KR102041670B1 - Membrane filtration system being capable of diagnosing fouling of membrane separation module - Google Patents

Abstract

The present invention relates to a membrane filtration system for determining fouling of a membrane separation module. The membrane filtration system for determining fouling of a membrane separation module according to the present invention includes a membrane separation module for generating filtered water by membrane separation from raw water and In the membrane filtration system including a pump for supplying raw water to the membrane separation module, the abnormality of the membrane filtration system to determine the abnormal state of the membrane filtration system by analyzing the vibration data installed in the membrane filtration system and the vibration data detected from the vibration sensor It characterized in that it comprises a state determination unit.

Description

Membrane FILTRATION SYSTEM BEING CAPABLE OF DIAGNOSING FOULING OF MEMBRANE SEPARATION MODULE}

The present invention relates to a membrane filtration system for determining fouling of a membrane separation module of a system, and more particularly, to fouling of a membrane separation module in a membrane filtration system applied to water treatment fields such as water and sewage treatment, water reuse, and seawater desalination. The present invention relates to a membrane filtration system for determining fouling of a membrane separation module capable of determining an abnormal state such as a ring.

Membrane filtration system is an optimal technology to solve the water shortage caused by climate change and is actively applied in various water treatment fields such as water and sewage treatment, water reuse, and seawater desalination.

One of the problems to be solved in membrane filtration systems is fouling. Fouling is known to be a major factor in increasing the energy consumption of membrane filtration systems and increasing the frequency of membrane replacement, thereby reducing the economics for system operation.

Various methods for reducing fouling have been introduced, but were mainly limited to lab scale research. In addition, the most demanded field operators of membrane filtration systems are, "If the fouling is a lot, it is not possible to recover by cleaning, so I want to know when to start fouling as soon as possible." Therefore, if the membrane is properly cleaned at the start of fouling, as shown in FIG. 1, it is possible to minimize the effects related to the reduction of energy efficiency and membrane replacement cost due to fouling.

However, data collected at the site, such as flow rate and pressure water quality, makes it very difficult to identify when to start fouling. When fouling occurs, the membrane permeability (membrane permeate flux per unit pressure) decreases, but the reason for the decrease in permeation rate is not only fouling, but also water temperature and osmotic pressure of raw water. You can't.

As a solution to this problem, in the case of reverse osmosis membrane filtration process, US ASTM proposed the standardization index excluding the effect of fouling, and in the case of microfiltration / ultrafiltration process, the standardization index with temperature effect was corrected. However, since there are no guarantees that the theoretical equations related to the membrane temperature, water viscosity, osmotic pressure, etc., used to calculate the standardization indicators are good at all sites, even when standardization indicators are used, the data fluctuate so that you know when to start fouling. Will experience great difficulties.

Republic of Korea Patent Registration 10-1068205

Accordingly, an object of the present invention is to solve such a conventional problem, and analyzes the vibration data obtained from the vibration sensor installed in the membrane filtration system to determine an abnormal state of the membrane filtration system such as fouling and to clean the membrane accordingly. By providing the necessary measures such as, it provides a membrane filtration system for determining fouling of the membrane separation module that can improve the efficiency of operating the membrane filtration system related to the reduction of energy efficiency by fouling and membrane replacement cost. Is in.

Problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The object is, according to the present invention, in a membrane filtration system comprising a membrane separation module for producing filtered water by membrane separation from raw water and a pump for supplying raw water to the membrane separation module, wherein the membrane filtration system is installed to provide vibration Sensing vibration sensor; And a membrane filtration system for determining fouling of the membrane separation module including an abnormal state determination unit for analyzing the vibration data sensed by the vibration sensor to determine an abnormal state of the membrane filtration system.

Here, the vibration sensor is preferably installed in at least one of the pump, the membrane separation module or the pipe between the pump and the membrane separation module.

Here, the vibration sensor may wirelessly transmit the detected vibration signal to the abnormal state determination unit.

Here, the abnormal state determination unit may determine the abnormal state by comparing the vibration data detected in real time with the vibration data according to the flow rate or pressure of the raw water supplied from the pump in the normal state.

Here, the abnormal state determination unit may determine the abnormal state of the membrane filtration system using a machine learning algorithm.

The machine learning algorithm may be any one of a decision tree, a genetic algorithm, and an artificial neural network.

Here, the abnormal state determination unit may determine the fouling state of the membrane separation module.

Here, the abnormal state determination unit may determine the abnormal state of the pump.

The apparatus may further include a system state notification unit for wirelessly transmitting a result of the determination by the abnormal state determination unit to an administrator.

According to the membrane filtration system for determining fouling of the membrane separation module of the present invention as described above, by using the vibration sensor installed in the system to quickly diagnose the abnormal state of the membrane filtration system such as fouling and take measures such as membrane cleaning. This has the advantage of reducing system operating costs.

In addition, by using the vibration sensor to detect the abnormality of the pump to supply the raw water to the membrane separation module in real time, there is an advantage that can prevent abnormal system interruption.

1 is a graph showing the optimum operating state of a membrane filtration system by performing membrane cleaning at the beginning of fouling.
2 is a diagram illustrating a membrane filtration system for determining fouling of a membrane separation module according to an embodiment of the present invention.
3 is a graph showing vibration data according to the flow rate and pressure of raw water passing through the pump, respectively.
Figure 4 is a graph showing the change in the vibration velocity measured by the pump of the reverse osmosis system when fouling caused by kaolin.
5 is a graph showing the specific gravity of energy consumed in the reverse osmosis seawater desalination system.

Details of the embodiments are included in the detailed description and drawings.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and the general knowledge in the art to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described with reference to the drawings for explaining a membrane filtration system for determining fouling of a membrane separation module according to embodiments of the present invention.

2 is a view showing a membrane filtration system for determining fouling of the membrane separation module according to an embodiment of the present invention, Figure 3 is a graph showing the vibration data according to the flow rate and pressure of the raw water passing through the pump, respectively 4 is a graph showing the change in the vibration velocity measured by the pump of the reverse osmosis system when fouling caused by kaolin, Figure 5 is a graph showing the specific gravity of energy required in the reverse osmosis seawater desalination system.

The membrane filtration system according to the present invention may be configured to include a membrane separation module 110 and a pump 120 as a system applied to water treatment fields such as water and sewage treatment, water reuse, and seawater desalination.

The membrane separation module 110 receives raw water and extracts filtered or concentrated water from the raw water. In this case, the membrane separation module 110 may be a forward osmosis membrane module or a reverse osmosis membrane module. In addition, although a single membrane separation module 110 is illustrated in the drawing, a plurality of membrane separation modules 110 used in a membrane filtration system may be used in series or in parallel.

The pump 120 supplies raw water to the membrane separation module 110.

The membrane filtration system for determining fouling of the membrane separation module according to the present invention in the membrane filtration system as described above may further include a vibration sensor 130 and the abnormal state determination unit 140.

The vibration sensor 130 is installed in the membrane filtration system to detect vibration, and transmits the detected vibration data to the abnormal state determination unit 140 which will be described later. In this case, the vibration data obtained from the vibration sensor 130 may be transmitted to the abnormal state determination unit 140 wirelessly using a wireless network.

The vibration sensor 130 is installed in at least one of the membrane separation module 110, the pump 120, the pipe between the pump 120 and the membrane separation module 110 of the membrane filtration system and the like to generate vibration in each unit part in real time. Can be detected. The membrane separation module 110, the pump 120, and the pipe between the pump 120 and the membrane separation module 110 effectively detect a change in vibration generated when an abnormal state of the membrane filtration system such as fouling occurs. This is where you can.

 The abnormal state determination unit 140 is formed of a computing device such as a computer to determine the abnormal state of the membrane filtration system by receiving the vibration data from the vibration sensor 130 and analyzing it as described above. In this case, the abnormal state of the membrane filtration system may mean fouling in the membrane separation module 110, deterioration or damage of the pump 120, and the like.

The operation of the membrane filtration system is performed by the pump 120, where vibrations generated in the pump 120 may appear in components such as the pump 120, the membrane separation module 110, and piping. In addition, the vibration generated in each component may vary depending on the flow rate and pressure of the raw water supplied by the pump 120, as shown in (a) and (b) of FIG.

If contaminants accumulate on the membrane surface of the membrane separation module 110 due to fouling, since the fluid resistance is changed, even if the flow rate and pressure of the fluid supplied from the pump 120 are the same as shown in FIG. 4. The vibration will change.

Therefore, the abnormal state determination unit 140 may determine the abnormal state of the membrane filtration system by comparing the vibration data detected in real time with the vibration data according to the flow rate and pressure of the raw water supplied from the pump 120 in the normal state. .

At this time, it is impossible to accurately diagnose the abnormal state of the membrane filtration system only by grasping the vibration data in real time. As shown in the vibration data of the graphs of FIGS. 3 and 4, the vibrations are not constant over time even under the same flow and pressure operating conditions. Therefore, statistical values such as average or standard deviation can be used to represent such vibration data. The analysis used is necessary.

Thus, the abnormal state determination unit 140 of the present invention can determine the abnormal state by using a machine learning algorithm to increase the reliability of the vibration data analysis.

In this case, the machine learning algorithm that can be used may be any one of a decision tree, a genetic algorithm, and an artificial neural network, but is not limited thereto.

In addition, as described above, the membrane filtration system for determining fouling of the membrane separation module according to the present invention may detect the vibration of the components of the membrane filtration system to detect the occurrence of fouling, as well as the pump 120. It can also detect abnormal conditions such as old age or damage. Figure 5 shows the energy consumption rate in the reverse osmosis desalination system, it can be seen that the energy consumption rate by the pump 120 for supplying the raw water to the membrane separation module 110 is very large as 80% or more. In addition, since the stop of the pump 120 means the stop of the entire system, it can be seen that it is very important to operate the pump 120 normally in the entire membrane filtration system.

Accordingly, the abnormal state determination unit 140 analyzes the vibration data received from the vibration sensor 130 and compares the vibration data of the steady state with the vibration data received in real time in the same manner as the above-described method to the abnormality of the pump 120. By also detecting the state, it is possible to prevent the abnormal operation of the entire membrane filtration system due to the abnormality of the pump 120.

The system status notification unit prevents the result of the determination by the abnormal state determination unit 140 from being transmitted to the administrator of the filtration system. Accordingly, the manager can recognize an abnormal state of the membrane filtration system and take appropriate measures such as membrane cleaning, system shutdown, and replacement of the pump 120.

The scope of the present invention is not limited to the above-described embodiment, but may be embodied in various forms of embodiments within the scope of the appended claims. Without departing from the gist of the invention claimed in the claims, it is intended that any person skilled in the art to which the present invention pertains falls within the scope of the claims described in the present invention to various extents which can be modified.

110: membrane separation module
120: pump
130: vibration sensor
140: abnormal state determination unit
150: wireless terminal

Claims (9)

In a membrane filtration system comprising a membrane separation module for producing filtered water by membrane separation from raw water and a pump for supplying raw water to the membrane separation module,
A vibration sensor installed in at least one of the pump, the membrane separation module, or a pipe between the pump and the membrane separation module to detect vibration; And
During the operation of the membrane filtration system, the fouling state of the membrane separation module and the pump by comparing the vibration data according to the flow rate or pressure of the raw water supplied from the pump in the normal state and the vibration data sensed in real time from the vibration sensor A membrane filtration system for determining fouling of a membrane separation module including an abnormal state determination unit for determining an abnormal state of a membrane. delete The method of claim 1,
The vibration sensor is a membrane filtration system for determining the fouling of the membrane separation module for wirelessly transmitting the detected vibration signal to the abnormal state determination unit. delete The method of claim 1,
The abnormal state determining unit determines a fouling of the membrane separation module for determining the abnormal state of the membrane filtration system using a machine learning algorithm. The method of claim 5,
The machine learning algorithm is a membrane filtration system for determining fouling of a membrane separation module which is one of a decision tree, a genetic algorithm, and an artificial neural network. delete delete The method of claim 1,
Membrane filtration system for determining the fouling of the membrane separation module further comprises a system status notification unit for wirelessly transmitting the determination result by the abnormal state determination unit to the administrator.

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