KR101713315B1 - Portable real-time monitoring device for shale gas pollutants - Google Patents

Abstract

The present invention relates to a portable shale gas environmental pollutant real-time monitoring apparatus, and more particularly, to a portable shale gas environmental pollutant real-time monitoring apparatus, And a control unit for controlling the detection unit and the analysis display unit, wherein the sample collection unit includes a liquid sample, a solid sample, and a gas sample, And the environmental pollutants are detected in real time through the detection unit and the analysis display unit.
According to the present invention, it is possible to monitor the environmental pollution state of the area generating the shale gas in real time because it is possible to carry out real-time monitoring by moving to the area to be inspected according to the convenience of carrying.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable shale gas monitoring apparatus,

The present invention relates to a real-time monitoring device, and more particularly, to a portable shale gas environmental pollutant real-time monitoring device capable of easily taking a solid, a gas, and a liquid sample, .

Generally, groundwater is a water that flows through the gaps between rocks or underground, and rain, snow, sleet, hail, etc. are seeping into the ground, stored in the soil under the ground, and used for various purposes in urban and rural areas .

Groundwater is originally clean but can be contaminated by humans and can easily be contaminated by people's carelessness, such as oil tanks and landfills in gas stations, or excessive fertilizer or pesticides on crops.

In addition, groundwater as well as surrounding soil may be contaminated by pollution sources generated during mining by oil field or gas field.

As a method for investigating the pollution situation, a plurality of observations are installed and surveyed as disclosed in the conventional patent document 10-2012-0109864, but when the area is wide, it takes a lot of time for the investigation, There is a limitation in collecting and effectively processing the water, and there is a problem in that it is not convenient to continuously monitor the condition of the ground water and the soil.

In recent years, the amount of shale gas is increasing, and the problem of pollution around the shale gas field has been pointed out.

The environmental pollution degree of this shale gas field is determined by collecting solid and gas and liquid samples and checking the degree of contamination. However, since there is a difference between sampling point and inspection point of each sample, it can not be monitored in real time, .

Accordingly, there is an urgent need to develop a technology for monitoring the environmental pollution degree of the shale gas field in real time and preserving the environment according to the immediate response according to the pollution degree.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a sample collection unit for sampling a sample in a surrounding environment at the time of shale gas development, And a control unit for controlling the detection unit and the analysis display unit. The portable terminal is moved to an area to be inspected according to convenience of carrying, It is an object of the present invention to provide a portable shale gas environmental pollutant real-time monitoring device capable of real-time monitoring of environmental pollution in a region where shale gas is generated as it can be monitored in real time by collecting liquid, solid and gaseous samples.

According to an aspect of the present invention, there is provided a shale gas detection system including a sample collection unit for sampling a sample in a surrounding environment at the time of shale gas development, a detection unit for detecting fluorescence emitted by irradiating X- And a control unit for controlling the detection unit and the analysis display unit. The sample collection unit collects liquid, solid, and gaseous samples, and transmits the sample to the environment through the detection unit and the analysis display unit. Detects contaminants in real time.

Preferably, the sample collection unit, the detection unit, the analysis display unit, and the control unit are provided inside the housing, the housing includes a body having the detection unit, the analysis display unit and the control unit inside and having the handle protruded to one side, And a head rotatably provided at the tip of the body, wherein the head is rotated in the direction of the sample to sample the sample.

The detection unit, the analysis display unit, and the control unit are provided in a housing having a handle protruded to one side, and the sample collecting unit is detachably attachable to the housing to separate the sample from the housing during sample collection, And then attached to the housing for detection.

The analysis display unit and the control unit are provided in a housing having a handle protruded to one side, and the sample collecting unit and the detecting unit are detachably attached to the housing, And transmits it to the analysis display unit.

Further, a communication unit is further provided between the detection unit and the analysis display unit, and the data of the detection unit is transmitted to the analysis display unit through one of wired and wireless.

The sample collection unit may include a solid sample collection unit for collecting the solid sample, a gas-liquid sample collection unit for collecting the gas and the liquid sample, a solid sample of the solid sample collection unit, a gas sample of the gas- A sample driving unit for moving the liquid sample, and a sample control unit for controlling the sample driving unit to operate either the solid sample collecting unit or the gas-liquid sample collecting unit according to the collected sample.

The sample collecting section includes a solid sample collecting section for collecting solid samples, a gas-liquid sample collecting section for collecting gas and liquid samples, a solid-state drive section for rotating the solid sample in the solid sample collecting section, A gas-liquid driving unit for moving the sample or the liquid sample, and a sample control unit for controlling either the solid-state driving unit or the gas-liquid driving unit according to the kind of the collected sample.

The solid sample collecting portion includes a solid sample housing having a solid sample storage space portion opened to one side for receiving a solid sample and a solid sample plug for closing the solid sample storage space portion of the solid sample housing, The solid sample housing in which the solid sample is housed and closed by the solid sample plug is rotated by the sample driving part to change its position, so that all parts of the solid sample are detected.

The gas-liquid sample collecting section is a sample tube through which the gas sample or the liquid sample is moved, and the gas sample or the liquid sample passes through the sample tube by the sample driving section.

The detector may further include an X-ray generator for generating an X-ray wave by the sample extractor, a collimator for irradiating the X-ray wavelength generated in the X-ray generator to the sample extractor, And a fluorescence detection section for detecting a line.

The analysis display unit includes an analysis unit for analyzing the data detected by the detection unit, and a display unit for displaying the analyzed data in the analysis unit.

As described above, according to the portable shale gas environmental pollutant real-time monitoring apparatus according to the present invention, since it can be moved to the area where inspection is to be carried out and can be monitored in real time, Which is a very useful and effective invention.

1 is a view showing an apparatus for real-time monitoring of a portable shale gas environmental pollutant according to the present invention,
2 is a diagram showing an embodiment of a monitoring apparatus according to the present invention,
3 is a view showing another embodiment of the monitoring apparatus according to the present invention,
4 is a view showing still another embodiment of the monitoring apparatus according to the present invention,
5 is a view showing a sample collection unit according to the present invention,
6 is a view showing another embodiment of the sample collecting part according to the present invention.

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

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

FIG. 1 is a view showing an apparatus for real-time monitoring of environmental pollutants of portable shale gas according to the present invention, FIG. 2 is a view showing an embodiment of a monitoring apparatus according to the present invention, FIG. 4 is a view showing still another embodiment of the monitoring apparatus according to the present invention, FIG. 5 is a view showing a sample collecting unit according to the present invention, and FIG. FIG. 5 is a view showing another embodiment of the sample collection unit according to FIG.

As shown in the figure, the portable shale gas environmental pollutant real-time monitoring apparatus 10 includes a sample collection unit 100, a detection unit 200, an analysis display unit 300, and a control unit 400.

First, the shale gas is a natural gas in the shale layer. The shale is a sedimentary rock formed by dehydration of fine clay in the clay sedimentary layer rich in clay. Because of the high organic matter content in the clay, And an active layer of crude oil deposition.

This shale gas is one of the non-traditional oil and gas fields requiring separate technology from the conventional production method, and has a characteristic of easily cracking, and is produced by cracking through hydraulic fracturing.

This hydraulic fracturing technique is a method of collecting shale gas by reaching the target point of the shale layer through horizontal drilling and then injecting or filling compounds such as water, sand and fluid at high pressure to crack and maintain the shale layer.

This shale gas contains environmental pollutants, so that a portable shale gas environmental pollutant real-time monitoring device 10 is required to monitor the environmental conditions around the gas field in real time.

For this purpose, the sample collecting unit 100 is provided for collecting a sample of the surrounding environment when developing the shale gas, and the detecting unit 200 irradiates the X-ray wavelength with the sample collecting unit 100 to detect fluorescence emitted .

The analysis display unit 300 is provided for analyzing the data detected by the detection unit 200 and displaying the analyzed data in real time. The control unit 400 is provided for controlling the detection unit 200 and the analysis display unit 300.

The operating condition of the portable shale gas environmental pollutant real-time monitoring apparatus 10 is described as follows. A liquid, a solid, and a gas sample are sampled by the sample collecting unit 100, The substance can be detected in real time and confirmed.

2, the sample collection unit 100, the detection unit 200, the analysis display unit 300, and the control unit 400 are provided inside the housing 500.

The housing 500 is composed of a body 510 and a head 520.

The body 510 includes a detection unit 200, an analysis display unit 300, and a control unit 400. The handle 512 protrudes to one side.

The head 520 is provided with a sample collecting part 100 and is rotatably provided at the tip of the body 510.

The head 520 can be rotated in the direction of the sample to collect the sample, which facilitates sample collection.

3, the detection unit 200, the analysis display unit 300, and the control unit 400 are provided inside the housing 500 'having the handle 512' protruding in one direction .

The sample collecting unit 100 is detachably attached to the housing 500 'so that the sample is separated from the housing 500' when the sample is collected, and the sample is collected and attached to the housing 500 ' do.

As shown in FIG. 4, in another embodiment, the analysis display unit 300 and the control unit 400 are provided inside the housing 500 '' having the handle 512 'protruding to one side.

The sample collecting unit 100 and the detecting unit 200 are detachably attached to the housing 500 ", and transmit the detected fluorescence data to the analysis display unit 300 after sampling.

A communication unit 600 is further included between the detection unit 200 and the analysis display unit 300 to transmit the data of the detection unit 200 to the analysis display unit 300 through wired or wireless communication.

5, the sample collection unit 100 includes a solid sample collection unit 110, a gas-liquid sample collection unit 120, a sample drive unit 130, and a sample control unit 140.

The solid-sample-collecting unit 110 is provided for collecting a solid sample, and the gas-liquid sample collecting unit 120 is provided for collecting a gas sample and a liquid sample.

The sample driving unit 130 is provided to rotate a solid sample of the solid sample collecting unit 110 and to move a gas sample or a liquid sample of the gas-liquid sample collecting unit 120.

The sample control unit 140 controls the sample driving unit 130 to operate either the solid sampling unit 110 or the gas-liquid sampling unit 120 according to the type of the sampled sample.

6, the sample collecting part 100 'of another embodiment includes a solid sample collecting part 110', a gas-liquid sample collecting part 120 ', a solid-state driving part 130', a gas-liquid driving part 140 ' ') And a sample control unit 150'.

The solid sample collection unit 110 'is provided for collecting a solid sample, and the gas-liquid sample collection unit 120' is provided for collecting a gas sample and a liquid sample.

The solid-liquid driving unit 130 'is provided to rotate the solid sample of the solid-sample collecting unit 110', and the gas-liquid driving unit 140 'moves the gas sample or liquid sample of the gas-liquid sample collecting unit 120' .

The sample control unit 150 'controls one of the solid-state driving unit 130' and the gas-liquid driving unit 140 'according to the type of the collected sample.

The solid sample collecting sections 110 and 110 'of the sample collecting sections 100 and 100' of the respective embodiments are composed of the solid sample housings 112 and 112 'and the solid sample plugs 114 and 114'.

The solid sample collection unit 110 will be described with reference to an embodiment of the sample collection unit 100 shown in FIG.

The solid sample housing 112 is provided with a solid sample storage space portion opened to one side for accommodating the solid sample, and the solid sample plug 114 is provided for closing the solid sample storage space portion of the solid sample housing 112.

As the solid sample holder 110 is rotated by the sample driving unit 130 and the position thereof is changed, the solid sample holder 112, which is filled with the solid sample and closed by the solid sample plug 114, All parts of the solid sample are detected.

The gas-liquid sample collecting unit 120 is a sample tube through which a gas sample or a liquid sample is moved. The gas or liquid sample passes through the sample tube by the sample-driving unit 130.

The detecting unit 200 includes an X-ray generating unit 210, a collimator 220, and a fluorescence detecting unit 230.

The X-ray generating unit 210 generates an X-ray wavelength with the sample collecting unit 100 and the collimator 220 irradiates the X-ray generated in the X-ray generating unit 210 with the sample collecting unit 100 Respectively.

The fluorescence detecting unit 230 is provided to detect X-rays reflected from the sample collecting unit 100.

The analysis display unit 300 includes an analysis unit 310 and a display unit 320.

The analysis unit 310 is provided for analyzing the data detected by the detection unit 200 and the display unit 320 is provided for displaying the analyzed data by the analysis unit 310.

10: Monitoring apparatus 100, 100 ': Sampling unit
110: solid sample collecting unit 120: gas-liquid sample collecting unit
130: SAMPLE DRIVER 140: SAMPLE CONTROLLER
200: detecting unit 210: X-ray generating unit
220: Collimator 230: Fluorescence detector
300: Analysis display section 310: Analysis section
320: Display unit 400:
500, 500 ', 500 ": housing

Claims (11)

A sampling unit for sampling the surrounding environment when the shale gas is developed;
A detector for detecting fluorescence emitted by irradiating an X-ray wavelength with the sample extracting unit;
An analysis display unit for analyzing and displaying the data detected by the detection unit in real time; And
And a control unit for controlling the detection unit and the analysis display unit,
The sample collection unit, the detection unit, the analysis display unit, and the control unit are provided inside the housing,
The housing includes:
A body having the detection part, the analysis display part, and the control part inside and having a handle projected to one side; And
And a head rotatably provided at the tip of the body,
The head is rotated in the direction of the sample to collect a sample,
The sample collecting unit collects liquid, solid, and gas samples, detects environmental pollutants in real time through the detection unit and the analysis display unit,
Wherein the sample-
A solid sampler for sampling a solid sample;
A gas-liquid sample collecting part for collecting gas and liquid sample;
A sample driving unit for rotating a solid sample of the solid sample collecting unit and moving a gas sample or a liquid sample of the gas-liquid sample collecting unit; And
And a sample controller for controlling the sample driving unit to operate either the solid sample collection unit or the gas-liquid sample collection unit according to the type of the sampled sample. delete A sampling unit for sampling the surrounding environment when the shale gas is developed;
A detector for detecting fluorescence emitted by irradiating an X-ray wavelength with the sample extracting unit;
An analysis display unit for analyzing and displaying the data detected by the detection unit in real time; And
And a control unit for controlling the detection unit and the analysis display unit,
Wherein the detection unit, the analysis display unit, and the control unit are provided inside the housing having the handle protruded to one side,
Wherein the sample-
And detachably attached to the housing, the sample being separated from the housing when the sample is collected, being attached to the housing for detection after sampling,
The sample collecting unit collects liquid, solid, and gas samples, and detects environmental pollutants in real time through the detection unit and the analysis display unit.
Wherein the sample-
A solid sampler for sampling a solid sample;
A gas-liquid sample collecting part for collecting gas and liquid sample;
A sample driving unit for rotating a solid sample of the solid sample collecting unit and moving a gas sample or a liquid sample of the gas-liquid sample collecting unit; And
And a sample controller for controlling the sample driving unit to operate either the solid sample collection unit or the gas-liquid sample collection unit according to the type of the sampled sample. A sampling unit for sampling the surrounding environment when the shale gas is developed;
A detector for detecting fluorescence emitted by irradiating an X-ray wavelength with the sample extracting unit;
An analysis display unit for analyzing and displaying the data detected by the detection unit in real time; And
And a control unit for controlling the detection unit and the analysis display unit,
The analysis display unit and the control unit are provided inside the housing having the handle protruded to one side,
Wherein the sample extracting unit
A fluorescence detector for detecting fluorescence emitted from the sample after the sample is collected,
The sample collecting unit collects liquid, solid, and gas samples, and detects environmental pollutants in real time through the detection unit and the analysis display unit.
Wherein the sample-
A solid sampler for sampling a solid sample;
A gas-liquid sample collecting part for collecting gas and liquid sample;
A sample driving unit for rotating a solid sample of the solid sample collecting unit and moving a gas sample or a liquid sample of the gas-liquid sample collecting unit; And
And a sample controller for controlling the sample driving unit to operate either the solid sample collection unit or the gas-liquid sample collection unit according to the type of the sampled sample. The method according to any one of claims 1, 3, and 4,
Further comprising a communication unit between the detection unit and the analysis display unit to transmit the data of the detection unit to the analysis display unit by at least one of wired and wireless. delete delete The solid-state imaging apparatus according to any one of claims 1, 3, and 4,
A solid sample housing having a solid sample storage space part opened to one side for accommodating a solid sample; And
And a solid sample plug for closing the solid sample storage space portion of the solid sample housing,
The solid sample housing the solid sample and closing the solid sample container by the solid sample cap is rotated by the sample driving unit to detect the location of the solid sample, .
The gas-liquid sample collecting apparatus according to any one of claims 1, 3, and 4,
A sample tube for moving a gas sample or a liquid sample,
And the gas sample or the liquid sample passes through the sample tube by the sample driving unit.
The apparatus according to any one of claims 1, 3, and 4,
An X-ray generating unit generating an X-ray wave with the sample extracting unit;
A collimator for irradiating the X-ray wavelength generated in the X-ray generation unit to the sample collection unit; And
And a fluorescence detecting unit for detecting X-rays reflected from the sample collecting unit. The apparatus according to any one of claims 1 to 3,
An analysis unit for analyzing data detected by the detection unit; And
And a display unit for displaying data analyzed by the analyzing unit.

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