JP3492653B2 - Water treatment facility monitoring method and monitoring system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and system for monitoring water treatment equipment such as boiler water, cooling water for air conditioning and industry, industrial chemicals and industrial drainage, swimming pools, bathhouses and the like. Regarding

[0002]

2. Description of the Related Art Conventionally, regular inspections such as water quality inspection, residual amount inspection of each chemical, operation inspection of each equipment such as chemical injection pump, etc. are performed by a visitor of a water treatment company.
In addition to determining the presence / absence of trouble in the water treatment facility, the management of the water treatment facility was informed of how to deal with the cause of the trouble, and the water treatment facility was monitored to prevent accidents.

[0003]

However, for example, when the water quality deteriorates in the water treatment facility, it is necessary to introduce an appropriate chemical agent at an early stage to improve the water quality. Because it is done on a regular basis,
Even if there is a trouble point in the period between inspections, the trouble point is often not identified until the next inspection, which delays the determination of the presence or absence of the trouble point. . In particular, in the water quality inspection, since it is based on the analysis result for the water collection of the water treatment equipment brought in to the predetermined analysis center, it will take several days from the collection of water until the analysis result is obtained, As a result, the detection of deterioration of water quality tends to be delayed. Furthermore, even if the deterioration of water quality is detected, if the chemicals required for injection are cut off or if equipment such as the chemical injection pump is malfunctioning, it will not be possible to inject appropriate chemicals early, so the water quality The improvement of the deterioration was delayed and it was easy to develop into a big accident.

Therefore, an object of the present invention is to eliminate the above-mentioned problems, to promptly determine the presence / absence of a trouble spot, and to take an early countermeasure so as to prevent the development of a serious accident. And providing a surveillance system.

[0005]

[Structure] The characteristic structure of the invention of claim 1 is, as illustrated in FIG. 2, a data collection means for collecting the measurement management data 4 in the water treatment facility 3 through the communication means 5. 6 and the measurement management collected by the data collection means when collecting and accumulating the measurement management data 4 of the water treatment facility 3 over time via the communication means 5.
From the data, the total excluding the data that seems to be abnormal
Accumulation means 7 for accumulating the measurement management data as normal data is provided in advance, and the raw measurement management data 4a collected by the data collection means 6 and the accumulation means 7 are accumulated. based on the measurement management data 4b, there the presence or absence of trouble locations in the water treatment facility 3 to determine specific to Rutokoro. The characteristic configuration of the invention of claim 2 is the trouble.
If there is a point, what to do about the trouble point
It is about to notify the manager of the water treatment facility.

The characteristic configuration of the invention of claim 3 is, as illustrated in FIG. 3, when there is a trouble point, the cause of the trouble is sought, the countermeasure for the trouble cause is determined, and the management of the water treatment facility 3 is performed. It is about to inform the person.

A feature of the invention of claim 4 is that a fee is charged for the notification information notified to the manager of the water treatment facility.

The characteristic configuration of the invention of claim 5 is, as illustrated in FIG. 1, measurement management data 4 in the water treatment facility 3.
Data collecting means 6 for collecting data via the communication means 5.
And the data collection means for collecting and storing the measurement management data 4 of the water treatment facility 3 over time via the communication means 5.
It seems to be abnormal from the measurement management data collected in
The measurement management data excluding the data is converted to normal data.
And a storage means 7 for storing the data, and based on the raw measurement management data 4a collected by the data collection means 6 and the measurement management data 4b stored by the storage means 7, the trouble location in the water treatment facility 3 The trouble determining means 8 for determining the presence or absence of
When it is determined that there is a trouble by means of the above, a cause pursuing means 9 for pursuing the trouble cause is provided, and a coping method determining means 10 for determining a coping method for the trouble cause found by the cause pursuing means 9 is provided. Judgment means 1
There is provided an informing means 11 for immediately informing the manager of the water treatment facility of the coping method judged by 0.

As described above, the reference numerals are given for the sake of convenience in comparison with the drawings, but the present invention is not limited to the configuration of the accompanying drawings by the entry.

[Operation and Effect] According to the invention of claims 1 and 2 , since the measurement management data in the water treatment facility can be collected by the data collecting means through the communication means, the measurement management data can be obtained in real time. In addition to being able to collect, it is possible to determine whether there is a trouble in the water treatment facility by comparing the raw measurement management data collected by the data collection means with the measurement management data accumulated by the accumulation means over time. Since it is configured, it becomes possible to promptly notify the water treatment facility manager of the existence of a trouble spot and, if there is a trouble spot, the countermeasure for the trouble spot. A method of monitoring water treatment equipment that can deal with the location early and prevent it from developing into a major accident. Is now available. As a specific example, raw measurement management data in industrial wastewater, when it exceeds ± set value in the accumulated data accumulated in the accumulating means, or when it is predicted to exceed, it is determined that there is a trouble point, As a first-aid measure for the administrator who manages the discharge of industrial wastewater,
Damage can be reduced by giving an alarm to stop discharging industrial wastewater for a certain period.

According to the invention of claim 3 , in addition to being able to achieve the effect of the invention of claim 2 , when there is a trouble point, the countermeasure for the trouble cause is determined, and the manager of the water treatment facility. Therefore, it is possible to provide a treatment method in an early stage, and to provide a method for monitoring water treatment equipment that can prevent a serious accident from developing. As a specific example, when pursuing the cause of the trouble, if it is found that the cause of the trouble is due to insufficient water treatment chemical injection, the entire problem is solved by simply injecting the water treatment chemical as a remedy. Therefore, it is possible to restore the normal state without stopping the use of the water treatment equipment. Therefore, efficient use of the equipment can be maintained.

According to the invention of claim 4 , claim 2 or
In addition to being able to achieve the effects of the invention of item 3 , as a water treatment equipment monitoring company, the compensation for the water treatment equipment monitoring work is, for example, a fixed amount (monthly system or annual system, etc.) accompanying the number of monitoring days. ), But in the case of a fixed amount, even if there is no trouble, a fixed amount of money must be paid as a monitoring fee, so it is easy for the manager of the water treatment facility to feel expensive. there were. However, as in the present invention, if the occurrence of a trouble in the water treatment facility is found, and the countermeasure for the trouble is informed to the administrator of the water treatment facility, the notification information is charged, it is necessary. Since the price is paid only for the information, it makes sense for the manager of the water treatment facility. Therefore, it has become possible to provide a method for monitoring a water treatment facility that can realize satisfactory payment to a customer.

According to the invention of claim 5 , the measurement management data in the water treatment facility is collected in real time by the data collecting means via the communication means, and the trouble judging means judges the presence / absence of a trouble, and the trouble spot is identified. If it is determined that there is a problem, the cause is searched for the cause of the trouble, and the measure is judged by the measure determining means, and the notification means is immediately notified to the manager of the water treatment facility. Because you can
It has become possible to provide a water treatment equipment monitoring system capable of promptly addressing trouble spots and preventing a serious accident from developing. Further, since the work up to notifying the administrator can be automated on the system, it is possible to unmanned the work of monitoring the water treatment equipment, which reduces labor costs accordingly. A monitoring system can now be provided.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows measurement management data 4 collected through a communication means 5 in a water treatment facility 3 which handles water for air conditioning such as boiler water, cooling water for air conditioning, and water for swimming pools and water for bathhouses. The monitoring system 1 of the water treatment equipment 3 which monitors the water treatment equipment 3 by the management data 4 is shown.

The water treatment facility monitoring system 1 is shown in FIG.
As shown in FIG. 3, the data collection means 6 for collecting the measurement management data 4 in the water treatment facility 3 via the communication means 5.
And a storage means 7 for collecting and storing the measurement management data 4 of the water treatment facility 3 over time via the communication means 5, and the raw measurement management data 4a and the storage means 7 which are collected by the data collecting means 6 are stored. A cause for pursuing the cause of the trouble when the trouble determining means 8 determines that there is a trouble based on the measured management data 4b Probing means 9 is provided, and coping method judging means 10 is provided for judging a coping method for the cause of the trouble found by the pursuing cause 9. The coping method judged by the coping method judging means 10 is immediately sent to the manager of the water treatment facility 3. A notification means 11 for notifying is provided.

The water treatment facility monitoring system 1 prevents problems such as corrosion damage, scale damage, slime damage, etc. in boiler water, air conditioning water, etc., and harmful volatile substances in swimming pool water, bath water, etc. Chloramine, trihalomethane, etc.) and microorganisms / pathogenic bacteria, etc. are intended to prevent problems caused by obstacles that occur in the human body, equipment, buildings, etc. The verification monitor 15 is installed, and the measurement management data 4 from the corrosion sensor 12 scale sensor 13, the biosensor 14, etc., and the remaining amount in the tank of each drug are collected by the data collection unit 6 that collects via the communication unit 5. A remaining amount sensor 16 for verification, an operation sensor 17 for verifying the operation status of devices such as a chemical injection pump
By collecting the measurement management data 4 from the water treatment verification monitor 15 (an example of the water treatment verification monitor 15), the measurement and monitoring in the water treatment facility 3 can be performed, so that the water treatment implementation status can be confirmed and monitored in real time. It is configured as follows.

Since the data collection means 6 is configured to collect the measurement management data 4 from each water treatment facility 3 via the wired or wireless communication means 5, the analysis result can be obtained as in the conventional case. The measurement management data 4 of each water treatment facility 3 is sent to the host computer 19 of the water treatment management center 2 in real time without any time lag.
Can be collected in.

The communication means 5 uses a wire communication technology such as a telephone line or a dedicated line, and a mobile phone, a PHS or a special wireless communication technology to manage the measurement management data 4 in the water treatment equipment 3 by water treatment management. Can be sent to Center 2. At this time, for example, when the measurement management data 4 is to be transmitted from the rooftop of the building, the communication means 5 uses a wireless communication technology such as a mobile phone or PHS to transmit the measurement management data. By doing so, the work of laying a telephone line or the like by the wire communication technology is eliminated, so that the transmission of the measurement management data 4 becomes easier. Also,
As described above, the data may be directly transmitted from the water treatment facility 3 to the water treatment management center 2 via the wired or wireless communication, but the data is transmitted and received via the Internet on the way. May be.

The accumulating means 7 includes, for example, data in which the numerical values change suddenly among the measurement management data 4 collected by the data collecting means 6 and data which does not change at all even though the equipment is used. The measurement management data 4 excluding the data considered to be abnormal are regarded as normal data 4b and are accumulated over time.

The trouble discriminating means 8 compares the normal data 4b accumulated by the accumulating means 7 with the measurement management data 4 collected as the raw data 4a, and judges that the raw data 4a is abnormal. In this case, it is configured to determine that there is a trouble point. At this time, the data 4b accumulated in the accumulating means 7 to be compared in order to judge that the collected raw data 4a is abnormal is the normal data of the previous day in the same time zone as when the raw data 4a was collected, , Multiple past normal data of the same season, etc., and their normal data 4b and raw data 4a
By comparing with, it is determined whether or not the raw data 4a is abnormal.

The cause pursuing means 9 is, for example, based on the data judged by the trouble judging means 8 that there is a trouble, the data is, for example, the corrosion sensor 12, the scale sensor 13, the biosensor 14, the flow counter, the remaining amount. The sensor 16 or the actuation sensor 17 is searched to find out the cause of the trouble based on the data. For example, if the abnormal data is from the corrosion sensor 12, if the data value from the corrosion sensor 12 is low, it is determined that the anticorrosive agent is in an appropriate amount, and if the data value from the corrosion sensor 12 is too high, Judge that there is a risk of corrosion damage to equipment and buildings due to too little anticorrosive agent.

The remedy judging means 10 selects an appropriate remedy corresponding to the trouble cause found by the cause probing means 9 from a plurality of remedy data stored in the remedy judging means 10. Is configured to judge.
For example, when the amount of the anticorrosive agent is too small, as a countermeasure, it is determined that the anticorrosive agent needs to be injected, and the optimum injection amount of the anticorrosive agent is calculated from the abnormal data value.

The notifying means 11 is a countermeasure determining means 10
It is configured to immediately notify the manager of the water treatment facility 3 of the coping method determined by the above. As the notifying means 11, the manager's mobile phone can be directly called or notified by e-mail, or the Internet can be used. It is configured to notify the computer of the administrator side via the.

An example in which a corrosion sensor 12, a scale sensor 13, a biosensor 14, etc. are provided as the water treatment verification monitor 15 will be described.

The corrosion sensor 12 measures the corrosion rate of steel materials in the system, and is based on the raw measurement management data 4a collected from the corrosion sensor 12 and the measurement management data 4b accumulated by the accumulating means 7. Then, the presence or absence of a trouble location is determined by the trouble determining means 8. For example, if the measured value is high, it is determined that there is a risk of corrosion, and the cause pursuing means 9 seeks the cause of the trouble and takes a countermeasure. The determining means 10 determines the coping method,
As a coping method, the anti-corrosion agent is added / increased to prevent corrosion, and the cause of the causative factor needs to be removed at an early stage by investigating the causative factor, and the manager of the water treatment facility is immediately notified.

The scale sensor 13 measures the degree of scale generation. Based on the raw measurement management data 4a collected from the scale sensor 13 and the measurement management data 4b accumulated by the accumulating means 7, the trouble spot is detected. The presence or absence of the problem is determined by the trouble determining means 8. For example, it is determined that the higher the degree of generation, the risk of scale adhesion to the heat exchanging section, resulting in poor heat exchange, capillary closing failure, etc. The pursuit means 9 pursues the cause of the trouble, and the coping method judgment means 10 judges the coping method, and as a coping method, the scale dispersant is added / increased at an early stage to prevent the scale generation, or the circulation is circulated. In the system, concentration causes an increase in scale production,
The manager of the water treatment facility is immediately notified that it is necessary to blow it early to reduce the degree of concentration and prevent scale formation.

The biosensor 14 can determine the microbial activity in the water by measuring the amount of slime adhering to the plastic plate by replacing the amount of transmitted light with an electric signal and measuring data from the biosensor 14. Based on this, it is possible to judge the activity level that changes depending on the season, that is, the breeding rate increases in summer, and it is immediately necessary to adjust the injection amount and injection time of the necessary bactericide. Person is notified. With the above configuration, it has become possible to perform drug injection control by measuring the drug concentration, which is the most important but has not been achieved in the past.

Further, the operating load of the equipment can be determined by measuring the amount of makeup water and the amount of forcedly discharged blow water. In other words, based on the measurement management data, if the water consumption is more than calculated, it can be determined that there is water leakage or it is necessary to change the operation settings.
As a workaround, remove the cause of water leakage early,
The manager of the water treatment facility is immediately notified that it is necessary to change the operation settings. In addition, by monitoring the amount of drug used, it is possible to improve the accuracy of drug injection monitoring.

In the chemical injection pump, which is a chemical injection device for injecting the anticorrosive agent, scale dispersant, and bactericide, the presence or absence of pulsating flow is detected by detecting the pulsating pressure of the chemical injection pump, and one pulsating flow is detected. By installing a flow counter that sends a count signal once per time, it becomes possible to determine the injection amount according to the count number and measure each drug injection amount. Then, it is monitored whether or not the calculated drug is reliably injected, and based on the measurement data from the flow counter, if the drug injection amount is larger or smaller than the calculated amount, the operation setting is set. Since it is possible to determine whether there is a problem or that the pump / valve, etc. is defective, as a remedy, check whether the operation settings are correct at an early stage, and urgently check / replace the pump / valve, etc. The need for water treatment facilities is immediately notified to the manager. Also, a pulse controller that counts the number of count signals sent from the flow counter and sends one count group signal at regular intervals or measures the number of pulses received within a fixed time is installed on the outflow / outlet side of the chemical injection pump. It is possible to detect air biting phenomenon and pump malfunction by attaching to. In other words, not only is it possible to determine the injection amount of the drug by measuring the number of count group signals and the number of pulses within a fixed time, but when air is bitten, the pulsating pressure is not transmitted by the air and the pulsating flow is Since it cannot be detected, it can be determined that the air biting phenomenon is occurring, and the necessity of performing the air bleeding work is immediately notified to the manager of the water treatment facility. The pulse controller may have a configuration in which a signal transmitter and a controller are integrally formed on the outflow / outlet side of the pump, or only the signal transmitter is attached to the outflow / outlet side of the pump to control the controller. It may be configured to be provided in the control panel.

A remaining amount sensor 14 which can detect the remaining amount of the medicine in the tank is provided in each medicine tank, and the remaining quantity sensor 1
By collecting the measurement management data 4 from 6, it is possible to monitor the change in the remaining amount in each drug tank, so check the amount of drug reduction and avoid insufficiency of the injected drug ( (Because the shortage of chemicals is one of the causes of failure, it is notified to the manager of the water treatment facility that it is necessary to supply chemicals to the chemical tank as soon as possible.

The bactericide has a special probe (for example, diaphragm type polarographic electrode) whose total halogen concentration is
By using the biosensor 14 that can be replaced with an electrical signal for measurement by using, it becomes possible to determine the microbial activity in the water,
It becomes possible to handle the concentration of the bactericide as measurement control data.

By attaching a flow counter (an example of an operation sensor) to a chemical injection pump which is a chemical injection device for injecting the anticorrosive agent, scale dispersant, and bactericide, the chemical injection pump operates normally and is injected. It is possible to monitor whether or not the operation is normally performed. Further, by providing the remaining amount sensor 16 capable of verifying the remaining amount of each medicine in the tank, it is possible to monitor the change in the remaining amount in each medicine tank.

With the above structure, each water treatment facility 3
Corrosion sensor 12, scale sensor 13, biosensor 14, flow counter, residual amount sensor 1 from
6. The measurement management data 4 such as the operation sensor 17 is collected in real time, and the raw measurement management data 4a and the measurement management data 4b accumulated by the accumulating means 7 are compared with each other. , Prevent scale troubles, slime troubles, etc., and prevent troubles caused by harmful volatile substances (chloramine, trihalomethane, etc.) in swimming pool water, bath water, etc. caused by human body, equipment, buildings, etc. can do.

By automating the work up to the notification to the manager on the system, the water treatment facility monitoring system 1 can be unmanned, and the labor cost can be reduced accordingly. Therefore, it is difficult to perform the monitoring work on a 24-hour basis if it is done manually, but it becomes easy by automating the system as in the above configuration.

The measurement management data collected to monitor the water treatment facility may include various measurement items other than those described above. Specific examples of the measurement items are shown below, and the cause of trouble determined by the measurement items is shown below. And, the coping method to be notified to the manager of the water treatment facility with respect to the cause of the trouble will be described.

As the measurement management data 4, a pH measurement value can be collected. When the pH is on the acidic side, the risk of corrosion damage is likely to occur, and on the alkali side, the risk of hardness scale damage is likely to occur. Drinking water and pool water have an optimum pH range for the human body, and drainage water also has a pH range that does not affect the environment. Therefore, it is necessary to manage the pH within a set range. As a coping method, based on the measured value of pH, if it is judged to be on the acidic side, an alkaline agent is added, and if it is judged to be on the alkaline side, an acid is added to neutralize it, and the contamination factor is investigated. It is notified by the notification means 11 that it is necessary to remove the pollution factor early by performing the above. Further, since there is an increase in concentration in the circulation system due to concentration, it is necessary to reduce the concentration by blowing to prevent corrosion and scale failure.
Will be notified by. The pH value changes daily with time, and it is necessary to take measures each time. However, since the pH values can be collected in real time via the communication means, it is possible to take early measures.

As the measurement management data 4, the electric conductivity can be collected. The electric conductivity is an inorganic solid content index of the entire system, and when it increases, scale failure or the like is likely to occur, and a heat exchanger is apt to cause poor heat exchange, capillary closing failure or the like. As a coping method, since there is an increase in concentration in the circulatory system, the informing unit 11 informs that it is necessary to reduce the concentration by blowing to prevent the scale failure. The electrical conductivity changes daily with time and needs to be dealt with each time, but since the electrical conductivity can be collected in real time via the communication means, an early countermeasure can be taken. Also,
Since it is also an index for managing the concentration ratio in the system, by accumulating the change over time of the concentration ratio in the accumulation means 7, the trouble can be easily discriminated by the trouble discrimination means 8.

As the measurement management data 4, the alkalinity can be collected. If the concentration is high on the alkaline side, there is a risk of damage to the hardness scale. For example, in boiler can water, silica scale failure occurs unless the P alkalinity is 1.7 times that of ionic silica. As a workaround,
Add acid to neutralize. Further, since there is an increase in concentration in the circulation system due to concentration, the informing means 11 informs that it is necessary to reduce the degree of concentration by blowing to prevent scale failure. The alkalinity changes daily with time, and it is necessary to deal with it each time, but since the alkalinity can be collected in real time through the communication means, it is possible to take an early countermeasure.

Hardness can be collected as the measurement management data 4. As for the hardness, scale failure of the hardness component occurs depending on the pH, alkalinity, temperature and hardness amount. As a countermeasure, the acid is added to lower the pH. Since there is an increase in concentration in the circulatory system, blow down the concentration to prevent problems. The notification means 11 notifies that it is necessary to add or increase the amount of the scale dispersant to prevent scale failure. The hardness changes daily with time and needs to be dealt with each time. However, since the hardness can be collected in real time via the communication means, it is possible to deal with it early.

As the measurement management data 4, a chloride ion measurement value can be collected. The chloride ion is a corrosive factor substance, and when it is in a large amount, pipe corrosion remarkably occurs. Also, due to the pH, hydrogen ions are generated on the acid side and the pipe corrodes. As a countermeasure, the pH is raised by adding an alkaline agent. Since there is an increase in concentration in the circulation system due to concentration, the notification means 11 notifies that it is necessary to reduce the concentration by blowing to prevent corrosion damage. The chloride ion changes daily from time to time, and it is necessary to respond each time, but since chloride ion measurement values can be collected in real time via communication means, it is possible to handle early processing. Becomes Further, since it is also an index for managing the concentration ratio in the system, by accumulating the change with time of the concentration ratio in the accumulating means 7, the trouble can be easily discriminated by the trouble discriminating means 8.

As the measurement management data 4, a sulfate ion measurement value can be collected. The sulfate ion is a corrosive factor substance, and when it is in a large amount, pipe corrosion remarkably occurs. Also, in relation to pH, hydrogen ions are generated on the acid side, and pipe corrosion occurs. On the alkaline side, calcium sulfate scale failure occurs in relation to the hardness component amount. As a workaround, if the hardness is low, add an alkaline agent and p
Increase H or M alkali amount. Since there is an increase in concentration in the circulation system due to concentration, the informing unit 11 informs that it is necessary to reduce the degree of concentration by blowing. The sulfate ions change daily with time, and it is necessary to take measures each time, but since the sulfate ion measurement values can be collected in real time via the communication means, it is possible to deal with early processing. At the same time, since it is also an index for managing the concentration ratio in the system, by accumulating the change over time of the concentration ratio in the accumulating means 7, the trouble can be easily discriminated by the trouble discriminating means 8.

As the measurement management data 4, an ionic silica measurement value can be collected. In the ionic silica, scale defects of the silica component occur depending on pH, alkalinity, temperature, hardness amount, and silica amount. For example, in boiler boiler water, silica scale failure occurs unless P alkalinity is 1.7 times as high as ionic silica. As a coping method, an alkaline agent is added to raise the pH, and the amount of alkali is 1.7 times that of silica. Since there is an increase in concentration in the circulatory system due to concentration, the informing means 11 informs that it is necessary to reduce the concentration by blowing to prevent a failure. The measurement value of the ionic silica changes day by day, and it is necessary to respond each time, but since the measurement value of the ionic silica can be collected in real time through the communication means, it is possible to take an early action. Is possible.

As the measurement management data 4, a measurement value of iron ion can be collected. The fact that the measured value of the iron ion increases in the system indicates that the corrosion damage is progressing. As a coping method, the notifying means 11 notifies that it is necessary to add / increase the amount of a corrosion inhibitor to prevent corrosion, investigate the cause of corrosion, and remove the cause. The iron ion changes with time every day,
Although it is necessary to respond each time, it is possible to collect sulfate ion measurement values in real time via the communication means, which enables early countermeasures and the past history of accumulating causative factors in the accumulating means 7. It becomes possible to find it immediately in comparison with the change.

As the measurement management data 4, ORP
The measurement value of (redox potential) is configured to be collectable. Based on the measured value of ORP, the bactericidal effect is not exhibited in the situation where the high potential of + is not exhibited in the use of the oxidizing bactericide. In addition, in the reducing environment region maintenance system, it is possible to determine that corrosion does not proceed when the negative potential is maintained and the positive potential is reached. As a coping method, the oxidant injection system is inspected, or the reducing environment maintenance agent injection system is inspected, and an emergency response drug is added to notify that it is necessary to try to maintain stability. . The ORP changes daily with time and needs to be dealt with each time, but since ORP measurement values can be collected in real time via the communication means, it is possible to take an early action.

As the measurement management data 4, a measurement value of free chlorine can be collected. By confirming the bactericidal effect of a halogen oxidizing agent such as hypochlorous acid, when the measured value of free chlorine is low, it can be determined that a microbial or pathogenic bacterium disorder due to the generation of bacteria has occurred. As a coping method, the notification means 11 notifies that it is necessary to increase the injection amount of the bactericide and urgently remove the microorganisms / pathogens. The free chlorine changes daily with time, and it is necessary to take measures each time, but since the measured values of free chlorine can be collected in real time via communication means, it is possible to take an early action. .

As the measurement management data 4, a total chlorine measurement value can be collected. By confirming the bactericidal effect of a halogen oxidizing agent such as hypobromous acid, it is possible to determine that a microbial / pathogenic bacterium disorder has occurred due to the occurrence of bacteria when the measured value of total chlorine is low. As a coping method, the notification means 11 notifies that it is necessary to increase the injection amount of the bactericidal agent and urgently remove the microorganisms / pathogenic bacteria. The total chlorine changes day by day, and it is necessary to respond each time, but since the measured values of total chlorine can be collected in real time via communication means, it is possible to take an early action. .

As the measurement management data 4, turbidity can be collected. When the water in the system becomes cloudy, it can be judged that some kind of obstacle such as scale, corrosion, or slime has occurred. As a coping method, the informing means 11 informs that it is necessary to investigate the cause of the failure and remove the causative factor. The turbidity changes day by day, and it is necessary to take measures each time, but since the measured values of turbidity can be collected in real time via the communication means, it is possible to take an early action. At the same time, the causative factor can be immediately found by comparing it with other measurement results accumulated in the accumulating means 7 and changes in the past history.

As the measurement management data 4, a drug concentration can be collected. The lack of the drug concentration means that there is no measure taken to prevent the failure in the system, and it is judged that there is a risk of failure. As a coping method, the informing means 11 informs that it is necessary to investigate the cause of the drug shortage, remove the causative factor, and maintain the predetermined concentration by forced injection of the drug. The drug concentration changes day by day, and it is necessary to respond each time, but since the drug concentration can be collected in real time via the communication means, it is possible to handle early processing, The causative factor can be immediately found by comparing with other measurement results accumulated in the accumulating means 7 and changes in the past history.

As the measurement management data 4, the measurement value of the flow sensor is configured to be collectable. If a signal indicating that the chemical liquid, water, etc. is not flowing even though the chemical liquid, water, etc. should have flowed under the control of the pump, valve, etc., the pump, valve, etc. may be defective. As a coping method, the informing means 11 informs that it is necessary to urgently inspect the pump, the valve, and the like, and if there is a defective portion, the defective portion should be promptly replaced. The measurement value by the flow sensor changes with time every day, and it is necessary to respond each time, but since the measurement value of the flow sensor can be collected in real time via the communication means,
It becomes possible to take early action.

As the measurement management data 4, the measurement values from the pitting corrosion sensor can be collected. The pitting corrosion sensor measures the degree of pinhole-like pitting corrosion even in corrosion of steel materials and the like in the system, and can predict water leakage in advance. As a coping method, corrosion prevention chemicals are added and increased to prevent corrosion. The informing means 11 informs that it is necessary to investigate the cause of corrosion and remove the cause. The measured value from the pitting corrosion sensor changes day by day, and it is necessary to respond each time, but since the drug concentration can be collected in real time via the communication means, it is possible to take an early action. At the same time, the causative factor can be immediately found by comparing it with the past historical changes accumulated in the accumulating means 7.

As the measurement management data 4, the measurement values from the slime sensor can be collected. The slime sensor alerts the generation of microorganisms and informs the heat exchanger of slime adhesion failure and the risk of bacterial infection. As a coping method, the informing means 11 informs that it is necessary to increase the injection amount of the bactericide and exterminate microorganisms and pathogens. Measured values from the slime sensor change daily, and it is necessary to respond each time, but since the measured values of the slime sensor can be collected in real time via communication means, it is possible to take an early action. Is possible.

Although various measurement item examples have been given above, measurement items other than the above can also be applied as long as they can be used as a water treatment verification monitor.

[Other Embodiments] Other embodiments will be described below. <1> In the above embodiment, an example of automating the notification means has been described. However, a device such as a computer is made to perform the storage means and the subsequent trouble determination and notification are performed.
It may be configured to be artificially performed. For example,
As shown in FIG. 2, the raw measurement management data 4a and the measurement management data 4b accumulated by the accumulating means 7 are displayed on the monitor display 18, and the data are compared and examined to determine the presence / absence of a trouble spot, and the trouble Immediately notify the manager of the water treatment facility what to do about the location. In this way, it becomes possible to inform the manager of the water treatment facility at an early stage how to deal with the trouble spot, so that the trouble spot can be dealt with early, resulting in a major accident. Can be prevented. <2> In the above embodiment, an example of automating the notifying means has been described. However, a device such as a computer is made to perform even the accumulating means, and thereafter trouble determination, pursuit of trouble cause, determination of coping method, and notification of At least one of them may be configured to be performed by a technical person having specialized knowledge. For example, as shown in FIG. 3, the raw measurement management data 4a and the measurement management data 4b accumulated by the accumulating means 7 are displayed on the monitor display 18, and the technician having the specialized knowledge can store the data. A comparative study will be conducted to determine the presence / absence of a trouble location, the cause of the trouble will be pursued, and the countermeasure for the trouble cause will be determined, and the manager of the water treatment facility will be immediately notified. With this, it is possible to judge the situation regarding the trouble and the decision to deal with it from a professional perspective, and it is possible to respond flexibly according to the change in the situation. It is possible to deal with the situation promptly and accurately, and prevent the development of a major accident. In addition, in the above-mentioned configuration, for example, a contact person who needs to be informed when a trouble occurs, such as an informing means, is made into a manual so that a person other than a technical person having specialized knowledge can handle the water treatment facility. Can be monitored.

<3> The price for the monitoring work of the water treatment facility may be charged for the notification information for notifying the manager of the water treatment facility. With this,
Since the trouble is found in the water treatment equipment and the countermeasure for the trouble is notified to the manager of the water treatment equipment, only the notification information is charged, so only the necessary information is paid. Since you will have to pay, it will be more expensive. In other words, for example, if the price for the monitoring work of the water treatment facility is set to a fixed amount according to the number of monitoring days, a certain amount of money will have to be paid regardless of the occurrence of trouble, so management If the water treatment equipment is well-maintained and has few or no troubles, it will be expensive, so it is easy to be unsatisfied with the payment. If the price is paid for the notification information of the coping method with respect to, it will be easy to be satisfied without feeling a high price.

<4> In the above embodiment, the monitoring of water treatment equipment such as boiler water, air conditioning cooling water and other air conditioning water, swimming pool water, bath water, etc. was described, but the present invention is not limited to the above embodiments. First, industrial chemicals and industrial wastewater, and
It is also possible to monitor water bottles such as lakes and dams.

[Brief description of drawings]

FIG. 1 is a schematic explanatory view showing a water treatment monitoring system according to the present invention.

FIG. 2 is a schematic explanatory view showing a water treatment system of another embodiment.

FIG. 3 is a schematic explanatory view showing a water treatment system of another embodiment.

[Explanation of symbols]

3 Water treatment equipment 4 Measurement management data 4a Measurement management data 4b Measurement management data 5 Communication means 6 Data collection means 7 storage means 8 Trouble determination means 9 Cause pursuing means 10 Remedy judgment means 11 Notification means

Front page continuation (51) Int.Cl. ⁷ Identification code FI // G01N 27/06 G01N 27/06 Z 27/26 351 27/26 351Z 27/416 27/48 311 27/48 311 33/18 A 27 / 49 B 33/18 C F 27/46 353Z 306 316Z (56) Reference JP 10-326109 (JP, A) JP 4-142429 (JP, A) JP 2001-147713 (JP, A) ) JP-A-11-184732 (JP, A) JP-A-11-313075 (JP, A) JP-A-5-93506 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) G05B 23/02 C02F 1/00 G08C 19/00 301 G01N 27/06 G01N 27/49 G01N 33/18

Claims (5)

(57) [Claims] 1. The measurement management data in the water treatment facility,
A data collecting means to be collected via the communication means, and a measuring pipe collected by the data collecting means to collect and accumulate the measurement management data of the water treatment facility over time via the communication means.
Data that seemed to be abnormal were excluded from the physical data.
Accumulate measurement management data as normal data
That the storage means, in advance provided, on the basis and raw measurement management data to be collected by the data acquisition means on the accumulated and measured management data in the storage means, determine what presence or absence of trouble locations in the water treatment facility monitoring method of water treatment equipment you. 2. If there is any trouble spot,
How to deal with rouble points to the manager of the water treatment facility
The method for monitoring water treatment equipment according to claim 1, wherein the notification is made. If wherein there is the trouble point, claim 2 in which the trouble caused pursued, to determine the remedy for the problems caused to notify the administrator of the water treatment facility
The method for monitoring water treatment equipment described in. 4. A method of monitoring water treatment facility according to claim 2 or 3 charges for broadcast information for notifying the administrator of the water treatment facility. 5. The measurement management data of the water treatment facility is
A data collecting means to be collected via the communication means, and a measuring pipe collected by the data collecting means to collect and accumulate the measurement management data of the water treatment facility over time via the communication means.
Data that seemed to be abnormal were excluded from the physical data.
Accumulate measurement management data as normal data
And a trouble discriminating means for discriminating the presence or absence of a trouble location in the water treatment facility based on the raw measurement management data collected by the data collecting means and the measurement management data accumulated by the accumulating means. Providing a cause pursuing means for pursuing the cause of the trouble when the trouble discriminating means determines that there is a trouble, and providing a coping method determining means for determining a coping method for the trouble cause found by the cause pursuing means, A monitoring system for water treatment equipment, which is provided with an informing means for immediately informing the manager of the water treatment equipment of the countermeasure determined by the countermeasure determining means.