TWM528488U - Electric utility water resource management support system - Google Patents

Description

Electric water management support system

This creation department is about the electric water treatment service system, especially about an electric water management support system.

With the climate change caused by global warming, the global drought and unevenness are more obvious. On the other hand, due to the general development of industry and the improvement of living standards, the global demand for water resources is increasing. Therefore, how to effectively apply and recycle water resources has become a hot topic in recent years.

Taiwan is a region with water shortages, and all domestic thermal power plants need pure water as a power generation medium, and the amount of water needed for power generation is considerable. In addition, all kinds of wastewater in the power plant must be treated to meet environmental standards before they can be discharged. Therefore, if the water resources can be recycled, not only can the water consumption of the power plant be reduced, but also the environment can be avoided.

In order to solve the above problems, we need a novel electric water management support system.

One of the aims of this creation is to expose a water management management system for the electrical industry, which can capture the water quality and quantity information of each power plant through the Internet of Things.

Another purpose of this creation is to expose an electrical water management support system that provides a water recycling program available to each power plant through a water treatment expert knowledge base.

Another purpose of this creation is to disclose an electric water management support system for electric power plants, which can provide warning signals of power plants in time when the water recovery rate is too low.

To achieve the above objectives, an electric water management support system for electric power industry has been proposed, which has:

a plurality of power plants each having a factory and a reprocessing center, wherein the plant assists a power generation process with at least one incoming water and at least one reclaimed water and generates at least one effluent, and the reprocessing center processes the at least one effluent To produce the at least one reclaimed water;

A master control center collects water quality and quantity information of each of the power plants through an Internet of Things and transmits a recommendation report to each of the power plants, and has:

a transmission unit coupled to the Internet of Things to exchange data with each of the power plants;

a knowledge base storing a variety of relevant parameter data of the recycled water treatment program;

a database storing the water quality and quantity information of each of the power plants;

a control unit coupled to the transmission unit, the knowledge base, and the database, respectively, for receiving the water quality and quantity information of each of the power plants by the transmission unit and storing the same in the database, Reading, according to the water quality and quantity information of each of the power plants, at least one of the recovered water treatment procedures from the knowledge base and generating the recommended report, and reporting the suggestions by the transmission unit Transfer to each of the power plants.

In one embodiment, the reclaimed water treatment program of the knowledge base includes a data range for water quality requirements.

In one embodiment, the reclaimed water treatment program of the knowledge base includes a data range for effluent water quality requirements.

In one embodiment, the reclaimed water treatment program of the knowledge base includes data for the flow.

In one embodiment, the reclaimed water treatment program of the knowledge base includes data for cost of construction.

In one embodiment, the recovered water treatment program of the knowledge base includes data on operating costs.

In one embodiment, the recovered water treatment program of the knowledge base includes data on maintenance costs.

In an embodiment, the master control center is comprised of at least one server.

In one embodiment, the knowledge base is composed of a first memory, the database is composed of a second memory, and the second memory system and the first memory are of the same type of memory. Or belong to different types of memory.

In an embodiment, the control unit is comprised of at least one processor.

The detailed description of the drawings and the preferred embodiments are set forth in the accompanying drawings.

The creation of the electricity industry water resources management support system uses the Internet of Things technology to monitor the water usage status of each power plant remotely, and applies expert knowledge to provide necessary suggestions to assist each power plant to improve its water treatment efficiency. According to the technical scheme of this creation, each power plant can generate re-watering according to the water treatment program recommended by the main control center, thereby effectively improving water use efficiency.

Please refer to FIG. 1 , which is a block diagram of an embodiment of a water resources management support system for creating an electric power industry. As shown in FIG. 1, the electric water management support system has a plurality of power plants 100 and a main control center 200.

Each power plant 100 has a plant 101 and a reprocessing center 102, wherein the plant 101 assists a power generation process with at least one incoming water and at least one reclaimed water and generates at least one effluent, and the reprocessing center 102 And treating the at least one effluent to produce the at least one reclaimed water. In addition, each power plant 100 transmits data through an Internet of Things and the main control center 200. Each power plant 100 can transmit water treatment related parameter data (including water quality and water quantity information) of the power plant to the main control center 200 through the Internet of Things, and receive the recommendation report provided by the main control center 200 through the Internet.

The main control center 200 receives the water treatment related parameter data provided by each power plant 100 through the Internet of Things and transmits a recommendation report to each power plant 100, and has a transmission unit 201, a knowledge base 202, a database 203, and A control unit 204. Preferably, the master control center 200 can be constituted by at least one server.

The transmission unit 201 is coupled to the Internet of Things for the master control center 200 and the power plants 100 to exchange data.

The knowledge base 202 is composed of a first memory and stores various related parameter data of the recycled water treatment program. Table 1 below contains the contents of one of the recovered water treatment procedures. As shown in Table 1, the recycled water treatment program includes data range of water quality requirements, data range of effluent water quality requirements, flow rate data, construction cost data, operating cost data, and maintenance cost data, among which EDI represents Electrodeionization procedure, SDI stands for Silt Density Index, RO stands for reverse osmosis, UF stands for ultra filtration, and TSS stands for total suspended solids.

<TABLE border="1" borderColor="#000000" width="85%"><TBODY><tr><td> Reclaimed Water Treatment Program</td><td> Water Quality Requirements</td><td> Effluent water quality requirements</td><td> flow </td><td> construction cost </td><td> operation cost </td><td> maintenance cost </td></tr><tr> <td> EDI </td><td> SDI≦1 </td><td> ≧15MΩ-cm </td><td> 6 tons/hour</td><td> 600,000 NTD </td> <td> 1 kWh/ton of water</td><td> 60,000 NTD/year</td></tr><tr><td> RO </td><td> SDI≦3 </td> <td> Recovery rate ≧80% </td><td> 6 tons/hour</td><td> 500,000 NTD </td><td> 2 kWh/ton of water</td><td> 3 10000 NTD/year</td></tr><tr><td> UF </td><td> TSS ≦ 10,000 mg/L </td><td> SDI≦5 </td><td> 10 t/h</td><td> 500,000 NTD </td><td> 1 kWh/ton of water</td><td> 20,000 NTD/year</td></tr></TBODY> </TABLE>Form 1       

The database 203 is composed of a second memory and stores the water processing related parameter data of each power plant 100, wherein the second memory can be the same type of memory or sub-share as the first memory. It is a different type of memory.

The control unit 204 is configured by at least one processor, and is coupled to the transmission unit 201, the knowledge base 202, and the database 203, respectively, to receive the water processing related parameter data of each power plant 100 by the transmission unit 201 and It is stored in the database 203; at least one recycled water treatment program is read from each of the plurality of recycled water treatment programs of the knowledge base 202 according to the water treatment related parameter data of each power plant 100 to generate the recommended report; Each of the suggestion reports is transmitted to each power plant 100 by the transmission unit 201. In addition, when the water recovery rate of a power plant 100 is too low, the control unit 204 can also provide the power plant warning message in time by the transmission unit 201 to detect and solve the problem early. Please refer to Table 2, which is a schematic of the proposed report, where RO stands for reverse osmosis and UF stands for ultra filtration.

<TABLE border="1" borderColor="#000000" width="_0002"><TBODY><tr><td> Water Recovery Rate</td><td> 70% </td></tr><tr ><td> A plan </td><td> Use RO recycling (recovery efficiency 85%, cost XXX) </td></tr><tr><td> B plan</td><td> Use UF Recycling (recycling efficiency 90%, cost YYY) </td></tr><tr><td> Warning message</td><td> Water recovery rate is less than 80% </td></tr></ TBODY></TABLE> Form 2       

According to the above technical solutions, this creation can provide the following effects:

1. The water resources management support system of the creation of this project can draw information on the water quality and quantity of each power plant through the Internet of Things.

2. The water management management support system of this creation can provide water recovery solutions available to each power plant through a water treatment expert knowledge base.

3. The power industry water management support system of this creation can provide warning information of each power plant in time when the water recovery rate is too low.

The disclosure of the present invention is a preferred embodiment. Any change or modification of the present invention originating from the technical idea of the present invention and being easily inferred by those skilled in the art will not deviate from the scope of patent rights of the present invention.

In summary, the case, regardless of its purpose, means and efficacy, is showing its technical characteristics that are different from the conventional ones, and its first creation is practical, and it is also in line with the new patent requirements. I will be granted a patent at an early date.

100‧‧‧ power plant
101‧‧‧Workshop
102‧‧‧Reprocessing Center
200‧‧‧Master Control Center
201‧‧‧Transportation unit
202‧‧ ‧ knowledge base
203‧‧‧ database
204‧‧‧Control unit

FIG. 1 is a block diagram of an embodiment of a water resources management support system for creating an electric power industry.

100‧‧‧ power plant

101‧‧‧Workshop

102‧‧‧Reprocessing Center

200‧‧‧Master Control Center

201‧‧‧Transportation unit

202‧‧ ‧ knowledge base

203‧‧‧ database

204‧‧‧Control unit

Claims (10)

An electric water resource management support system, comprising: a plurality of power plants each having a workshop and a reprocessing center, wherein the workshop assists a power generation program with at least one incoming water and at least one reclaimed water and generates at least one effluent, The reprocessing center processes the at least one effluent to generate the at least one reclaimed water; and a master control center retrieves water quality and quantity information of each of the power plants through an Internet of Things and transmits a recommendation report to each Each of the power plants, and having: a transmission unit coupled to the Internet of Things to exchange data with each of the power plants; a knowledge base storing a plurality of related parameter data of the recycled water treatment program; And storing the water quality and quantity information of each of the power plants; and a control unit coupled to the transmission unit, the knowledge base, and the database, respectively, to receive each of the power plants by the transmission unit The water quality and quantity information and store it in the database, according to the water quality and quantity of the power plant Knowledge of each recovered from the water treatment program and read each of the power plant according to recommendations of the report generation, and by the transmission unit transmits each of the recommendations according to at least one. For example, the electric water management support system of the electric industry mentioned in the first paragraph of the patent application, wherein the reclaimed water treatment program of the knowledge base includes a data range of the influent water quality requirements. For example, the electric water resource management support system described in claim 1 of the patent scope, wherein the reclaimed water treatment program of the knowledge base includes a data range of effluent water quality requirements. For example, the electric water management support system of the electric industry mentioned in claim 1, wherein the reclaimed water treatment program of the knowledge base includes data of the flow. For example, the electric water resource management support system described in claim 1 of the patent scope, wherein the reclaimed water treatment program included in the knowledge base includes data on the construction cost. For example, the electric water resource management support system described in claim 1 of the patent scope, wherein the reclaimed water treatment program included in the knowledge base includes data on operating costs. For example, the electric water resource management support system described in claim 1 of the patent scope, wherein the reclaimed water treatment program included in the knowledge base includes data on maintenance costs. For example, in the electric water resource management support system described in claim 1, wherein the main control center is composed of at least one server. The electric water resource management support system according to claim 1, wherein the knowledge base is composed of a first memory, the database is composed of a second memory, and the second memory system and The first memory belongs to the same type of memory or belongs to different types of memory. The electric water resource management support system according to claim 1, wherein the control unit is composed of at least one processor.