JP6801509B2 - Water treatment system proposal support device, water treatment system proposal support method, and program - Google Patents

Description

The present invention proposes a water treatment system that supports the proposal of a water treatment system that estimates the raw water quality information of the relevant part and performs appropriate treatment, and a water treatment system that can improve facilities such as water saving, energy saving, and cost saving. Regarding support equipment, water treatment system proposal support methods, and programs.

When installing water treatment equipment, customers are required to estimate initial costs and running costs. Patent Document 1 includes a unit database that stores each equipment specification of a plurality of types of units in which a plurality of types of components are assembled according to a predetermined equipment specification and the equipment price thereof, and according to the input water treatment specification. An estimation system that searches the unit database, selects one or more units necessary to build a water treatment facility that meets the water treatment specifications, and estimates the equipment price of the water treatment facility built by the selected unit is disclosed. Has been done.

In such a conventional estimation system, it is possible to select the unit necessary for constructing a water treatment facility and estimate the cost of the water treatment facility by inputting the analysis result of the raw water quality by the water quality analysis organization. It was. However, since it takes several days to obtain the analysis result from the water quality analysis institution, it is difficult to promptly present the estimated cost of the proposed water treatment facility to the customer.

Japanese Unexamined Patent Publication No. 2003-114989

The present invention has been made in view of the above circumstances, estimates the water quality at the installation location of the water treatment system, and promptly and accurately calculates and presents various costs associated with the introduction of the water treatment system based on the estimated water quality. The subject is to provide a water treatment system proposal support device, a water treatment system proposal support method, and a program that can be used.

The water treatment system proposal support device of the present invention includes a water quality information storage unit that stores water quality information at each of a plurality of points, a search range information storage unit that stores search range information corresponding to each of a plurality of water types, and a search range information storage unit. From the water treatment system information storage unit that stores the specification information of a plurality of water treatment systems, the condition input unit that accepts the input of water treatment conditions including the water treatment specifications, water type and position information, and the search range information storage unit. The search range determination unit that extracts the search range information corresponding to the water type input via the condition input unit and determines the search range, and the location information and the search range determination unit determine from the water quality information storage unit. It is provided with a water quality estimation unit that extracts water quality information of points corresponding to the searched search range and calculates the estimated water quality.

In one aspect of the present invention, a selection unit that selects at least one water treatment system from the plurality of water treatment systems based on the estimated water quality and the water treatment specifications, and specification information of the selected water treatment system. A cost calculation unit that calculates the cost saving amount, payback year, introduction cost or operating cost of the selected water treatment system based on the estimated water quality and the water treatment specifications, and the cost calculation unit calculated by the cost calculation unit. It further includes a display unit that displays the cost saving amount, the payback year, the introduction cost, or the operating cost.

In one aspect of the present invention, the water quality estimation unit extracts water quality information at a plurality of points from the water quality information storage unit, and calculates the estimated water quality from the water quality information at the plurality of points.

In one aspect of the present invention, the water quality estimation unit calculates the estimated water quality by excluding exception values from the water quality information at a plurality of points extracted from the water quality information storage unit.

In one aspect of the present invention, a position information acquisition unit that acquires the position information by using GPS (Global Positioning System) or triangulation by a base station is further provided.

The water treatment system proposal support method of the present invention is a search range information storage unit that accepts input of water treatment conditions including water treatment specifications, water type and position information, and stores search range information corresponding to each of a plurality of water types. The search range information corresponding to the input water type is taken out from, the search range is determined, and the water quality information storage unit that stores the water quality information at each of the plurality of points corresponds to the position information and the determined search range. At least one of a plurality of water treatment systems in which the specification information is stored in the water treatment system information storage unit based on the estimated water quality and the water treatment specifications by extracting the water quality information of the point to be performed, calculating the estimated water quality. Select a water treatment system and calculate the cost saving amount, payback year, introduction cost or operating cost of the selected water treatment system based on the specification information of the selected water treatment system, the estimated water quality, and the water treatment specifications. Then, the calculation result is displayed on the display unit.

The program of the present invention inputs from a step of accepting input of water treatment conditions including water treatment specifications, water type and position information, and a search range information storage unit that stores search range information corresponding to each of a plurality of water types. Corresponds to the position information and the determined search range from the step of extracting the search range information corresponding to the determined water type and determining the search range and the water quality information storage unit that stores the water quality information at each of the plurality of points. At least one of a plurality of water treatment systems in which the specification information is stored in the water treatment system information storage unit based on the step of extracting the water quality information at the site and calculating the estimated water quality and the estimated water quality and the water treatment specifications. Based on the steps to select one water treatment system, the specification information of the selected water treatment system, the estimated water quality, and the water treatment specifications, the cost saving amount, payback year, introduction cost or operation of the selected water treatment system. The step of calculating the cost and displaying the calculation result on the display unit is performed by the computer.

According to the present invention, in order to estimate the water quality of raw water at the installation location of the proposed water treatment system from the water quality information of the points included in the search range corresponding to the input water type and the area determined from the input position information. , Various costs associated with the introduction of a water treatment system can be calculated and presented quickly and accurately. In addition, you may input information such as a zip code and a telephone number that can narrow down the location information, and add an operation to assist the input of the location information.

It is a hardware block diagram of the water treatment system proposal support apparatus which concerns on embodiment of this invention. It is a functional block diagram realized by executing the proposal support program which concerns on the same embodiment. It is a flowchart explaining the water treatment system proposal support method which concerns on this embodiment. It is a block diagram of the water treatment system proposal support device which concerns on another embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a hardware configuration diagram of a water treatment system proposal support device according to an embodiment. The water treatment system proposal support device includes an arithmetic control unit 1, a storage unit 2, an input unit 3, a display unit 4, and a communication unit 5, and can use, for example, a smartphone, a tablet terminal, a notebook personal computer, or the like.

The arithmetic control unit 1 controls the operation of the water treatment system proposal support device, calculates data, and has a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), a memory controller, a display controller, and the like. ..

The storage unit 2 has a main storage device such as a RAM and an auxiliary storage device such as a hard disk or a flash memory, and stores a proposal support program.

The storage unit 2 has a water quality information storage unit that stores water quality information at each of the plurality of points. This water quality information is referred to when estimating the water quality at the installation site of the proposed water treatment system. For example, as shown in Table 1 below, the storage unit 2 stores water quality information including coordinates indicating the location of each point, sampling location, sampling date and time, water quality data, and the like.

The storage unit 2 has a search range information storage unit that stores search range information corresponding to each of the plurality of water types. This search range information defines how much range of water quality information should be referred to around the installation location when estimating the water quality at the installation location of the proposed water treatment system. Here, the water type may be any water that can be distinguished from cooling water, boiler water, seawater, tap water, industrial water, and the like. The distance may be arbitrarily set for each type of water, and may be arbitrarily set in association with position information. For example, the search range of cooling water has a radius of 50 m, biologically treated water has a radius of 50 m, industrial water has a radius of 2 km, and tap water has the same municipality. In addition, the search range can be defined by combining water type and location information, such as 1 km for tap water located in city A and 500 m for tap water located in city B.

Further, the storage unit 2 has a water treatment system information storage unit that stores specification information of a plurality of water treatment systems. The specification information includes, for example, the prices of components and chemicals used, constraints on water treatment, water treatment calculation formulas, and the like. The water treatment system proposal support device selects a water treatment system to be proposed to the customer from a plurality of water treatment systems.

The input unit 3 is a device for inputting data, and a mouse, keyboard, or the like can be used. The display unit 4 is a display for displaying the calculation result and the like. The input unit 3 and the display unit 4 may be configured by a touch panel.

The communication unit 5 transmits / receives data via wired communication or wireless communication.

By executing the above-mentioned proposal support program, the arithmetic control unit 1 executes the condition input unit 11, the search range determination unit 12, the water quality estimation unit 13, the water treatment system selection unit 14, and the cost calculation unit, as shown in FIG. 15 and the display processing unit 16 are realized. The processing in the condition input unit 11, the search range determination unit 12, the water quality estimation unit 13, the water treatment system selection unit 14, the cost calculation unit 15, and the display processing unit 16 will be described with reference to the flowchart shown in FIG.

When the user inputs the water treatment condition including the water treatment specification requested by the customer and the water type and position information to be treated by using the input unit 3, the condition input unit 11 accepts the input of the water treatment condition. (Step S1). The water treatment specifications are, for example, the amount of water and the temperature of water.

The search range determination unit 12 refers to the search range information stored in the storage unit 2 and determines a search range corresponding to the water type received by the condition input unit 11 (step S2). For example, when the water type is cooling water, the search range determination unit 12 determines the search range to have a radius of 50 m.

The water quality estimation unit 13 extracts from the storage unit 2 the water quality information of the points included in the area determined by the position information received by the condition input unit 11 and the search range determined by the search range determination unit 12, and estimates the water quality. (Step S3).

For example, when the condition input unit 11 accepts the input of "Kawada Ichibanchi, Nogi-cho, Shimotsuga-gun, Tochigi Prefecture" as the position information and "cooling water" as the water type, the water quality estimation unit 13 "Kawada, Nogi-cho, Shimotsuga-gun, Tochigi Prefecture" Search for points included in the area with a radius of 50 m, centering on "N36.229784", "E139.784442", and "WGS25", which are the center coordinates of "Ichibanchiichi". The water quality estimation unit 13 extracts the water quality information of # 1 and # 2 from the water quality information shown in Table 1 above, calculates the average of the water quality data of both, and obtains the estimated water quality of "Ca290, Mg150, ...". calculate.

The water treatment system selection unit 14 is a plurality of water treatment systems in which specification information is stored in the storage unit 2 based on the water treatment specifications received by the condition input unit 11 and the estimated water quality calculated by the water quality estimation unit 13. From among these, a water treatment system capable of performing water treatment that realizes the water treatment specifications required by the customer is selected from the raw water of the estimated water quality (step S4). The water treatment system selected here becomes the water treatment system proposed to the customer.

The cost calculation unit 15 proposes based on the specification information of the water treatment system selected by the water treatment system selection unit 14, the water treatment specifications received by the condition input unit 11, and the estimated water quality calculated by the water quality estimation unit 13. The introduction cost, running cost, etc. of the water treatment system to be used are calculated, and the cost saving amount, etc. compared with the current system is calculated (step S5).

For example, in the specification information of the proposed water treatment system, "applicable water type", "constraint condition of water treatment", "cost of component parts and chemicals", and "water treatment calculation formula" are registered. The water treatment system may include a water treatment device, or may be a water treatment proposal containing only chemicals.

The specification information of the water treatment system that brings about the water saving effect by adding the cooling water chemicals to improve the concentration ratio of the cooling tower is as follows.

Applicable water type: Cooling water only

Contract conditions for water treatment:
- circulating water Ca concentration limit (Drug A: 200mgCaCO ₃ / L, drug B: 300mgCaCO ₃ / L ...)
・ Upper limit of circulating water silica concentration (Chemical A: 100 mgCaCO ₃ / L, Chemical B: 1500 mgCaCO ₃ / L ...)
・ Concentration ratio 10 times ・ Make-up water temperature 40 ℃ or less ・ Water supply temperature from cooling tower <Return water temperature to cooling tower ・ Return water temperature to cooling tower <60 ℃

Component and chemical costs:
・ Chemical A: 2500 yen / kg
・ Chemical B: 2200 yen / kg

Water treatment formula:
・ Proposed concentration ratio The smaller of the upper limit of Ca concentration in circulating water / Ca concentration in make-up water and the upper limit of silica concentration in circulating water / silica concentration in make-up water ・ Amount of scattered water Amount of circulating water x 0.001
・ Amount of evaporated water Amount of circulating water x (temperature of water returning to the cooling tower-temperature of water sent from the cooling tower) / 580
・ Blow water amount Evaporated water amount / (concentration ratio -1) -Spattered water amount ・ Supplementary water amount Scattered water amount + Evaporated water amount + Blow water amount ・ Water saving amount Supplementary water amount (current) -Replenished water amount (proposal) × Annual operating time ・ Running cost Supplementary water cost (Current status) = Supplementary water amount (Current status) x Supplementary water unit price x Annual operating time Supplementary water cost (Proposal) = Supplementary water volume (Proposed) x Supplementary water unit price x Annual operating time Wastewater treatment cost (Current status) = Blow water volume (Current status) x Wastewater treatment unit price x annual operating time Wastewater treatment cost (proposal) = blow water amount (proposal) x wastewater treatment unit price x annual operating time Chemical cost (current) = make-up water amount (current) x chemical addition amount (current) x chemical unit price (current) ) × Annual operating time Chemical cost (proposal) = Supplement water amount (proposal) × Chemical addition amount (current) × Chemical unit price (proposal) × Annual operating time ・ Cost saving amount Supplement water cost reduction = Supplement water cost (current)- Makeup water cost (suggestion)
Wastewater treatment cost reduction = Wastewater treatment cost (current status) -Wastewater treatment cost (proposal)
Chemical cost reduction = Chemical cost (current status) -Chemical cost (proposal)
Total cost saving = Replenishment water cost reduction + Wastewater treatment cost reduction + Chemical cost reduction ・ Investment recovery year Total cost saving / Investment amount

The display processing unit 16 causes the display unit 4 to display the cost saving amount, the investment payback year, the introduction cost, the operating cost, and the like calculated by the cost calculation unit 15 (step S6).

As described above, according to the present embodiment, when proposing a water treatment system, the water quality of raw water at the installation location is estimated from the water quality information around the installation location of the water treatment system, and the estimated water quality is used for the proposal. Calculate various costs of the water treatment system. As a result, the effect of introducing the water treatment system proposed in various factories and plants can be estimated and presented accurately and promptly in front of the customer, so that the customer's decision-making and introduction plan can be made quickly. A great effect is produced in practical use.

In the above embodiment, an example in which the user inputs the position information using the input unit 3 has been described, but as shown in FIG. 4, the position information acquisition unit that automatically acquires the position information to the water treatment system proposal support device. 6 may be provided. The position information acquisition unit 6 may use GPS (Global Positioning System), or may transmit and receive electromagnetic waves to and from a plurality of base stations to identify the position by triangulation.

The estimated water quality calculated by the water quality estimation unit 13 is not limited to the average value of the plurality of water quality information extracted from the storage unit 2, and may be a maximum value or a minimum value. The estimated water quality may be calculated by weighting a plurality of water quality information taken out from the storage unit 2 according to the distance from the input position. Further, the exception value may be excluded from the plurality of water quality information retrieved from the storage unit 2 by statistical analysis.

The water treatment system selection unit 14 selects a plurality of water treatment systems, the cost calculation unit 15 calculates the cost etc. for each water treatment system, and displays them on the display unit 4 so that the introduction effects of the water treatment systems can be compared. May be good.

Each function of the water treatment system proposal support device may be distributed to a plurality of devices that are communicably connected via a network. For example, when the user inputs water treatment specifications, water type, and location information to the terminal, these information are transferred to the server device. The server device determines the search range corresponding to steps S2 to S5 in the flowchart of FIG. 3, estimates the water quality, selects the water treatment system, and calculates the cost. The server device transmits the cost calculation result to the terminal. The user can display the cost calculation result received from the server device on the display of the terminal and present it to the customer.

With such a configuration, when the water quality information is changed or newly registered, it is only necessary to update the water quality information stored on the server side, and the calculation can be performed using the latest information.

The present invention is not limited to the above embodiment as it is, and at the implementation stage, the components can be modified and embodied within a range that does not deviate from the gist thereof. In addition, various inventions can be formed by an appropriate combination of the plurality of components disclosed in the above-described embodiment. For example, some components may be removed from all the components shown in the embodiments. In addition, components across different embodiments may be combined as appropriate.

1 Calculation control unit 2 Storage unit 3 Input unit 4 Display unit 5 Communication unit 11 Condition input unit 12 Search range determination unit 13 Water quality estimation unit 14 Water treatment system selection unit 15 Cost calculation unit 16 Display processing unit

Claims (7)

A water quality information storage unit that stores water quality information at each of multiple points,
A search range information storage unit that stores search range information corresponding to each of multiple water types,
A water treatment system information storage unit that stores specification information of multiple water treatment systems,
A condition input unit that accepts input of water treatment conditions including water treatment specifications, water type and location information,
A search range determination unit that extracts search range information corresponding to the water type input via the condition input unit from the search range information storage unit and determines the search range, and a search range determination unit.
A water quality estimation unit that calculates the estimated water quality by extracting the water quality information of the location corresponding to the location information and the search range determined by the search range determination unit from the water quality information storage unit.
Water treatment system proposal support device equipped with. A selection unit that selects at least one water treatment system from the plurality of water treatment systems based on the estimated water quality and the water treatment specifications.
With a cost calculation unit that calculates the cost saving amount, investment payback year, introduction cost or operating cost of the selected water treatment system based on the specification information of the selected water treatment system, the estimated water quality, and the water treatment specifications. ,
A display unit that displays the cost saving amount, investment payback year, introduction cost or operating cost calculated by the cost calculation unit, and
The water treatment system proposal support device according to claim 1, further comprising. The water treatment system proposal according to claim 1 or 2, wherein the water quality estimation unit extracts water quality information at a plurality of points from the water quality information storage unit, and calculates the estimated water quality from the water quality information at the plurality of points. Support device. The water treatment system proposal support device according to claim 3, wherein the water quality estimation unit calculates the estimated water quality by excluding exception values from water quality information at a plurality of points taken out from the water quality information storage unit. The water treatment system proposal support device according to any one of claims 1 to 4, further comprising a position information acquisition unit that acquires the position information by using GPS (Global Positioning System) or triangulation by a base station. .. Accepts input of water treatment conditions including water treatment specifications, water type and location information,
The search range information corresponding to the input water type is extracted from the search range information storage unit that stores the search range information corresponding to each of the plurality of water types, and the search range is determined.
From the water quality information storage unit that stores the water quality information at each of the plurality of points, the water quality information of the points corresponding to the position information and the determined search range is taken out, and the estimated water quality is calculated.
Based on the estimated water quality and the water treatment specifications, at least one water treatment system is selected from a plurality of water treatment systems whose specification information is stored in the water treatment system information storage unit.
Based on the specification information of the selected water treatment system, the estimated water quality, and the water treatment specifications, the cost saving amount, payback year, introduction cost or operating cost of the selected water treatment system is calculated, and the calculation result is displayed on the display unit. Water treatment system proposal support method to be displayed on. Steps to accept input of water treatment conditions including water treatment specifications, water type and location information,
A step of extracting the search range information corresponding to the input water type from the search range information storage unit that stores the search range information corresponding to each of a plurality of water types and determining the search range.
A step of extracting the water quality information of the points corresponding to the position information and the determined search range from the water quality information storage unit that stores the water quality information at each of the plurality of points, and calculating the estimated water quality.
A step of selecting at least one water treatment system from a plurality of water treatment systems whose specification information is stored in the water treatment system information storage unit based on the estimated water quality and the water treatment specifications.
Based on the specification information of the selected water treatment system, the estimated water quality, and the water treatment specifications, the cost saving amount, investment payback year, introduction cost or operating cost of the selected water treatment system is calculated, and the calculation result is displayed on the display unit. And the steps to display in
A program that causes a computer to run.

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