KR101785610B1 - An integration management system of waste nutrient solution and method for the same - Google Patents

Abstract

The integrated waste nutrient solution management system according to an embodiment of the present invention is a system for collecting waste nutrient solution discharged from waste nutrient solution discharged from waste nutrient solution discharged from a waste nutrient solution reuse processor, Amount data and waste liquid discharge volume data generated by discharging the recycled pulp nutrient solution from the pulp nutrient solution farmer; The collected waste liquid collecting volume data, the collected waste liquid collecting volume data, and the waste liquid collecting volume data, statistical processing is performed on the amount of discharged waste, collected amount, recovered amount of resources, A management unit for generating the management information; And a transmitting unit for transmitting the collected nutrient solution integrated management information to an external terminal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated management system

Embodiments of the present invention are directed to a system and method for integrated waste liquid management.

In general, nutrient solution cultivation is a cultivation method in which crops are cultivated using a culture medium in which essential elements required for the growth of crops are not dissolved in the soil at appropriate concentrations according to their absorption ratios. Hydroponic cultivation is divided into air culture, hydroponics, and solid culture depending on the type of excretion.

Facilities for growing horticultural crops using glass greenhouses or vinyl houses in nutrient solution cultivation There are two main types of horticultural nutrient solution cultivation, depending on whether waste nutrient solution discharged after cultivation is discarded or recycled.

However, the amount of pulp nutrient solution that is generated in the cultivation process of the nursing home garden in recent years is increasing, and the loss of the fertilizer resource in the pulp nutrient solution is also increasing. As a result, most of the discharged waste liquid is not reused and is indiscriminately discharged / illegally dumped into nearby rivers, pointing to water pollution of rivers and pollution sources of surrounding ecosystems.

Therefore, there is an urgent need to develop a system capable of creating and operating a deliberate delayed unit cycle, reuse, and distribution model of pulp nutrient solution.

Related Prior Art Patent Application Publication No. 10-2010-0112397 entitled "Method for Reuse of Agricultural Wastewater from Agricultural Wastewater, Public Date: October 19, 2010").

One embodiment of the present invention establishes a systematization process of the waste disposal, collection, transport, resource reclamation, and agricultural land reprocessing of the waste nutrient solution, thereby realizing the processing status of discharge of waste nutrient solution, transfer of ownership, And an integrated management system for a nutrient solution to be managed and tracked.

The problems to be solved by the present invention are not limited to the above-mentioned problem (s), and another problem (s) not mentioned can be clearly understood by those skilled in the art from the following description.

The integrated waste nutrient solution management system according to an embodiment of the present invention is a system for collecting waste nutrient solution discharged from waste nutrient solution discharged from waste nutrient solution discharged from a waste nutrient solution reuse processor, Amount data and waste liquid discharge volume data generated by discharging the recycled pulp nutrient solution from the pulp nutrient solution farmer; The collected waste liquid collecting volume data, the collected waste liquid collecting volume data, and the waste liquid collecting volume data, statistical processing is performed on the amount of discharged waste, collected amount, recovered amount of resources, A management unit for generating the management information; And a transmitting unit for transmitting the collected nutrient solution integrated management information to an external terminal.

The waste water collection amount data may be generated by measuring the weight of the collected waste liquid through the weight sensor provided in the waste liquid conveying device when the collected waste liquid is conveyed to the waste liquid rehabilitation processor.

Wherein the receiving unit receives information on the transportation of the collected waste liquid through the mobile communication terminal provided in the waste liquid conveying apparatus when the collected waste liquid is conveyed to the waste liquid liquid recycling processor, It is possible to confirm and manage the status of the collected nutrient solution transported to the pulp nutrient solution rehabilitation processor in real time based on the information on transportation.

The waste water recovery material recovery amount data may be generated by adjusting the collection process of the collected waste liquid through an automatic sensor provided by the waste liquid waste rehabilitation processor.

Wherein the receiver receives information on the transportation of the spent waste nutrient solution through the mobile communication terminal provided in the waste nutrient solution transporting device when the recovered waste nutrient solution is transported to the pulp nutrient solution farmer, It is possible to confirm and manage the current status of the spent nutrient solution conveyed to the pulp nutrient solution farmer in real time.

The waste nutrient solution discharge amount data may be generated by measuring the weight of the discharged waste nutrient solution through the weight sensor provided in the waste nutrient solution transporting apparatus when the recovered waste nutrient solution is transported to the waste nutrient solution farmer and transported to agricultural land have.

The management unit calculates the average value of the amount of discharged waste, collected amount, recovered amount of resources and amount of collected agricultural land by each individual or group of the waste nursing liquid, and compares the average value with the average value every predetermined period, , And can generate the integrated waste management liquid management information.

The management unit may manage the access authority of the external terminal with respect to the waste nutrient solution management information.

The details of other embodiments are included in the detailed description and the accompanying drawings.

According to one embodiment of the present invention, by establishing a systematization process of the processes of discharging, collecting, transporting, recycling, and reprocessing the waste nutrient solution, the present status of disposal of wastewater, transfer of ownership, It can be tracked and managed in real time.

According to one embodiment of the present invention, water resources and fertilizer resources can be recycled through the reprocessing of the waste nutrient solution, thereby reducing the agricultural nonpoint source pollution and thereby maintaining a sound environmental ecosystem. Further, Or problems such as unauthorized discharge can be prevented in advance.

According to an embodiment of the present invention, by reusing the waste nutrient solution, it is possible to reduce resources (water and fertilizer resources) and reduce the environmental purification cost in the rural area, and the incidence of complaints due to environmental pollution can be reduced.

1 is a network configuration diagram of a waste nutrient solution management system according to an embodiment of the present invention.
2 is a block diagram illustrating a system for managing integrated waste liquid according to an embodiment of the present invention.
FIG. 3 is a view for explaining equipment provided in the waste liquid conveyance apparatus in one embodiment of the present invention. FIG.
4 is a flowchart illustrating a method of managing integrated waste liquid according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and / or features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but is capable of many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

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

FIG. 1 is a network configuration diagram of a waste nutrient solution management system according to an embodiment of the present invention, and FIG. 2 is a block diagram illustrating a waste nutrient solution management system according to an embodiment of the present invention.

1 and 2, the waste nutrient solution management system 100 according to an exemplary embodiment of the present invention includes a receiving unit 210, a management unit 220, and a transmitting unit 230.

The receiving unit 210 receives the waste liquid collection amount data 115 generated by collecting the waste liquid discharged from the waste liquid discharger 110.

Here, the waste fluid collection amount data 115 may be collected and generated by a waste nutrient solution transport device (see "300" in FIG. 3).

Specifically, the carrier 120 collects the pulp nutrient solution through the pulp nutrient solution transporting device and then transports the pulp nutrient solution to the pulp nutrient solution rehabilitation processor 130. At this time, Quot; 320 ") can measure the weight of the recovered waste nutrient solution to generate the waste nutrient solution collection amount data 115. [ Here, the weight sensor may be mounted, for example, below the tank storing the waste nutrient solution of the waste nutrient solution transporting device.

Alternatively, the waste fluid collection amount data 115 may be generated by a flow meter (not shown) provided in the waste water conveyance device. That is, the flow meter provided in the waste solution conveying apparatus can generate the waste water collection amount data 115 by measuring the flow amount of the waste waste liquid at the collection time.

As described above, in the present embodiment, the waste fluid collection amount data 115 can be generated by measuring the collection amount of the waste waste liquid using a weight sensor, a flow meter, and the like provided in the waste liquid transfer apparatus, but the present invention is not limited thereto. The waste fluid collection amount data 115 may be generated using an instrument, for example, a weight scale.

The generated waste fluid collection amount data 115 may be transmitted to the waste nutrient solution management system 100 through a mobile communication terminal (see "330" in FIG. 3) provided in the waste water conveyance apparatus. Accordingly, the receiving unit 210 can receive the generated waste fluid collection amount data 115 from the mobile communication terminal.

Here, the waste water collection amount data 115 may include collection date and time, collection amount of the collected waste nutrient solution, identification information of the waste nutrient solution transport device, carrier information, and the like.

For reference, the waste nuclide discharger 110 discharges waste nutrient solution such as the amount of the discharged waste nutrient solution, the place (for example, address), the information on the discharge person (for example, discharged farmer) The user can directly access the web site linked to the waste nutrient solution management system 100 and directly enter the web site.

After the waste fluid collection amount data 115 is transferred to the reception unit 210, the carrier 120 that collects and transports the waste nutrient solution uses the waste nutrient solution transport device to transfer the collected waste nutrient solution to the waste To the nutrient rehabilitation processor (130).

At this time, the pulp nutrient solution transporting apparatus may issue an electronic passenger receipt including the information 125 about the discharge of the waste nutrient solution to the waste nutrient solution discharger 110 through the mobile communication terminal provided therein .

In order to do this, when the collected waste liquid is transported to the pulp nutrient rehabilitation processor 130, the receiving unit 210 stores the information 125 about the transportation of the collected waste liquid in the waste liquid recipient 130 And can receive through the mobile communication terminal.

That is, the receiving unit 210 wirelessly receives the transportation information 125 from the mobile communication terminal, creates the electronic transfer receipt based on the received transportation information 125, So that the electronic handover receipt can be issued to the waste nuclide discharger 110 through the mobile communication terminal.

Here, the transport information 125 may include a transport date and time, a carrier, a transport amount, a transportation destination, and the like of the collected waste nutrient solution. The conveyance information 125 is used by the management unit 220 to be described later in order to allow the collected nutrient solution to be checked and managed in real time by the waste nutrient solution rehabilitation processor 130 It can be utilized as data.

Meanwhile, the pulp nutrient solution rehabilitation processor 130 may receive the collected waste nutrient solution from the carrier 120. At the same time, an internal server (or a separate external server) provided in the waste liquid re-treatment processing facility receives information 125 about the transportation of collected waste liquid from the mobile communication terminal provided in the waste liquid conveying apparatus can do.

The receiving unit 210 receives the collected waste liquid recovery amount data 135 generated by recycling the collected waste liquid from the waste liquid liquid refinement processor 130.

Here, the waste liquid reserve resource amount data 135 may be generated through an automatic sensor (not shown) provided in the waste liquid fluid re-processor 130.

Specifically, the pulp nutrient solution rehabilitation processor 130 may generate the pulp nutrient solution utilization amount data 135 by adjusting the recycling process operation of the collected waste nutrient solution through the automatic sensor.

That is, the waste liquid recovery volume data 135 may be generated after the collected waste liquid is subjected to a recycling process such as sterilization, pH and EC correction, and nutrient concentration balance management by the automatic sensor. Here, the automatic sensor may include, for example, a temperature and humidity sensor or a salt / acidity measurement sensor.

The generated waste water recovery volume data 135 may be transmitted to the waste nutrient solution management system 100 through an internal server (or an associated separate external server) provided in the waste nutrient solution waste water rehabilitation processing facility. Accordingly, the receiving unit 210 may receive the generated waste liquid recovery volume data 135 from an internal server (or an associated external server) provided in the waste liquid liquid treatment facility.

Here, the waste water recovery volume data 135 may include details such as the volume production information (e.g., the date and time of the reclamation process) of the spent waste nutrient solution,

After the waste water recovery volume data 135 is transmitted to the receiver 210, the carrier 120 uses the waste nutrient solution transport device to transfer the recovered waste nutrient solution to the waste nutrient solution farmer 140 ) Of the United States.

The receiving unit 210 may transmit the information 125 about the transportation of the spent waste nutrient solution to the mobile communication terminal 140 provided in the waste nutrient solution conveying apparatus 140, Lt; / RTI >

That is, the receiving unit 210 may wirelessly receive the transportation information 125 including the transportation date and time, the carrier, the transportation amount, and the transportation destination of the spent waste nutrient solution from the mobile communication terminal.

The transporting information 125 is used by the management unit 220 to be described later in order to be able to confirm and manage the current status of the spent waste nutrient solution to the waste nutrient solution farmer 140 in real time It can be utilized as data.

Meanwhile, the spent nutrient solution cultivator processor 140 can receive the spent nutrient solution from the carrier 120. In other words, the carrier 120 can deliver the recovered waste nutrient solution to the cropland processor 140 by spraying the recovered waste nutrient solution onto a cropland, such as a field, an orchard, or a forest land.

The receiving unit 210 receives the waste nutrient solution discharge amount data 145 generated by discharging the spent waste nutrient solution from the waste nutrient solution farmer 140.

Here, the waste nutrient solution discharge amount data 145 may be generated by spraying the recycled waste nutrient solution to the cropland by the waste nutrient solution transport device.

Specifically, the carrier 120 transports the recovered waste nutrient solution to the cropland through the waste nutrient solution conveying device to the waste nutrient solution farmer 140. At this time, The amount of waste liquid discharge amount data 145 can be generated by measuring the weight of the waste liquid liquid discharged to the cropland.

Alternatively, the waste nutrient solution discharge amount data 145 may be generated by a flow meter (not shown) included in the waste water conveyance device. That is, the flowmeter provided in the waste liquid conveying apparatus can generate the waste liquid discharge amount data 145 by measuring the flow rate of the waste liquid liquid at the time of discharging the waste liquid liquid.

As described above, in this embodiment, the waste liquid discharge amount data 145 can be generated by measuring the discharge amount of the waste liquid liquid using a weight sensor, a flow meter, and the like provided in the waste liquid liquid transfer device. However, The waste liquid discharge amount data 145 may be generated using a measuring instrument, for example, a weight balance.

The generated waste nutrient solution discharge amount data 145 may be transmitted to the waste nutrient solution management system 100 through the mobile communication terminal provided in the waste nutrient solution transport device. Accordingly, the receiving unit 210 can receive the generated waste liquid discharge amount data 145 from the mobile communication terminal.

Here, the waste liquid discharge amount data 145 may include the date and time of unloading of the discharged waste liquid, the discharge amount, the identification information of the waste liquid liquid transport device, and the carrier information.

For reference, the cropland processor 140 processes the exported waste nutrient solution into the cropland, and thereafter, the amount of the treated waste nutrient solution, the location (e.g., address), the processor information The nutrient solution processing information can be integrated and input by accessing a website linked to the waste nutrient solution management system 100. [

Based on the received waste liquid amount collected data 115, waste liquid recovered amount data 135 and waste liquid discharge amount data 145, the management unit 220 calculates a discharge amount, a collection amount, a resource amount And the amount of farmland discharge, thereby generating waste nutrient solution management information.

For this, the management unit 220 may calculate an average value of the amount of discharged waste, the amount of collected waste, the amount of recovered waste, and the amount of discharged agricultural land by each individual or group of waste liquid.

In other words, the management unit 220 can identify the trend of recycling of the discharged waste liquid through the statistical processing for comparing the calculated average value for each individual, region, or nation, Management information can be generated.

Specifically, the management unit 220 calculates the ratio of the collected waste liquid to be recycled, the ratio of the collected waste liquid to the recycled waste liquid, The rate at which the recycled waste liquid is reprocessed can be stored as data by day, month, quarter and year. Accordingly, the management unit 220 can collect the stored data and convert the stored data into a database, thereby generating the integrated nutrient solution management information.

The management unit 220 can manage the access authority of the external terminal 150 with respect to the waste fluid integrated management information.

To this end, the management unit 220 may provide an authentication code to the external terminal 150 so that no one can inquire, modify, or delete the waste fluid integrated management information.

That is, the management unit 220 identifies the external terminal 150 through the authentication code assigned to the external terminal 150, thereby efficiently accessing the access management information such as inquiry, modification, and deletion .

Meanwhile, the management unit 220 can control real-time variables that may occur when the collected waste liquid or the spent waste liquid is transported.

For example, a parameter of the conveyance delay such as the conveyor 120 not carrying the recycled pulp nutrient solution or the recovered waste pulp solution intentionally or unintentionally, or a vehicle accident occurring may occur.

When the above-mentioned variable occurs, the management unit 220 delays the statistical processing of the collected waste liquid or the recovered waste liquid liquid to the mobile communication terminal, and after the generated variable is recovered, The processing can be performed again. For this, the management unit 220 may receive a signal input from the carrier 120 in association with the completion of the parameter settlement from the mobile communication terminal.

The transfer unit 230 transfers the waste fluid integrated management information to the external terminal 150.

At this time, the transfer unit 230 transmits the waste fluid integrated management information to the external terminal 150 so that the waste fluid collection volume data, the waste water recovery volume data, In real time.

Here, the external terminal 150 may correspond to a central administrative institution such as the Ministry of Agriculture and Forestry (Rural Development Administration) or an electronic terminal managed by each local government entity. The wireless communication network may include a ZigBee, a 3G / 4G communication network, a WIBRO, a WIFI, an RFID, and the like. have.

Thus, according to one embodiment of the present invention, systematization of work processes such as discharge, collection, transportation, reprocessing and agricultural land recycling of pulp nutrient solution has been established, and the status of disposal of wastewater, transfer of ownership, It can be tracked and managed in real time.

Therefore, according to one embodiment of the present invention, water resources, fertilizer resources, etc. can be recycled through reprocessing of waste nutrient solution, thereby reducing the agricultural nonpoint source pollution source, thereby maintaining a sound environmental ecosystem, Such as illegal dumping or unauthorized discharge of the product, can be prevented in advance.

FIG. 3 is a view for explaining equipment provided in the waste liquid conveyance apparatus in one embodiment of the present invention. FIG.

3, the waste fluid transport apparatus 300 may include a set top box 310, a weight sensor 320, a mobile communication terminal 330, and a camera imaging apparatus 340.

The mobile communication terminal 330 may receive the weight information of the waste liquid from the weight sensor 320 and transmit the weight information to the set top box 310.

The set-top box 310 may transmit the weight information of the waste liquid sent from the mobile communication terminal 330 to the mobile terminal 330 using code division multiple access (CDMA) and long-term evolution (LTE) Can be transferred to the nutrient solution integrated management system.

The weight sensor 320 may sense the weight of the waste nutrient solution transport apparatus 300 including the waste nutrient solution.

At this time, the weight sensor 320 can measure only the weight of the waste nutrient solution by subtracting the weight of the waste nutrient solution transport device 300 from the weight of the waste nutrient solution transport device 300 including the waste nutrient solution.

Accordingly, the weight sensor 320 can measure the collection amount of the waste nutrient solution discharged from the farmhouse, the amount of the recovered waste nutrient solution recovered, and the amount of the recovered farmland discharged amount of the recovered waste nutrient solution.

The mobile communication terminal 330 supports WIFI or CDMA / LTE technology and can wirelessly transmit the weight information of the waste nutrient solution to the waste nutrient solution management system through the set-top box 310.

Here, the weight information of the waste nutrient solution may include the waste nutrient solution collection amount data, the waste nutrient solution utilization amount data, and the waste nutrient solution discharge amount data.

The camera imaging apparatus 340 can record the process of transporting the collected waste liquid and the spent waste liquid waste in real time by the waste liquid transfer apparatus 300.

4 is a flowchart illustrating a method of managing integrated waste liquid according to an embodiment of the present invention.

1 and 4, in step 410, the waste nutrient solution management system 100 receives the waste nutrient solution collection amount data 115 generated by collecting the waste nutrient solution discharged from the waste nutrient solution discharger 110 .

At this time, when the collected nutrient solution is conveyed to the pulp nutrient solution rehabilitation processor 130, the integrated waste nutrient solution management system 100 may receive information about the collection of the collected nutrient solution.

In addition, the waste nutrient solution management system 100 may receive the waste nutrient solution recovered amount data 135 generated by recycling the waste nutrient solution collected from the waste nutrient solution re-treatment processor 130.

At this time, the integrated waste nutrient solution management system 100 may also receive information on the transportation of the spent waste nutrient solution when the recovered waste nutrient solution is conveyed to the waste nutrient solution farmer 140.

Also, the waste nutrient solution management system 100 can receive the waste nutrient solution discharge amount data 145 produced by discharging the spent waste nutrient solution from the waste nutrient solution farmer 140.

Next, in step 420, the waste nutrient solution management system 100 calculates, based on the received waste nutrient solution collection amount data, waste nutrient solution utilization amount data, and waste nutrient solution discharge amount data, , The amount of resource conversion and the amount of agricultural land transportation, it is possible to generate integrated waste management information.

Next, in step 430, the waste nutrient solution management system 100 may transmit the waste nutrient solution management information to the external terminal 150.

At this time, the integrated waste management integrated management system 100 may manage the access authority of the external terminal with respect to the integrated waste management solution information so as to enhance the security of the access to the integrated waste management solution information.

Therefore, according to one embodiment of the present invention, by reusing the waste nutrient solution, resources (water and fertilizer resources) in the rural area can be reduced and the environmental purification cost can be reduced, and the incidence of complaints due to environmental pollution can be reduced.

Embodiments of the present invention include computer readable media including program instructions for performing various computer implemented operations. The computer-readable medium may include program instructions, local data files, local data structures, etc., alone or in combination. The media may be those specially designed and constructed for the present invention or may be those known to those skilled in the computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROMs and DVDs, magneto-optical media such as floppy disks, and ROMs, And hardware devices specifically configured to store and execute the same program instructions. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

110: Waste fluid discharger
115: waste water collection volume data
120: Carrier
125: Information on transporting waste liquid
130: Pulmonary fluid rehabilitation processor
135: Wastewater recovery volume data
140: Pulp nutrient solution farmer
145: waste liquid discharge rate data
150: External terminal
210:
220:
230:
310: Set-top box
320: Weight sensor
330: Mobile communication terminal
340: camera imaging device

Claims (8)

Data on the amount of waste fluid collected from the pulp nutrient solution discharged from the pulp nutrient extractor, data on the amount of recovered pulp nutrient solution produced by recycling the recovered waste nutrient solution from the waste water rehabilitation processor, A receiving unit for receiving the waste liquid discharge volume data generated and carried out;
The collected waste liquid collecting volume data, the collected waste liquid collecting volume data, and the waste liquid collecting volume data, statistical processing is performed on the amount of discharged waste, collected amount, recovered amount of resources, A management unit for generating the management information; And
And a transfer unit for transferring the waste fluid integrated management information to an external terminal
Lt; / RTI >
The receiving unit
When the collected nutrient solution is transported to the pulp nutrient solution rehabilitation processor, information on the transportation of the collected nutrient solution is received through the mobile communication terminal provided in the waste nutrient solution transport device,
Information about the transportation of the spent waste nuclide is received through the mobile communication terminal provided in the waste nursing liquid conveying device when the recycled pulp nutrient solution is conveyed to the pulp nutrient solution farmer,
The management unit
And real time confirmation and management of the current status of the waste nutrient solution recovered to the waste nutrient solution rejuvenator or the status of the collected waste nutrient solution conveyed to the waste nutrient solution farmer on the basis of the information on the transportation, Integrated nutrient solution management system.
The method according to claim 1,
The waste wastes collection amount data
Wherein the collected nutrient solution is generated by measuring the weight of the collected nutrient solution through a weight sensor provided in the waste nutrient solution transporting device when the collected nutrient solution is transported to the waste nutrient solution rehabilitation processor.
delete The method according to claim 1,
The waste liquid reserve resource data
And the collected waste liquid is collected and collected through an automatic sensor provided in the waste liquid re-treatment processor.
delete The method according to claim 1,
The waste liquid discharge amount data
Characterized in that the waste nutrient solution is produced by measuring the weight of the discharged waste nutrient solution through a weight sensor provided in the waste nutrient solution conveying device when the waste nutrient solution is conveyed to the waste nutrient solution farmer and transported to agricultural land. Management system.
The method according to claim 1,
The management unit
Calculating a mean value of each of the discharged amount, collected amount, recovered amount of resources and cropland discharge amount of the pulp nutrient solution by individual or group, and comparing the average value by a predetermined period, And the nutrient solution integrated management information is generated.
The method according to claim 1,
The management unit
And the access right of the external terminal to the integrated waste management information is managed.

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