a chemical solution into water to be treated, comprising a chemical solution storage tank, first flow rate adjusting means for adjusting a flow rate of the chemical solution sent from the chemical solution storage tank, and a method for temporarily storing the chemical solution from the chemical solution storage tank. A measuring tank provided with means for receiving and detecting the current storage amount, second flow rate adjusting means for adjusting the flow rate of the chemical solution injected from the measuring tank into the water to be treated, and detection from the storage amount detecting means The first value so that the detected value is maintained within a predetermined value or a predetermined range based on the value.
Control means for controlling the flow rate adjusting means and the second flow rate adjusting means. 2. The chemical liquid injector according to claim 1, wherein the first flow rate adjusting means and the second flow rate adjusting means each comprise a flow rate adjustable pump and / or a flow rate adjusting valve. 3. The storage amount detection means comprises a liquid level detection means or a weight detection means of a chemical solution stored in a measuring tank.
The liquid injector according to claim 1. 4. An overflow line connected to the chemical storage tank is provided in the measuring tank.
4. The liquid injector according to any one of claims 3 to 3. 5. The capacity of the measuring tank is 3 to 60 with respect to the flow rate of the chemical solution injected through the second flow rate adjusting means.
The drug solution injection device according to any one of claims 1 to 4, wherein the drug solution injection device is set to a capacity for seconds. 6. A flow rate detecting means is provided in a chemical liquid injection line provided with the second flow rate adjusting means, and the control means detects the flow rate from the flow rate detecting means in addition to the detection value from the storage amount detecting means. The drug solution injection device according to any one of claims 1 to 5, wherein the first flow rate adjusting means and the second flow rate adjusting means are controlled using a value. 7. The drug solution injector according to claim 1, wherein the drug solution comprises an acrylamide-based organic polymer coagulant.