JP4331457B2 - Waste water disinfectant supply management center and waste water disinfectant supply management system equipped with the center - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
  The present invention relates to a wastewater disinfectant supply management center that operates by a computer program and a wastewater disinfectant supply management system including the center. More specifically, the present invention provides a waste water disinfectant for a plurality of sewer overflow facilities in a given area.ofThe present invention relates to a wastewater disinfectant supply management center for communicating information with the sewer overflow water countermeasure facility, and a wastewater disinfectant supply management system including the center.
[0002]
[Prior art]
  Wastewater including sewage, sewage including rainwater, and rainwater that has flowed down the surface of the ground is sterilized by adding a chemical by a drainage disinfecting device in the facility at a sewer overflow facility. Sewer overflow facilities include wastewater treatment facilities, drainage stations, drainage relay pump stations, and storm water discharges.Butinclude.
  Conventionally, the supply of the disinfectant to such sewer overflow facilities is made by contacting the telephone or fax that the remaining amount of medicine in each facility has been reduced, and responding thereto. In addition, if rain is expected, it is dealt with by preparing extra chemicals in the sewer overflow facilities.
[0003]
[Problems to be solved by the invention]
However, the above-described method for supplying chemicals for wastewater disinfection in a plurality of sewer overflow facilities, as described above, has the following problems. As a result, there is a shortage of chemicals or efficient chemical supply. There is a problem that it is impossible to do.
(1) Recent urban rainfall is local, especially in combined sewers, where the impact of rainfall in a narrow area where a sewer overflow facility with drainage disinfection equipment is installed is relatively low. Although it appears in a short time, the inflow wastewater amount and drainage properties cannot be quantitatively predicted, and therefore, there is a shortage of chemicals or it is impossible to efficiently supply chemicals.
(2) In small, unmanned (always or only at night) facilities such as rainwater spouts and relay pump stations, it is difficult to manage extra drug inventory in preparation for rain, and it is difficult to make emergency contact when there is a shortage of drugs. is there.
(3) Sewer overflow facilities are scattered throughout the area, and if local rainfall occurs frequently in these areas at the same time, in the situation where multiple scattered facilities manage the drugs individually, There is a risk of shortage of stock and drug supply in an emergency.
(4) It is difficult to predict the appropriate amount of chemicals to be added because the amount of water flow and sludge load cannot be predicted only from the information in the sewer overflow facilities.
[0004]
The present invention has been made in view of the above-mentioned problems, and its purpose is to collect drainage disinfection device operation information, facility information, weather information, and drug inventory information in a sewer stormwater overflow countermeasure facility in a predetermined area. Based on the collected information, information management is performed so that chemicals can be efficiently supplied to the sewer overflow facilities.
[0005]
[Means for Solving the Problems]
In order to achieve the above-described object of the present invention, in the present invention, a disinfectant is supplied to a plurality of sewer stormwater overflow countermeasure facilities equipped with a wastewater treatment device for disinfecting wastewater in a predetermined area with chemicals. A wastewater disinfectant supply management center for managing information,
Facility information storage means for storing facility information of wastewater treatment equipment of each sewer overflow countermeasure facility;
Drug factory information storage means for storing factory information and drug inventory information of a drug factory that provides drugs for wastewater disinfection;
A first determination means for determining whether or not a chemical should be supplied to each sewer overflow treatment facility based on the operation information of the drainage disinfection device from each sewer overflow treatment facility;
The first determining means is activated when it is determined that the medicine should be supplied to a certain sewer overflow countermeasure facility, and the facility information about the sewer overflow countermeasure facility in the facility information storage means and the factory of the drug factory storage means Referring to the information and drug inventory information, set the optimal drug factory to supply the drug to the sewer overflow facility, and automatically notify the drug factory of the supply command including the drug supply time and supply volume Medicine supply command means to
A drainage disinfectant supply management center is provided.
[0006]
In the wastewater disinfectant supply management center according to the present invention described above, the operation information of the wastewater disinfection device includes the start time of the drug addition, the scheduled end time of the drug addition, the drug addition amount, and the remaining amount of the drug. The determination means 1 determines whether or not the medicine should be supplied to the sewer overflow facility, by predicting the medicine consumption and determining whether or not the medicine is insufficient based on the driving information. It is preferable that it is comprised.
Further, the wastewater disinfectant management center according to the present invention further estimates the medicine supply start time and the medicine consumption amount in the wastewater disinfection device based on the drainage property information and the rainfall information in the wastewater disinfection device from each sewer overflow countermeasure facility. And a second determination means for determining whether or not the medicine should be supplied to the sewer stormwater overflow countermeasure facility by determining whether or not a medicine shortage occurs, and the medicine supply command means includes a second determination It is preferable to be configured to be activated when it is determined that the medicine should be supplied to a sewer overflow facility.
[0007]
The drainage disinfectant supply management center according to the present invention further includes a regional characteristic simulation means for simulating regional characteristics regarding drainage characteristics of sewer overflow water in a predetermined area based on weather forecast information relating to the predetermined area, and a simulation by the regional characteristic simulation means. Based on the results, estimate the drug supply start time and drug consumption in the drainage disinfection equipment of each sewer overflow countermeasure facility, and determine whether or not there is a shortage of drugs. And a third determination means for determining whether or not to supply the medicine supply instruction means is also activated when it is determined that the medicine should be supplied to a sewer overflow facility against the third determination means. It is preferable that it is comprised so that.
[0008]
In this case, the wastewater disinfectant management center further stores operation information storage means for storing the history of operation information of the drainage disinfection device from each sewer overflow management facility, and the history of drainage property information at each sewer overflow treatment facility. The wastewater property information storage means, the facility rainfall information storage means for storing the history of rainfall information in each sewer overflow countermeasure facility, the regional rainfall information storage means for storing rainfall information relating to the predetermined area, and the medicine supply command means The amount of chemical supply to each sewer stormwater overflow countermeasure facility received at that time, drainage disinfection device operation information, drainage property information, rainfall information, or weather forecast information for a given area The medicine supply storage means that stores the information in correspondence with each other and whether or not the medicine should be supplied to each sewer overflow facility is determined. The fourth determination means for activating the current operation information by comparing the current operation information of the drainage disinfection device from each sewer overflow countermeasure facility with the history of the operation information stored in the operation information storage means The past operation information that is most correlated with the information is extracted, and it is detected whether or not the drug has been delivered to the sewer overflow facility in response to the operation information extracted by referring to the facility drug delivery storage means. Compare the means for activating the chemical supply command means with the current drainage disinfection device information from each sewer overflow facility and the history of drainage property information stored in the drainage property information storage means. Was the past drainage property information most correlated with the current drainage property information extracted, and was the drug delivered to the sewer overflow facility in response to the drainage property extracted by referring to the facility drug delivery storage means? Detect whether or not History of the rainfall information in each sewer overflow countermeasure facility stored in the facility rainfall information storage means, the means for activating the chemical supply command means when delivered, the current rainfall information from each sewer overflow facility The past rainfall information that most closely correlates with the current rainfall information is extracted, and the drug is delivered to the sewer overflow facility in response to the extracted rainfall information by referring to the facility drug delivery storage means. And comparing the means for starting the medicine supply command means when delivered, the current weather forecast information for a predetermined area, and the history of rainfall information stored in the regional rainfall information storage means. Whether or not the past rainfall information that is most correlated with the current weather forecast information is extracted, and the drug is delivered to the sewer overflow management facility corresponding to the extracted rain information by referring to the facility drug delivery storage means. Detect It is preferable to include a fourth determination unit including a unit that activates the medicine supply command unit when delivered.
Further in this case, the wastewater disinfectant supply management center is based on the information stored in the operation information storage means, the drainage property information storage means, the facility rainfall information storage means, the regional rainfall information storage means, and the facility medicine delivery storage means. Measures to determine the tendency of drug supply to each sewer overflow facility, and support for creating a drug supply plan to sewer overflow countermeasure facilities for the entire area based on the obtained drug supply trend It is preferable to provide the means to perform.
[0009]
In the wastewater disinfectant supply management center according to the present invention, the plurality of sewer overflow facilities are any one of a wastewater treatment plant, a drainage station, a drainage pump station, and a rainwater spout, or any combination thereof. In addition, the medicine supply command means determines whether it is necessary to dispatch medicine supply personnel to the corresponding sewer overflow facilities, whether or not the medicine supply personnel need to be dispatched, and the shortest transportation time of the medicine. Means for determining the optimal drug factory, and means for notifying the determined drug factory of the required and packaged quantity of drugs, the means for transporting the drugs, and the necessity of dispatching the drug dispatching personnel. It is preferable to include.
[0010]
The present invention also manages a plurality of sewer stormwater overflow countermeasure facilities equipped with a wastewater treatment device for disinfecting wastewater in a predetermined area with chemicals, and information for supplying a disinfectant to these sewage overflow water countermeasure facilities. A wastewater disinfectant supply management center having the above-described configuration, and one or a plurality of drug factories that receive a chemical supply instruction from the management center and supply a chemical to a sewer overflow management facility A wastewater disinfectant supply management network consisting of
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration of a wastewater disinfectant supply management system according to the present invention. In FIG. 1, 10 is a sewer overflow management facility group, 20 is a weather information providing group, 30 is a pharmaceutical factory group, 40 is a wastewater disinfectant supply management center (hereinafter simply referred to as “management center”), and 50 is a communication network. It is.
The communication network 50 is any communication means such as a dedicated line, an analog telephone line network, an ISDN line network, a sewer optical fiber network, a wireless LAN, a PHS line network, a mobile phone line network, and the Internet. A combination of these arbitrary plural communication means may be used.
[0012]
  The sewer overflow treatment facility group 10 includes one or a plurality of wastewater treatment plants 11 (in the figure, for disinfecting wastewater including sewage within a predetermined treatment area, sewage including rainwater, and rainwater flowing down the ground surface with chemicals). Two wastewater treatment plants 11a and 11b), one or more relay pump stations 12 (in the figure, three relay pump stations 12c to 12e), one or more rainwater spouts 13 (in the figure, four rainwater spouts) 13f-13i). These facilities include a communication terminal (not shown), and can communicate with a medicine supply management server (hereinafter simply referred to as “management server”) 41 of the management center 40 via the network 50. In the following, when these facilities 11 to 13 are shown as representatives in the sewer overflow water countermeasure facility group, “facility 10” is used.
  The drug factory group 30 includes one or a plurality of drug factories 31 (in the figure, three factories 31) each having a communication terminal capable of information communication with the management server 41 of the management center 40 via the network 50.x, 31y, 31z) Is included. In the following, when these factories are represented, the “pharmaceutical factory 30” is used.
[0013]
FIG. 2 shows a specific configuration of the management server 41 of the management center 40. The management server 41 includes a facility database (DB) 411, a drug factory information DB 412, a facility disinfection apparatus operation information DB 413, a facility drainage property DB 414, a facility rainfall information DB 415, and a facility drug delivery amount DB 416. Information like this is stored.
Facility information DB 411: Stores facility information such as the location, contact information, and wastewater treatment amount of each facility 10, and the performance and specifications of the wastewater disinfection device provided in each facility 10 (including information on whether or not it is unmanned) Is done.
Drug factory information DB 412: The location of each drug factory 30, contact information, drug type (bromine or chlorine) and its inventory, and information related to drug supply assistance dispatchers are stored. The drug type and the stock quantity are periodically communicated from the drug factory 30.
Facility disinfection device operation information DB 413: Stores operation information related to drug addition, such as a drug addition start time, a drug addition scheduled end time, a drug addition amount, a drug remaining amount, etc., communicated from each facility 10 in each drainage disinfection device.
Facility drainage property DB 414: Stores information related to drainage properties communicated from each facility 10, such as inflow estimation, inflow water turbidity, and number of coliforms.
Facility Rainfall Information DB 415: Rainfall information such as rainfall amount and rainfall intensity in the vicinity of each facility communicated from each facility 10 is stored.
Facility drug delivery amount DB 416: Information on the type, delivery amount, and delivery date of the drug delivered from the drug factory to each facility 10 is stored.
Although not shown, a database for storing weather forecast information from the weather information providing organization 20 may be provided.
[0014]
  The management server 41 further includes eight program modules (PM), that is, a medicine supply process PM420, and first to fourth medicine supply necessity determination processes PM43.0˜460, drainage disinfection device operation support process PM470, drug supply plan support process PM480, and regional characteristic simulation PM490. With reference to FIGS. 3 to 8, the processing flow executed by these PMs 420 to 490 will be described in detail below.
[0015]
Drug supply processing PM420
This PM 420 is activated when any one of the first to fourth drug supply necessity determination processes PM 430 to 460 is determined to require drug supply to any of the facilities 10 and supplies the optimum drug supply. This is a program for transmitting a medicine supply instruction for performing medicine to an appropriate medicine factory 30 and creating and sending a bill concerning medicine delivery.
In order to perform such processing, the medicine supply process PM420, as shown in FIG. 3, the start command from any of the first to fourth medicine supply necessity determination processes PM430 to 460, and the process of the PM The information (target facility information) specifying the facility 10 to which the medicine is to be supplied and the information on the type and amount of the medicine to be supplied (medicine required amount information) obtained as a result of the above are activated as the activation signal T20. When activated, in step S1, the facility information DB 411 is searched to acquire the location information of the target facility, contact information, and specification information of the drainage disinfection device. In step S2, the location, contact information, drug type, and inventory amount of all registered drug factories 30 are acquired from the drug factory information DB 412. Of course, information on only a drug factory that can supply a necessary drug may be acquired. As described above, the drug type and the inventory amount thereof are periodically communicated from the drug factory 30 and the contents of the drug factory information DB 412 are updated as appropriate.
[0016]
Next, in step S3, based on the information acquired in steps S1 and S2, the condition that the drug transportation to the facility 10 that is the target of drug supply is the shortest, the target facility is an unmanned facility, etc. A drug factory 30 is selected that satisfies the conditions for whether or not the necessary drug replenishment personnel can be dispatched according to the specifications, and the conditions for whether or not the necessary types and quantities of drug inventory are available. Next, in step S4, according to the specifications of the drainage disinfectant apparatus of the target facility acquired in step S1, the packing state of the medicine (flexible bag, cartridge, etc.), the number of packings (the medicine unit amount and the medicine depending on the packing form) Determined from the required amount), transportation means (trucks, unic cars, etc.), drug supply personnel (if necessary), and the number of dispatched personnel.
[0017]
Thereafter, the process proceeds to step S5, where a “medicine supply request form” is created based on the information obtained in step S4, and the request form is notified to the drug factory 30 selected in step S3 via the communication network 50. In step S6, information related to the ordering of medicines is stored in the facility medicine delivery amount DB 416. FIG. 9 shows an example of the “medicine supply request form” created in step S5. As a result, the medicine factory 30 that has received the medicine supply request can be delivered to the target facility 10 at the date and time when the necessary medicine is designated.
In step S <b> 7, a bill related to ordering of medicine is created, and this is notified to the target facility 10 via the communication network 20. An invoice may be created by collecting and ordering medicines during a predetermined period.
[0018]
First drug supply necessity determination process PM430
This PM 430 determines whether or not a medicine should be supplied to each facility 10 from the operation information of the disinfection device of each facility received from each facility 10 and the information in the facility information DB 411, and determines that it should be supplied. In this case, the medicine supply process PM20 is started.
In order to perform such a process, the first drug supply necessity determination process PM430, as shown in FIG. 4, starts the drug addition start time, the scheduled end time, the drug addition amount ( When the activation signal T30 including the operation information including the remaining amount of medicine and the remaining amount of medicine is received, the activation is performed. The remaining amount of medicine can be acquired by receiving a signal representing the medicine hopper level, for example. FIG. 10 illustrates the operation information notified together with the operation start signal of the drainage disinfection device when the facility 10 is the wastewater treatment plant 11 as a “state change report”.
Returning to FIG. 4, when the first drug supply necessity determination process PM430 is activated by the activation signal T30, in step S11, the facility information DB 411 is referred to, and the specifications of the drainage disinfection device of the target facility 10 are specified. To get. In step S12, the operation duration time is calculated from the operation start time and the scheduled operation end time of the drainage disinfection device, and the drug consumption amount is estimated and calculated by multiplying the operation duration time and the drug addition amount.
[0019]
  Next, in step S13, the drug inventory amount of the target facility is calculated. This stock amount is calculated for each of one or a plurality of drug hoppers included in the specification information of the drainage disinfection device obtained in step S11.HoIt is calculated by calculating the product of the bottom area of the hopper and the hopper level and adding all of them. Then, only when the medicine stock amount obtained in step S13 is smaller than the medicine consumption amount obtained in step S12, the process proceeds from step S14 to step S15, and the medicine supply process PM420 is started, and the medicine supply target. Information for specifying the facility 10 and the kind and amount of the medicine to be supplied are notified.
  Finally, in step S16, the drainage disinfection device operation information received from the facility 10 (operation start time, scheduled operation end time, drug addition amount, drug addition)HoAnd the medicine consumption amount and the medicine inventory amount calculated in steps S12 and S13 together with the facility disinfection device operation information DB 413 is stored.
[0020]
The operation information of the drainage disinfection device of each facility 10 is periodically communicated at a predetermined interval (for example, every hour) after the operation is started. The first medicine supply necessity determination process PM430 executes Steps S11 to S16 at a predetermined interval or each time driving information is received. Thereby, the history of the operation status of each facility 10 is stored in the facility disinfection device operation information DB 413.
FIG.11 and FIG.12 shows the driving | running state of the waste water treatment plant 11 memorize | stored in the facility disinfection apparatus operation information DB413 in a table format and a graph format. By monitoring such an operation state by the first medicine supply necessity determination process PM430, it is possible to immediately predict a shortage of medicines in each facility 10 even after the operation is started.
[0021]
Second medicine supply necessity determination process PM440
This PM 440 is activated when a rain start signal is received from the facility 10, and determines the necessity of drug supply by predicting the drug consumption based on the drainage properties and the rain information collected from the facility 10, When it is determined that the medicine supply is necessary, the medicine supply PM 420 is activated.
In order to perform such a process, the second medicine supply necessity determination process PM440 receives a rain start signal, drainage property information (inflow water amount, inflow water turbidity, coliform group number) from the facility 10, as shown in FIG. Etc.), and a signal including rainfall information (rainfall amount, rainfall intensity, etc.) is received as the activation signal T40. When activated, in step S21, the facility disinfection device operation information DB 413 is searched to obtain the latest medicine stock amount of the drainage disinfection device of the corresponding facility 10. Next, in step S22, the drug injection rate is estimated from the inflow water turbidity from the corresponding facility 10, the number of coliforms, the rainfall amount, and the rainfall intensity, and the drug consumption amount is predicted by multiplying the inflow amount. The estimation of the drug injection rate can employ an algorithm as disclosed in Japanese Patent Application No. 2001-321804, which is an application (co-application) by the present applicant.
[0022]
Next, in step S23, it is determined whether or not the predicted drug consumption amount is larger than the latest drug inventory amount read from the DB 413. If so, the process proceeds to step S24 to start the drug supply process PM420. To do. At this time, information specifying the facility 10 to be supplied with the medicine, that is, the amount of medicine to be supplied, that is, the amount of medicine to be supplied, is also notified to the medicine supply processing PM 420. After the activation of the PM 420 or when the determination in step S23 is NO, the drainage property information received from the facility 10 is stored in the facility drainage property DB 414 in step S25, and in the facility rain information DB 415 in step S26. The rain information received from the facility 10 is stored.
As described above, this PM 440 is activated only when the facility 10 is notified of the start of rainfall.
[0023]
Third medicine supply necessity determination process PM450
This PM 450 is collected from the weather information providing organization 20 and includes a rain forecast signal for a predetermined area including the facility 10, terrain information registered in advance, a rainwater collection route, a sewer network, a sewage discharge inlet, and a sewage discharge. Based on the initial setting conditions such as the type, use the regional characteristic simulation PM490 such as a commercial to predict the drug addition start time and the appropriate drug addition amount in the drainage disinfection device of all facilities 10, and based on the result The medicine supply process PM420 is started.
In order to execute such a process, as shown in FIG. 6, the third medicine supply necessity determination process PM450 performs a rain forecast signal (predicted rainfall start time, expected rainfall duration time) of a predetermined area from the weather information providing organization 20. , Predicted total rainfall, predicted rainfall intensity) is used as the activation signal T50. When the activation signal T50 is received, the regional characteristic simulation PM490 is activated in step S31, and the predicted inflow turbidity, the predicted inflow water amount, and the predicted number of coliform groups (that is, the predicted drainage properties) of all the facilities 10 are calculated. For the estimation of the predicted inflow turbidity and the inflow guess, the algorithm described in Japanese Patent Application No. 2001-347043 by the present applicant can be used.
The PM 450 can be activated by the operator's operation, and information necessary for the PM can be input.
[0024]
  In step S32, the facility disinfection device operation information DB 413 is searched to obtain the latest medicine inventory information of each facility 10. Next, in step S33, the predicted medicine consumption is calculated. In this calculation, first, based on the predicted influent water turbidity and the predicted number of coliforms predicted in step S31, the predicted rainfall amount obtained from the weather information providing organization 20, and the predicted rainfall intensity, the drug injection rate, that is, the injection should be performed. The amount of medicine / unit amount is estimated, and then the estimated amount of medicine consumed is calculated by multiplying the estimated medicine injection rate by the predicted amount of influent water calculated in step S31. The estimation of drug injection rate is described above.Special applicationThe algorithm disclosed in 2001-321804 can be used.
  Thereafter, in step S34, the latest drug inventory information of each facility 10 obtained from the facility disinfection apparatus operation information DB 413 obtained in step S23 is compared with the predicted drug consumption calculated in step S33. If it is determined in step S34 that there is a shortage of medicines, the process proceeds to step S35, the medicine supply process PM20 is started, and information about the facility 10 to be supplied with the medicine and the type and amount of the medicine to be supplied are displayed. Notice.
  The third medicine supply necessity determination process PM450 is repeatedly executed repeatedly for all facilities 10.
[0025]
Fourth medicine supply necessity determination process PM460
  This PM 460 is a facility disinfection device operation information DB 41.3, Comparing the past performance information stored in the facility drainage property DB 414, the facility rainfall information DB 415, and the facility drug delivery amount DB 416 with the latest information, predicting the most correlated drug delivery performance pattern, Based on the result, it is determined whether or not the medicine supply is necessary.
  In order to perform such processing, this PM 460 is supplied with any of activation signals T30 to T50 for activating the first to third medicine provision necessity determination processes PM440 to 460 as shown in FIG. Then, the signal is activated as the activation signal T60. It can also be activated by an operator's operation.
[0026]
  When the PM 460 is activated, the facility disinfection device operation information DB 41 is obtained in step S41.3, Facility drainage property DB 414, facility rainfall information DB 415, and facility medicine delivery amount DB 416, the target facility 10 included in the activation signal T60 (that is, in the case of the activation signal T30 or T40, included in the signal) In the case of the target facility being activated and the activation signal T50, past performance data for all facilities) is acquired. Next, in step S42, the latest data of the facility 10 included in any of the activation signals T30 to T50 received as the activation signal T60 is compared with the corresponding past performance data acquired in step S41. The data to be compared include the operation information of the drainage disinfection device from each facility 10 (drug addition start time, scheduled drug addition end time, drug addition amount, remaining amount of drug), drainage properties (inflow water amount, inflow water turbidity, E. coli group count), rainfall information (rainfall amount, rainfall intensity), and weather forecast information (expected rainfall amount, expected rainfall intensity, expected rainfall duration) from the weather information providing organization 20 are included.
  As a result of the comparison, past performance data that is most similar to the latest data, that is, highly correlated past performance data is extracted, and the performance of the drug delivery amount at that time is specified.
[0027]
Next, in step S43, it is determined whether or not the specified drug delivery amount is equal to or greater than a predetermined threshold value (may be zero), and in this case, the drug supply process PM420 is activated. An activation signal T60 for supplying the signal is supplied. The activation signal T60 includes the facility to be supplied with the medicine and the insufficient amount of medicine requested. In step S45, the target facility 10 included in the activation signal T60 (that is, in the case of the activation signal T30 or T40, the target facility included in the signal, in the case of the activation signal T50, all the Steps S41 to S44 are repeatedly executed for all the facilities).
[0028]
Wastewater disinfection device operation support PM470
When the drug supply process PM420 is activated by the determination result in the second to fourth drug supply necessity inversion processes PM440 to 460, the PM470 is an appropriate drug addition amount predicted by the PM and its drug addition start It is a program module for notifying the relevant facility 10 of the time.
[0029]
Drug supply plan support PM480
  This PM480 is a facility disinfection device operation information DB41.3The trend of drug supply amount is extracted based on the performance information stored in the facility drainage property DB 414, the facility rainfall information DB 415, and the facility drug delivery amount DB 416, and the drug supply plan to all the facilities 10 managed by the management center 40 is prepared. It provides support for the formulation.
  As shown in FIG. 8, when the PM 480 is activated by the operator, the facility disinfection device operation information DB 41 in step S51.3The actual data stored in the facility drainage property DB 414, the facility rainfall information DB 415, and the facility medicine delivery amount DB 416 are read out. Next, in step S52, the trend of the read actual data is extracted in hour unit, daily unit, monthly unit, and seasonal unit, and the drug inventory plan and daily unit are extracted from the extracted drug delivery amount trend. Create a drug delivery plan. In addition, the facility disinfection device operation information DB 413Based on the above data, the chemical inventory plan and chemical delivery plan obtained from the actual chemical delivery amount are corrected for the tendency of the actual consumption data. The drug inventory plan and the delivery plan are created using commercially available SCM (Supply Chain Management) package software.
[0030]
In the above description, the amount of chemical addition required in the drainage disinfection device of each sewer overflow countermeasure facility is determined based on the disinfection device operation information, drainage properties, facility rainfall information, and / or rainfall forecast information. As a factor for predicting the number of coliform bacteria in drainage properties, sludge accumulation amount information in the sewage pipe can be adopted. In other words, the coliform group of rainwater overflowing water is propagated in sedimentary sludge, and this sludge is flushed at the time of rainfall and arrives at the sewer overflowing facility. It is possible to predict the number of coliforms in drainage properties. The sludge accumulation amount in the sewage pipe can also be estimated from the rainfall frequency and the rainfall history consisting of the rainfall amount.
[0031]
Since this invention is comprised as mentioned above, the chemical | medical agent for disinfecting waste water is supplied to a sewer overflow water countermeasure facility provided with the waste water disinfection device in a predetermined area, when necessary, without excess or deficiency. Therefore, an efficient drug supply can be performed. In particular, when local rainfall occurs and even in an unmanned facility, the medicine can be supplied efficiently without causing a shortage of medicine. Therefore, sterilization management of sewer wastewater can be optimally performed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a wastewater disinfectant supply management network according to the present invention.
FIG. 2 is a block diagram showing a schematic configuration of a wastewater disinfectant supply management center according to the present invention.
FIG. 3 is a flowchart showing processing by a medicine supply processing program module (PM) included in the management center shown in FIG. 2;
FIG. 4 is a flowchart showing processing by a first medicine supply necessity PM included in the management center shown in FIG. 2;
FIG. 5 is a flowchart showing processing by a second medicine supply necessity PM included in the management center shown in FIG. 2;
6 is a flowchart showing processing by a third medicine supply necessity PM included in the management center shown in FIG. 2; FIG.
FIG. 7 is a flowchart showing processing by a fourth medicine supply necessity PM included in the management center shown in FIG. 2;
FIG. 8 is a flowchart showing processing by a medicine supply plan support PM included in the management center shown in FIG.
9 is an explanatory diagram showing an example of a medicine supply request form generated by a medicine supply process PM included in the management center shown in FIG. 2. FIG.
FIG. 10 is an explanatory diagram illustrating information notified together with an operation start signal of the drainage disinfection device as a “state change report” when the sewer overflow treatment facility is a wastewater treatment plant.
11 is an explanatory diagram showing, in a tabular form, an example of an operation state of a wastewater treatment plant stored in a facility disinfection apparatus operation database (DB) included in the management center shown in FIG. 2. FIG.
12 is an explanatory diagram showing the operation status in the tabular format shown in FIG. 11 in a graph format. FIG.

Claims (3)

In the wastewater disinfectant supply management center that manages information for supplying disinfectant to multiple sewer overflow facilities equipped with wastewater disinfecting devices for disinfecting wastewater in a given area with chemicals,
And location information of the waste water disinfection apparatus of the sewer overflow running water measures facility, and facility information storage means for storing facility information including specification information including the drug hopper size and drug hopper level of wastewater disinfection device,
Drug factory information storage means for storing factory information including drug factory location information and drug inventory information that provides drugs for wastewater disinfection;
Based on the operation start time, scheduled operation end time, amount of drug addition, chemical hopper level included in the operation information of the drainage disinfection device from the communication terminal provided in each sewer overflow water countermeasure facility, the operation duration of the drainage disinfection device and Comparing the drug consumption calculated from the amount of drug added with the drug hopper size obtained from the facility information of the drainage disinfection device and the drug inventory level calculated from the drug hopper level, it is judged whether the drug is sufficient or insufficient. First determination means for determining whether or not a medicine should be supplied to a sewer overflow service facility;
The location information and drug factory information of the sewer spillover water countermeasure facility that is activated when the first determination unit determines that the medicine should be supplied to a sewer stormwater overflow countermeasure facility and is stored in the facility information storage unit With reference to the location information and drug inventory information of the drug factory stored in the storage means, the optimal drug factory for supplying the drug to the sewer overflow management facility is set, and the drug supply time, A wastewater disinfectant supply management center comprising a medicine supply command means for automatically reporting a supply command including a supply amount. In the wastewater disinfectant supply management center that manages information for supplying disinfectant to multiple sewer overflow facilities equipped with wastewater disinfecting devices for disinfecting wastewater in a given area with chemicals,
Facility information storage means for storing facility information including location information of drainage disinfection devices of each sewer overflow water countermeasure facility;
Drug factory information storage means for storing factory information including drug factory location information and drug inventory information that provides drugs for wastewater disinfection;
Drainage disinfection based on inflow water amount, inflow turbidity, coliform group number, rainfall intensity, and rainfall amount, which are drainage property information and rainfall information from the drainage disinfection device from the communication terminal provided at each sewer overflow facility device estimating a prediction drug consumption required to disinfect Oite wastewater, and the predicted drug consumption is the estimated and actually put a driver information communicated from the sewer overflow protection facilities A second determination is made as to whether or not the medicine should be supplied to the sewer overflow management facility by comparing whether or not there is a drug shortage by comparing the latest drug inventory calculated based on the drug input amount. Determining means,
Location information and drug factory information storage of the sewer overflow management facility which is activated when it is determined that the medicine should be supplied to the sewer overflow management facility with the second determination means and stored in the facility information storage means By referring to the location information and drug inventory information of the drug factory stored in the means, the optimal drug factory for supplying the drug to the sewer overflow management facility is set, and the drug supply time and supply to the drug factory A wastewater disinfectant supply management center comprising a medicine supply command means for automatically reporting a supply command including a quantity. Drainage that manages information for supplying disinfectant to each sewer stormwater overflow countermeasure facility and the communication terminals of each sewer stormwater overflow countermeasure facility equipped with a drainage disinfection device for disinfecting wastewater in a given area with chemicals. A wastewater disinfectant supply management system comprising a disinfectant supply management center and a communication terminal of one or more drug factories that receive a chemical supply instruction from the management center and supply a chemical to a sewer overflow management facility, A drainage disinfectant supply management system according to claim 1 or 2, wherein the drainage disinfectant supply management center is the drainage disinfectant supply management center.

Images