KR102353543B1 - Groundwater and soil real-time oil leak detection control system and method - Google Patents

Abstract

Disclosed are a system and method for real-time oil leak detection and control of groundwater and soil. an oil leak detector that detects oil leaks in groundwater and soil in real time; an oil leak detection monitoring server for monitoring the oil leak detected in real time by the oil leak detector; The oil leak detection remote terminal collects the oil leak detected in real time by the oil leak detector in real time and transmits it to the oil leak detection monitoring server in real time. According to the above-described groundwater and soil real-time oil leak detection control system and method, the water level detection sensor module in a deep plate well underground is configured to detect the water level and detect oil contamination in the oil layer formed thereon. And there is an effect that can accurately detect the oil leak in the soil in real time. In addition, by collecting real-time oil leakage, monitoring in real time, and configuring an alert to field personnel or related organizations, it is possible to take an initial response to oil leakage and to prevent the spread of contamination.

Description

Groundwater and soil real-time oil leak detection control system and method

The present invention relates to an oil leak detection control system and method, and more particularly, to a real-time groundwater and soil oil leak detection control system and method.

Oil pollution accounts for about 40% of water quality accidents in Korea.

Among oil pollution accidents, accidents in which soil and groundwater are contaminated have a problem in that it is difficult to remove the pollution, and in particular, it is difficult to detect them at an early stage. Therefore, initial response is difficult.

In particular, when contaminated groundwater is excessively sucked into the surface, the range of movement of pollutants is expanded, thereby exposing more soil to oil contamination. This becomes a starting point for another groundwater contamination.

Accordingly, safe and systematic means to cope with oil contamination of groundwater and soil should be devised.

However, there is no means for early detection of oil contamination of groundwater and soil or effective means for preventing the spread of contamination.

Registered Patent Publication No. 10-1414041 Registered Patent Publication No. 10-1943947

It is an object of the present invention to provide a real-time groundwater and soil oil leak detection control system.

Another object of the present invention is to provide a method for real-time oil leak detection and control of groundwater and soil.

The groundwater and soil real-time oil leak detection and control system according to the above-described object of the present invention includes an oil leak detector for real-time detection of oil leaks in groundwater and soil; It may be configured to include an oil leak detection monitoring server for monitoring the oil leak detected in real time by the oil leak detector.

Here, it may be configured to further include an oil leak detection remote terminal that collects the oil leak detected in real time by the oil leak detector in real time and transmits it to the oil leak detection monitoring server in real time.

The method for real-time groundwater and soil oil leak detection and control according to another object of the present invention includes the steps of: real-time detecting, by an oil leak detector, groundwater and soil oil leaks; The oil leak detection monitoring server may be configured to include monitoring the oil leak detected in real time by the oil leak detector.

Here, after the step of the oil leak detector detecting oil leakage in groundwater and soil in real time, before the step of monitoring the oil leak detected in real time by the oil leak detector by the oil leak detection monitoring server, oil leak detection The remote terminal may be configured to further include the step of collecting the oil leak detected in real time by the oil leak detector in real time and transmitting it to the oil leak detection monitoring server in real time.

According to the above-described groundwater and soil real-time oil leak detection control system and method, the water level detection sensor module in a deep plate well underground is configured to detect the water level and detect oil contamination in the oil layer formed thereon. And there is an effect that can accurately detect the oil leak in the soil in real time.

In addition, by collecting real-time oil leakage, monitoring in real time, and configuring an alert to field personnel or related organizations, it is possible to take an initial response to oil leakage and to prevent the spread of contamination.

1 is a block diagram of a real-time groundwater and soil oil leak detection control system according to an embodiment of the present invention.
2 is a flowchart of a real-time groundwater and soil oil leak detection control method according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed content for carrying out the invention. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. In describing each figure, like reference numerals have been used for like elements.

Terms such as first, second, A, and B may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

When an element is referred to as being “connected” or “connected” to another element, it is understood that it may be directly connected or connected to the other element, but other elements may exist in between. it should be On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

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

1 is a block diagram of a real-time groundwater and soil oil leak detection control system according to an embodiment of the present invention.

1 , the groundwater and soil real-time oil leak detection control system according to an embodiment of the present invention includes an oil leak detector 100 , an oil leak detection remote terminal 200 , and an oil leak detection monitoring server 300 . ), may be configured to include a related agency terminal 400, field personnel terminal 500.

The water level detection sensor module 102 of the groundwater and soil real-time oil leakage detection control oil leakage sensor 100 according to an embodiment of the present invention detects the water level, and the oil contamination detection sensor module 107 in the oil layer formed thereon It is configured to detect oil contamination. That is, it is configured to perform target detection by tracking only groundwater and oil in soil.

And the oil leak detection remote terminal 200 collects and checks whether oil leaks from the oil leak detector 100, and the oil leak detection monitoring server 300 monitors the oil leak in real time to prevent the spread of contamination.

Hereinafter, a detailed configuration will be described.

The oil leak detector 100 is configured to detect oil leak contamination of groundwater and soil. The oil leak detector 100 may be provided in a well dug deep into soil through which groundwater flows.

The oil leak detector 100 includes a water specific gravity buoy 101, a water level detection sensor module 102, an electric hose reel control module 103, an electric hose reel 104, a water quality measurement sensor module 105, It may be configured to include an oil specific gravity buoy 106 , an oil pollution detection sensor module 107 , and a distance detection sensor module 108 . Hereinafter, a detailed configuration will be described.

Water specific gravity buoy 101 may be configured to have the same specific gravity as the specific gravity of water. The water specific gravity buoy 101 may be configured to float on the water surface. The water specific gravity buoy 101 may be configured to connect to a hose of an electric hose reel 104 .

The water specific gravity buoy 101 may be provided with a water level detection sensor module 102 connected thereto.

The water level detection sensor module 102 is provided connected to the water specific gravity buoy 101, and may be configured to detect the water level at the position of the water specific gravity buoy 101 floating on the water surface.

The electric hose reel control module 103 may be configured to receive the water level detected by the water level detection sensor module 102, and to control the electric hose reel 102 by a length corresponding to the received water level to properly release the hose. have.

The electric hose reel 104 may be configured to adjust the length of the hose according to the water level by unwinding or winding up the hose according to the control of the electric hose reel control module 103 .

The water quality measurement sensor module 105 is connected to the hose of the electric hose reel 104 and may be configured to be provided at a position lower than the water level. That is, the hose connected to the water quality measurement sensor module 105 may be configured to hang down at a position lower than the water level detected by the water level detection sensor module 102 .

The water quality measurement sensor module 105 may be configured to measure water quality.

The oil specific gravity buoy 106 may be configured to have a specific gravity equal to the specific gravity of the oil. When the water is contaminated with oil, the oil specific gravity buoy 106 may be configured to float on the oil layer formed on the water surface.

The oil specific gravity buoy 106 may be configured to connect to a hose of an electric hose reel 104 .

The oil specific gravity buoy 106 may be provided with an oil contamination detection sensor module 107 connected.

The oil contamination detection sensor module 107 may be configured to detect oil contamination of the oil layer above the water surface.

The distance detection sensor module 108 may be configured to detect a distance between the water level detection sensor module 102 and the oil pollution detection sensor module 107 . When a predetermined distance is formed between the water level detection sensor module 102 and the oil pollution detection sensor module 107, it can be indirectly known that the oil layer is formed by the distance. In addition, the thickness of the oil layer may be recognized according to the distance sensed by the distance detection sensor module 108 .

The oil leak detection remote terminal 200 may be configured to be installed on the ground surface where the oil leak detector 100 is installed. The field agent may be configured to check the operation status of the oil leak detector 100 through the oil leak detection remote terminal 200 .

The oil leak detection remote terminal 200 includes a water quality measurement value reception module 201, a water level detection value reception module 202, an oil pollution detection value reception module 203, a control module 204, a display module 205, and an alarm. It may be configured to include an output module 206 and a communication module 207 . Hereinafter, a detailed configuration will be described.

The water quality measurement value receiving module 201 may be configured to receive a water quality measurement value from the water quality measurement sensor module 105 in real time.

The water level detection value receiving module 202 may be configured to receive the water level from the water level detection sensor module 102 in real time.

The oil contamination detection value receiving module 203 may be configured to receive the oil contamination detection value from the oil contamination detection sensor module 107 in real time. And the oil pollution detection value receiving module 203 may be configured to receive the distance between the water level detection sensor module 102 and the oil pollution detection sensor module 107 from the distance detection sensor module 108, that is, the thickness of the oil layer in real time. have.

The control module 204 is configured to control the water quality measurement value received from the water quality measurement value receiving module 202 , the water level detection value received from the water level detection value reception module 202 , and the oil pollution received from the oil pollution detection value reception module 203 . It may be configured to display the sensed value and the oil layer thickness on the display module 205 in real time.

The control module 204 determines whether a predetermined reference value is exceeded while monitoring the water quality measurement value, the water level detection value, the oil contamination detection value, and the oil layer thickness in real time, and the ascent rate exceeds the predetermined reference value while monitoring the rising rate of each value in real time It may be configured to determine whether

The alarm output module 206 may be configured to output an alarm according to the real-time monitoring and determination result of the control module 204 .

The communication module 207 is configured to transmit the ID, water quality measurement value, water level detection value, oil contamination detection value, oil layer thickness, etc. of the oil leak detection remote terminal 200 in real time to the oil leak detection monitoring server 300 can be

The oil leak detection monitoring server 300 may be configured to receive oil leak values from a plurality of oil leak detection remote terminals 200 to monitor and control the oil leak in real time.

The oil leak detection monitoring server 300 includes a communication module 301, a real-time monitoring module 302, an oil leak detection remote terminal database 303, an oil leak detection database 304, a related institution real-time information providing module 305, and a field agent real-time information provision module 306 . Hereinafter, a detailed configuration will be described.

The communication module 301 may be configured to receive values such as ID, water quality measurement value, water level detection value, oil pollution detection value, oil layer thickness, etc. of the oil leak detection remote terminal 200 in real time from the communication module 207. .

The real-time monitoring module 302 monitors real-time water quality measurement values, water level detection values, oil contamination detection values, oil layer thicknesses, etc. received from the communication module 301 in real time, and stores the values in the oil leak detection database 304 . can be configured to

The oil leak detection remote terminal database 303 may be configured to store the ID and location of the oil leak detection remote terminal 200 .

The real-time monitoring module 302 may be configured to monitor in real time whether a water quality measurement value, an oil contamination detection value, and a reference value of the oil layer thickness are exceeded, and to monitor in real time whether the rate of increase exceeds a reference value.

In addition, the real-time monitoring module 302 may be configured to monitor in real time whether or not the oil contamination has spread and the direction of its spread by referring to the location of the oil leak detection remote terminal 200 of the oil leak detection remote terminal database 303 .

The real-time monitoring module 302 may be configured to predict in real time the diffusion direction and diffusion rate of oil contamination by referring to the pre-secured distribution and direction of groundwater in the contaminated area.

Relevant institution real-time information providing module 305 determines whether water quality measurement value, oil contamination detection value, oil layer thickness exceeding the reference value, and the rate of rise exceeds the reference value in real-time monitored by the real-time monitoring module 302 in the related organization terminal 400 ) can be configured to provide in real time.

In addition, the related agency real-time information providing module 305 may be configured to transmit, to the related agency terminal 400 in real time, the spreading direction and the spreading speed of oil contamination predicted in real time by the real-time monitoring module 302 .

The on-site agent real-time information provision module 306 determines whether the real-time monitoring water quality measurement value, oil contamination detection value, oil layer thickness exceed the reference value, and the rise rate exceeds the reference value by the real-time monitoring module 302 related to the terminal 400 ) can be configured to provide in real time.

In addition, the field agent real-time information providing module 306 may be configured to transmit in real-time the spreading direction and the spreading speed of oil contamination predicted in real-time by the real-time monitoring module 302 to the related agency terminal 400 in real time.

Relevant organ terminal 400 receives and displays the water quality measurement value, oil contamination detection value, whether the oil layer thickness exceeds the reference value, and whether the ascent rate exceeds the reference value from the related organization real-time information providing module 305 and displays it, and is predicted in real time and may be configured to receive and indicate the direction and rate of diffusion of the oil contamination.

The field agent terminal 500 receives and displays the water quality measurement value, the oil contamination detection value, whether the oil layer thickness exceeds the reference value, and whether the rising speed exceeds the reference value from the field agent real-time information providing module 306, and displays it, and is predicted in real time and may be configured to receive and indicate the direction and rate of diffusion of the oil contamination.

2 is a flowchart of a real-time groundwater and soil oil leak detection control method according to an embodiment of the present invention.

Referring to FIG. 2 , the oil leak detector 100 detects oil leaks in groundwater and soil in real time (S101).

Next, the oil leak detection remote terminal 200 collects the oil leak detected in real time by the oil leak detector 100 in real time and transmits it to the oil leak detection monitoring server 300 in real time (S102).

Next, the oil leak detection monitoring server 300 monitors the oil leak detected in real time by the oil leak detector 100 (S103).

Although it has been described with reference to the above embodiments, those skilled in the art can understand that various modifications and changes can be made to the present invention without departing from the spirit and scope of the present invention as set forth in the following claims. There will be.

100: oil leak detector
101: water specific gravity buoy
102: water level detection sensor module
103: electric hose reel control module
104: electric hose reel
105: water quality measurement sensor module
106: oil specific gravity buoy
107: oil contamination detection sensor module
108: distance detection sensor module
200: oil leak detection remote terminal
201: water quality measurement value receiving module
202: water level detection value receiving module
203: oil contamination detection value receiving module
204: control module
205: display module
206: alarm output module
207: communication module
300: oil leak detection monitoring server
301: communication module
302: real-time monitoring module
303: oil leak detection remote terminal database
304: Oil leak detection database
305: Relevant institution real-time information provision module
306: field agent real-time information provision module
400: related institution terminal
500: field agent terminal

Claims (4)

an oil leak detector that detects oil leaks in groundwater and soil in real time;
an oil leak detection monitoring server for monitoring the oil leak detected in real time by the oil leak detector;
and an oil leak detection remote terminal that collects the oil leak detected in real time by the oil leak detector in real time and delivers it to the oil leak detection monitoring server in real time,
The oil leak detector is
a water specific gravity buoy having a specific gravity equal to that of water;
a water level sensor module connected to the water specific gravity buoy and configured to detect the water level at the position of the water specific gravity buoy floating on the water surface;
an electric hose reel that adjusts the length of the hose to the water level by unwinding or winding up the hose;
an electric hose reel control module receiving the water level detected by the water level sensor module, and controlling the electric hose reel by a length corresponding to the received water level to loosen or wind the hose;
a water quality measurement sensor module connected to the hose of the electric hose reel and provided at a position lower than the water level, configured to hang down at a position lower than the water level detected by the water level sensor module to measure water quality;
an oil specific gravity buoy having a specific gravity equal to that of the oil, connected to the electric hose reel, and configured to float on an oil layer formed on the water surface when water is contaminated with oil;
an oil contamination detection sensor module connected to the oil specific gravity buoy and configured to detect oil contamination of the oil layer above the water surface;
It is configured to include a distance detection sensor module for detecting a distance between the water level detection sensor module and the oil pollution detection sensor module so as to recognize the thickness of the oil layer,
The oil leak detection remote terminal,
a water quality measurement value receiving module configured to receive a water quality measurement value from the water quality measurement sensor module in real time;
a water level detection value receiving module configured to receive the water level from the water level detection sensor module in real time;
an oil contamination detection value receiving module configured to receive an oil layer thickness and an oil contamination detection value corresponding to the distance detected by the distance detection sensor module from the oil contamination detection sensor module in real time;
a display module for displaying a water quality measurement value, a water level detection value, an oil contamination detection value, and an oil layer thickness;
The water quality measurement value received from the water quality measurement value receiving module, the water level detection value received from the water level detection value reception module, the oil contamination detection value and the oil layer thickness received from the oil contamination detection value reception module are displayed on the display module in real time control to be displayed on the , and determine whether a predetermined reference value is exceeded while monitoring the water quality measurement value, water level detection value, oil contamination detection value, and oil layer thickness in real time, and while monitoring the rising rate of each value in real time a control module to determine whether it is exceeded;
an alarm output module for outputting an alarm according to a result of real-time monitoring and determination of the control module;
It is configured to include a communication module for transmitting the ID of the oil leak detection remote terminal, the water quality measurement value, the water level detection value, the oil contamination detection value, and the value of the oil layer thickness to the oil leakage detection monitoring server in real time,
The oil leak detection monitoring server,
a communication module for receiving, in real time, an ID of the oil leak detection remote terminal, a water quality measurement value, a water level detection value, an oil contamination detection value, and an oil layer thickness from the communication module of the oil leak detection remote terminal;
Real-time monitoring of the water quality measurement value, the water level detection value, the oil contamination detection value, and the oil layer thickness received from the communication module of the oil leak detection monitoring server, and storing the values, the water quality measurement value, the oil contamination detection value, Whether the oil layer thickness exceeds the standard value is monitored in real time, and whether the rising speed exceeds the standard value is monitored in real time, and whether or not the oil contamination is spread and the direction of diffusion by referring to the location of the oil leak detection remote terminal in the oil leak detection remote terminal database a real-time monitoring module that monitors in real time and predicts the direction and rate of spread of oil contamination in real time by referring to the distribution and direction of groundwater in the contaminated area secured in advance;
an oil leak detection remote terminal database in which ID and location of the oil leak detection remote terminal are stored;
an oil leak detection database in which the water quality measurement value, water level detection value, oil contamination detection value, and oil layer thickness are stored;
Real-time monitoring of water quality measured values, oil contamination detection values, and oil layer thicknesses and rising rates in real time monitored by the real-time monitoring module are provided to the terminal of related institutions in real time, and oil contamination predicted in real time by the real-time monitoring module a related institution real-time information providing module for transmitting in real time the diffusion direction and the diffusion rate of the related institution to the terminal;
Real-time monitoring of water quality measured value, oil contamination detection value, oil layer thickness exceeding the reference value and rising speed exceeding the reference value in real-time from the real-time monitoring module is provided to the relevant engine terminal in real time, and the oil predicted in real time by the real-time monitoring module Groundwater and soil real-time oil leak detection control system, characterized in that it comprises a field agent real-time information providing module that transmits the spreading direction and the spreading speed of the contamination in real time to the terminal of the relevant institution.
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