KR20050063259A - A apparatus and method for real time monitoring the value of concentration contact time(ct) in the chlorine-disinfection process - Google Patents

Abstract

The present invention provides an chlorine using an on-line residual chlorine meter, an on-line flow meter, and an on-line water level meter for efficient operation and management of the chlorine disinfection process applied in a general water treatment process. By analyzing the flow rate and residual chlorine for the influent of the disinfection process, the data is collected and made into a database, and the disinfection performance analyzed through the calculation of the collected data is displayed to the operator to determine the operation status of the disinfection process. The present invention provides an apparatus and a method for grasping the operation status of a chlorine disinfection process in real time by generating an alarm when an adequate disinfection capability is not obtained.

Description

A APPARATUS AND METHOD FOR REAL TIME MONITORING THE VALUE OF CONCENTRATION CONTACT TIME (CT) IN THE CHLORINE-DISINFECTION PROCESS}

The present invention relates to the field of water treatment, and more particularly, to an apparatus and method for efficient real-time monitoring of the disinfection process that is used as a core process for the removal of pathogenic microorganisms. The present invention monitors the treated water and operating conditions in real time using an on-line flow meter, an on-line water level meter, and an on-line residual chlorine concentration meter. Based on these data, analysis results of treated water quality by CT If a pre-set disinfection threshold is exceeded, an alarm is triggered to maintain the optimal chlorine disinfection process.

Disinfection processes in water treatment plants are primarily intended for the removal of pathogenic microorganisms. In general, disinfection is distinguished from sterilization which kills pathogens in that it removes pathogens to the extent that they do not cause disease caused by pathogenic microorganisms in water. The final goal of disinfection, of course, is to inactivate the waterborne microorganisms so that the water can be safely consumed. These disinfection steps can be basically divided into two types, firstly, primary disinfection to remove microorganisms below a certain concentration, and secondly, secondary disinfection to inhibit regrowth of microorganisms in the supply and drain network. to be.

The chlorine (disinfectant) injection characteristics of domestic water purification plant can be classified into pre-chlorine injection and post-chlorine injection. In the case of pre-chlorine injection, it is not the main purpose for inactivation of microorganisms. It is mainly used for the scale of water purification plant structure and moss removal. In Korea, about 43% of all water treatment plants are prechlorinated, and most of them use satisfactory residual chlorine concentration as a determinant of chlorine injection. In this case, the satisfaction of the residual chlorine concentration means determining the injection amount of the chlorine disinfectant using the residual chlorine concentration in the water treatment unit unit, that is, the end of the sedimentation basin or the filter paper inlet.

The chlorine disinfectant injection characteristics of the post chlorination process are 0.2 mg / L in spring, autumn and winter, 0.4 mg / L in summer, based on free residual chlorine to maintain residual chlorine against secondary contamination in the network. Chlorine is injected at the level of 0.4 mg / L or more regardless of season when diseases caused by waterborne microorganisms occur or are likely to occur. This control feature makes the chlorine disinfection process a treatment for secondary contamination rather than disinfection in its original purpose.

Residual chlorine monitoring, a common monitoring method for chlorine disinfection processes, monitors residual chlorine concentrations in effluents. Such residual chlorine monitoring method does not reflect the characteristics of the source water, which affects the disinfection efficiency, and does not achieve a proper disinfection effect by injecting an inappropriate disinfectant or increases the production of disinfection by-products.

Therefore, an alternative solution to such a problem needs to be sought, and the concept of disinfection can be considered as a concept to replace the existing residual chlorine control method.

In general, disinfection ability is the ability to kill microorganisms properly. CT (disinfection ability), which is the product of the concentration of disinfectant (C, mg / L) and the contact time of disinfectant and microorganism (T, min) (mg / L · min The disinfection effect should be assessed by its relationship to the killing / inactivation of waterborne pathogenic microorganisms or indicator microorganisms according to this disinfection capacity.

However, there is still no introduction of the concept of disinfection ability, which can solve the problems of the prior art in the field of water treatment, and achieve the original purpose of the chlorine disinfection process, and furthermore, chlorine disinfection contact point according to the change of inflow flow rate. The introduction of the monitoring system of the chlorine disinfection process by the change of the disinfection ability in the inside is not made either.

The present invention is to overcome the above-mentioned problems, the object of the present invention is to monitor the water quality and operation status of the on-line flow meter and on-line water level meter and online residual chlorine meter for the construction of efficient monitoring and alarm system of chlorine disinfection process The system monitors and displays the collected data in real time using the database, and develops a system that automatically generates an alarm when the treated water quality of the chlorine disinfection process exceeds or falls short of the set reference value. It is to provide a real-time monitoring device for the disinfection capability of the chlorine disinfection process aimed at the safe and stable management of the treated water.

An object of the present invention as a device for monitoring the disinfection capability (CT) of the chlorine disinfection process in a water treatment system in real time, a chlorine disinfection contact facility having a raw water inlet and a raw water outlet, installed on one side of the Chlorine disinfection contact equipment including an on-line water level meter for measuring the level of raw water flowing into the raw water inlet and stored in the chlorine disinfection contact facility, and is installed in the raw water inlet of the chlorine disinfection contact facility and flows into the raw water inlet An on-line flow meter for measuring the flow rate of raw water, an on-line residual chlorine meter for measuring residual chlorine contained in the raw water discharged to the raw water outlet by being installed in the raw water outlet of the chlorine disinfection contact facility, and the online level gauge , Respectively in the on-line flow meter and the on-line residual chlorine meter Disinfection of the chlorine by receiving a predetermined data and a disinfection capability calculation and control unit for calculating the disinfection capability of the chlorine disinfection process in real time, and the disinfection capability of the chlorine disinfection contact equipment calculated by the disinfection capability calculation and control unit And a display for displaying the disinfection capability of the process in real time.

In general, in the disinfection capability calculation and control unit, the disinfection capability is calculated in real time by the product of the residual chlorine value of the raw water flowing out of the raw water outlet and the residence time of the raw water in the chlorine disinfection contact facility, and the chlorine disinfection The residence time of the raw water in the contact facility is the ratio of the volume of raw water in the chlorine disinfection contact facility determined by the level measured by the on-line water level meter and the flow rate entering the raw water inlet measured by the on-line flow meter ( ratio).

The disinfection capability real time monitoring device of the chlorine disinfection process preferably further includes an alarm generating device connected to the disinfection capability calculation and control unit, and When the deviation from the reference value of the preset disinfection power is equal to or greater than a predetermined ratio, the disinfection power calculation and control unit controls the alarm generating device to generate an alarm.

Preferably, the predetermined ratio of the deviation between the measured disinfection ability of the chlorine disinfection process calculated in real time in the disinfection capability calculation and control unit and the reference value of the preset disinfection ability is 2% to 12%.

It is also an object of the present invention to provide a chlorine disinfecting contact facility comprising an raw water inlet and a raw water outlet and an on-line water level meter mounted on one side thereof, and an on-line respectively mounted to the raw water inlet and the raw water outlet of the chlorine disinfection contact facility. A method for real-time monitoring of the disinfection capability (CT) of a chlorine disinfection process in a water treatment system including a flow meter and an on-line residual chlorine meter, the method comprising: (a) raw water flowing into the chlorine disinfection contact facility using the on-line flow meter; Measuring the flow rate of the water, (b) measuring the level of raw water stored in the chlorine disinfection contact facility using the online level gauge, and (c) contacting the chlorine disinfection using the online residual chlorine meter. Measuring the residual chlorine contained in the raw water flowing out from the facility, and (d) in the steps (a) to (c) Comprising a step of calculating the income performance from the measured value, and (e) a method for monitoring the disinfection capability of the chlorine disinfection process in real time comprising the step of displaying the calculated disinfection capability in step (d) in real time Is achieved.

Step (d) is the ratio of the volume of raw water in the chlorine disinfection contact facility determined by the water level measured in step (b) and the flow rate flowing into the raw water inlet measured in step (a) and And, it is preferable to include the step of calculating the disinfection capacity by the product of the residual chlorine value of the raw water flowing out from the raw water outlet measured in step (c).

And (f) comparing the disinfecting power calculated in step (d) with a preset disinfection power reference value, and if the deviation of the calculated disinfection power and the predetermined disinfection power reference value in step (f) If (g) is more than a predetermined ratio may further comprise the step of generating an alarm.

Preferably, the predetermined ratio of the deviation between the calculated disinfection ability and the preset disinfection power reference value is 2% to 12%.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments will now be described in detail with reference to the accompanying drawings as examples only.

1 is a view schematically showing an apparatus for monitoring in real time the disinfection capability of the chlorine disinfection process of the water treatment system according to an embodiment of the present invention.

The chlorine disinfection contact facility 2 has a raw water inlet 1 through which raw water flows in and a raw water outlet 7 through which raw water flows out. In general, the chlorine disinfection contact facility (2) is to supply chlorine to the raw water introduced by the induction of the raw water inlet 1 to treat the raw water. The raw water inlet 1 of the chlorine disinfection contact facility 2 is equipped with an on-line flow meter 3 for measuring the flow rate flowing into the chlorine disinfection contact facility 2, and the raw water outlet 7 through which the raw water flows out. It is equipped with an on-line residual chlorine meter 6 for measuring the amount of residual chlorine contained in raw water flowing out from the chlorine disinfection contact facility 2. In addition, on one side of the chlorine disinfection contact facility (2) on-line water level meter for measuring the water level of the raw water flowing into the raw water inlet 1 and stored in the chlorine disinfection contact facility (2) as shown in FIG. 5) is mounted.

On-line measuring device mounted on chlorine disinfection contact facility (2), namely on-line flow meter (3) mounted on raw water inlet (1), on-line residual chlorine meter (6) and chlorine disinfection mounted on raw water outlet (7) On-line water level meters 5 mounted on one side of the contact facility 2 are each connected to the disinfection capability calculation and control unit 4 shown in FIG. 1.

The disinfection capability calculation and control unit 4 receives respective data measured by the on-line flow meter 3, the on-line residual chlorine meter 6, and the on-line water level meter 5, and from the received data, the raw water inlet ( Calculate the disinfecting capacity of raw water from 1).

In general, disinfection ability is defined by Equation 1 below as an ability to properly kill microorganisms.

P = C × T

P (mg / Lmin): Disinfectant

C (mg / L): residual chlorine concentration in effluent

T (min): residence time in chlorine disinfection contact facility

In addition, the residence time T of the raw water in the chlorine disinfection contact facility 2 is also defined by Equation 2 below.

T = V / Q

V (L): Volume of raw water stored in the chlorine disinfection contact facility

Q (L / min): amount of raw water flowing into the chlorine disinfection contact facility per unit time

Combining Equation 1 and Equation 2, the disinfecting ability is determined by Equation 3 below.

P = C × (V / Q)

Disinfection Capability Calculation and Control Unit 4 The disinfection capability is calculated using the data measured by the online measuring devices 3, 5, and 6 and equation (3). Of course, the volume of raw water stored in the chlorine disinfection contact facility is calculated from the water level measured by the on-line water level gauge 5.

The disinfecting power calculated in real time is displayed in real time on the display 8 connected to the disinfecting power calculation and control unit 4. Therefore, the driver of such a water treatment system can track the disinfecting ability of the raw water flowing out in real time and, if an abnormality is found, can immediately take the necessary measures.

If the deviation between the disinfecting power calculated by the disinfecting power calculating and control unit 4 and the reference value of the predetermined disinfecting power is more than a predetermined ratio, the disinfecting power calculating and control unit 4 generates the alarm shown in FIG. 1. The device 9 is controlled to generate an alarm.

Therefore, such an alarm generating apparatus enables the driver of the water treatment system to perform the necessary measures more quickly.

The predetermined ratio is preferably 2% to 12%, but most preferably 5%.

The alarm generating method according to the present invention will now be described in detail with reference to the flowchart shown in FIG. 2.

First, in step S10, the flow rate of the raw water flowing into the raw water inlet 1 of the chlorine disinfection contact facility 2 is measured using the on-line flow meter 3. In step S20, the water level of the raw water stored in the chlorine disinfection contact facility 2 is measured by the online level gauge 5. In addition, the amount of residual chlorine contained in the raw water flowing out to the raw water outlet 7 of the chlorine disinfection contact facility 2 is measured in step S30.

An income capability value is determined in step S40 by using the values measured in steps S10, S20, and S30 and equation (3). In step S50, the deviation is calculated from the reference value of the income capability calculated in step S40 and the preset income capability, and compared with the predetermined deviation value. The predetermined income parity deviation value is preferably 2 to 12%, but most preferably 5%. If the deviation value does not exceed 5%, the disinfection capability calculated in step S40 is displayed in step S70. If the deviation value exceeds 5%, an alarm is generated in step S60 and measured. Income capacity is displayed in step S70.

So far, a preferred embodiment of the present invention has been described. However, the preferred embodiments described so far should only be taken as examples. That is, those skilled in the art to which the present invention pertains will be able to derive various modifications with reference to the preferred embodiment of the present invention. Accordingly, the technical scope of the present invention should be interpreted only by the appended claims.

The present invention monitors the disinfection performance in real time by measuring the flow rate of the influent, the residual chlorine concentration of the effluent, and the level of the effluent in real time by chlorine disinfection process of the water treatment system, so that the operator can easily grasp the operation state of the chlorine disinfection process. Based on the data collected in real time, it is possible to expect a stable efficiency of the chlorine disinfection process quality by grasping the exact operating condition of the chlorine disinfection process.

In addition, the present invention proposes the optimal operating conditions to the operator by monitoring the disinfection performance value of the chlorine disinfection process in real time with the residual chlorine and inflow flow rate in the chlorine disinfection process, by comparing the set disinfection and the actual disinfection An alarm is generated when the deviation is equal to or greater than a predetermined ratio, thereby ensuring the stability and safety of the treated water and achieving an efficient operation of the chlorine disinfection process.

1 is a view showing an apparatus for monitoring in real time the disinfection capability of the chlorine disinfection process of the water treatment system according to an embodiment of the present invention.

Figure 2 is a flow chart illustrating a method for real-time monitoring of the disinfection capability of the chlorine disinfection process of the water treatment system according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

 1: raw water inlet 2: chlorine disinfection contact equipment

 3: on-line flow meter 4: disinfection power calculation and control unit

 5: online level meter 6: residual chlorine meter online

 7: raw water outlet 8: display

 9: alarm generating device

Claims (8)

Apparatus for monitoring the disinfection capability (CT) of the chlorine disinfection process in a water treatment system in real time, A chlorine disinfection contact facility having a raw water inlet and a raw water outlet, wherein the chlorine disinfection includes an on-line water level meter installed at one side of the chlorine disinfection unit to measure the level of raw water flowing into the raw water inlet and stored in the chlorine disinfection contact facility. With contact fittings, An on-line flow meter mounted on the raw water inlet of the chlorine disinfection contact facility for measuring the flow rate of raw water flowing into the raw water inlet; An online residual chlorine measuring device mounted on the raw water outlet of the chlorine disinfection contact facility to measure residual chlorine contained in the raw water flowing out to the raw water outlet; A disinfection capability calculation and control unit for receiving data measured by the on-line water level meter, the on-line flow meter, and the on-line residual chlorine meter to calculate the disinfection capability of the chlorine disinfection process in real time; And a display for receiving the disinfection capability of the chlorine disinfection contact facility calculated by the disinfection capability calculation and control unit to display the disinfection capability of the chlorine disinfection process in real time. Real-time monitoring device for chlorine disinfection process. The method of claim 1, wherein in the disinfection capability calculation and control unit, the disinfection capability is calculated in real time by the product of the residual chlorine value of the raw water flowing out of the raw water outlet and the residence time of the raw water in the chlorine disinfection contacting facility; The residence time of the raw water in the chlorine disinfection contact facility is introduced into the raw water inlet measured by the on-line flow meter and the volume of raw water in the chlorine disinfection contact facility determined according to the water level measured by the on-line water level meter. Characterized in that calculated by the ratio of the flow rate, Real-time monitoring device for chlorine disinfection process. According to claim 1 or 2, wherein the disinfection capability real-time monitoring device of the chlorine disinfection process further comprises an alarm generating device connected to the disinfection capability calculation and control unit, wherein When the deviation between the disinfection ability of the chlorine disinfection process and the reference value of the predetermined disinfection power is more than a predetermined ratio, the disinfection power calculation and control unit controls the alarm generating device to generate an alarm, Real-time monitoring device for chlorine disinfection process. The method of claim 3, wherein the predetermined ratio of the deviation between the measured disinfection ability of the chlorine disinfection process calculated in real time in the disinfection capability calculation and control unit and the predetermined reference disinfection value is 2% to 12%. Made, Real-time monitoring device for chlorine disinfection process. Chlorine disinfection contact facility including raw water inlet and raw water outlet and on-line water level meter mounted on one side thereof, on-line flow meter and online residual chlorine respectively mounted on the raw water inlet and raw water outlet of the chlorine disinfection contact facility A method for real-time monitoring of the disinfection capability (CT) of a chlorine disinfection process in a water treatment system including a meter, (a) measuring the flow rate of raw water flowing into the chlorine disinfection contact facility using the on-line flow meter; (b) measuring the level of raw water stored in the chlorine disinfection contact facility using the on-line water level meter; (c) measuring the residual chlorine contained in the raw water flowing out of the chlorine disinfection contact facility using the online residual chlorine meter, (d) calculating the income capacity from the values measured in steps (a) to (c), (e) characterized in that it comprises the step of displaying in real time the disinfecting power calculated in step (d), Method for real-time monitoring of disinfection of chlorine disinfection process 6. The flow rate of claim 5, wherein step (d) includes a volume of raw water in the chlorine disinfecting contact facility determined by the water level measured in step (b) and the raw water inlet measured in step (a). Calculating a disinfecting ability by a product of a ratio of and a residual chlorine value of the raw water flowing out of the raw water outlet measured in step (c). Method for monitoring disinfection in real time. The method according to claim 5 or 6, further comprising: (f) comparing the disinfection capability calculated in the step (d) with a preset disinfection capability reference value; And (g) generating an alarm if the deviation of the preset disinfection reference value is greater than or equal to a predetermined ratio. 8. The method according to claim 7, wherein said predetermined ratio of the deviation of said calculated disinfection capability and said predetermined disinfection capability reference value is 2% to 12%. .