KR20160014313A - The system for detecting gas - Google Patents

Abstract

The present invention relates to a gas detection system which improves analytic accuracy by an analytic means and by maintaining the temperature of surroundings, and has a protecting function of a system in an emergency, thereby enabling gas detection in accurate and in safe. A gas detection system according to the present invention comprises: a housing having a certain amount of inner space in the interior; an analytic means installed in the interior of the housing and detecting concentration of a specific ingredient of a sample gas by using optical density of infrared rays; a sample-extract line which extracts a sample gas and supplies same to the analytic means of the housing; a sample-discharge line which is connected to the analytic means and discharges a sample gas finished an analysis by the analytic means, to the outside; a temperature sensor installed in the interior of the housing and measuring the temperature of the interior of the housing; a temperature maintaining means which is formed in the housing and maintains the temperature of the interior of the housing with a predetermined temperature; and a control unit which maintains the temperature of the interior of the housing with a predetermined temperature by controlling the temperature maintaining means on the basis of a temperature data from the temperature sensor, and performs sample analytics by controlling the analytic means, the sample-extract line and the sample-discharge line.

Description

TECHNICAL FIELD [0001] The present invention relates to a gas detection system,

The present invention relates to a gas sensing system, and more particularly, to a gas sensing system that improves analysis accuracy by maintaining the analyzing means and ambient temperature constant, and provides an accurate and stable gas sensing To a possible gas sensing system.

Generally, there are various kinds of harmful substances that are harmful to the human body such as thermal power plants that burn fossil fuels and generate electricity by burning them, incinerators that incinerate industrial wastes or general household waste, plants that handle petrochemical related products, Are contained in the exhaust gas and are discharged.

The harmful substances may be various kinds, for example, a halogen gas such as hydrogen chloride and a combustion gas such as nitrogen oxide, sulfur dioxide, carbon monoxide, and ammonia. These harmful substances are absorbed by the human body, accumulating after they cause various diseases and also have negative effects on the natural environment, and they are proved through various investigations and experiments.

For these reasons, the emission regulations of hazardous substances are regulated by law in the case of incineration plants and fossil fuel burning sites all over the world. In Korea, the amount of hazardous substances contained in exhaust gas is limited through the Ministry of Environment notification.

Therefore, in order to prevent the emission of harmful substances, an analyzer that analyzes each component and concentration included in the sample gas, which collects part of the exhaust gas discharged through the chimney, is provided and appropriate measures are taken according to the analysis result .

The method of measuring the components of the harmful exhaust gas discharged from the incinerator or the factory chimney is to sample a part of the gas discharged from the chimney 1 and transmit it through the sampling line 2 to a specific place A sampling measurement method is widely used in which a measurement is performed by a measuring device 3 installed in a laboratory. An in situ method is also used in which the measuring instrument is mounted directly on the outer wall of the chimney to measure the exhaust gas.

However, in order to accurately analyze the exhaust gas by this measurement method, the sample gas must be maintained in a uniform gas state. Otherwise, when the exhaust gas is cooled below the dew point due to the temperature drop of the exhaust gas while passing through the sampling line 2, or when the moisture content in the exhaust gas is 20% or more, the steam contained in the sample gas is condensed, So that a precise analysis can not be performed. Also, when the sample gas is cooled, there is a problem that condensed water is generated in the inside and the connecting pipe. This problem is exacerbated in the case of halogen gases such as hydrogen chloride.

In order to solve such a problem, Korean Patent No. 10-890062 discloses a technique for stably transferring sampled gas to an analyzer.

However, when the temperature of the place where the analyzer 3 is installed is kept constant and the temperature inside the analyzer 3 is not kept constant, the analysis variance of the analyzer becomes large and fundamentally the reliability of the analyzer itself collapses, There is a bigger problem that can not be used. Therefore, development of a technique for solving such a problem is required.

SUMMARY OF THE INVENTION The present invention provides a gas detection system capable of accurately and stably detecting a gas by providing an analyzing means and a surrounding function of the system in an emergency such as power shutdown, .

According to an aspect of the present invention, there is provided a gas sensing system including: a housing having a predetermined internal space therein; Analyzing means installed in the housing for detecting the concentration of a specific component in the sample gas using the absorbance of infrared rays; A sample collection line for sampling the sample gas and supplying the sample gas to the analysis means in the housing; A sample discharge line connected to the analysis means for discharging the sample gas analyzed by the analysis means to the outside; A temperature sensor installed inside the housing and measuring a temperature inside the housing; A temperature maintaining unit provided inside the housing and maintaining the temperature inside the housing at a predetermined constant temperature; The temperature maintaining means is controlled based on the temperature data provided from the temperature sensor to maintain the inside temperature of the housing at a predetermined temperature, and the analyzing means, the sample collecting line, and the sample discharging line are controlled to perform sample analysis And a control unit.

In the gas monitoring system of the present invention, the housing is installed in a constant temperature and humidity space,

The temperature holding means may include a gas inlet formed to penetrate through one side of the housing and allowing an outside gas to flow therein; A gas outlet formed through the housing on the opposite side of the gas inlet, for discharging the gas inside the housing to the outside; And a discharge fan installed at a front side of the gas outlet of the inside of the housing and forcing the gas inside the housing to flow out through the gas outlet.

The gas sensing system of the present invention may further include a sample intermittent valve installed in the sample collecting line for interrupting supply of the sample gas in the direction of the analyzing unit through the sample collecting line; A purging gas supply line connected between the sample intermittent valve and the division means in the sample collection line and supplying the purging gas to the sample collection line; And a purging gas intermittent valve installed in the purging gas supply line for interrupting the purging gas supplied through the purging gas supply line,

It is preferable that the control unit is equipped with an analysis means protection program for blocking the sample intermittent valve when an emergency occurs and opening the purging gas intermittent valve to control the sampling line, Do.

In the present invention, it is preferable that the control unit has a PLC-based structure, and the control program and the analysis means protection program are mounted on the PLC, and the touch screen panel for the user interface is provided.

According to the present invention, the temperature inside the housing where the analyzing means is installed is kept constant without any temperature deviation, accurate gas analysis is possible, and the system can be stably operated There are advantages.

1 is a conceptual diagram illustrating the concept of a conventional gas detection system.
2 is a diagram showing a layout of a gas sensing system according to an embodiment of the present invention.
3 is a view showing a structure of a housing and analysis means according to an embodiment of the present invention.

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

2 and 3, the gas sensing system 100 according to the present embodiment includes a housing 110, an analysis unit 120, a sample collection line 130, a sample discharge line 140, A temperature control unit 150, a temperature maintaining unit 160, and a control unit 180.

First, the housing 110 has a certain internal space therein and provides a place for installation or connection of other components, including the analyzing means 120. The housing 110 may have various shapes such as a rectangular parallelepiped, and may be formed of various materials such as a metal material or a plastic material.

In the present embodiment, the housing 110 is preferably installed in an environment where constant temperature and humidity are performed. It is preferable that the temperature applied during the constant temperature and humidity control, particularly during the constant temperature holding, is controlled within the operating temperature range for the optimum operation of the analyzing means 120. In particular, it is very important that the constant temperature is kept unchanged within the operating temperature range.

2 and 3, the analyzing unit 120 is installed inside the housing 110 and detects the concentration of a specific component in the sample gas using the absorbance of infrared rays. Of course, the analyzing unit 120 is connected to the sample collecting line 130 and the sample discharging line 140 which are drawn into the housing 110, and the sample gas to be analyzed is introduced, . In the present embodiment, the analyzing unit 120 may have a variety of structures for sensing the concentration of a specific component in the sample gas due to the difference in absorbance of infrared rays generated when the sample gas passes through it.

Next, the sample collection line 130 is a component for collecting the sample gas from the chimney and supplying it to the analysis means 120 in the housing 110. Therefore, in this embodiment, one end of the sampling line 130 is connected to the chimney and the other end is connected to the analyzing means 120 through the housing 110, as shown in FIG.

In this case, the sample collection line 130 is provided with a heater (not shown) or the like for keeping the temperature inside the sample collection line 130 constant so as to prevent the temperature change during the movement of the sample gas Respectively.

2, the sample discharge line 140 is a component connected to the analysis unit 120 to discharge the sample gas, which has been analyzed by the analysis unit 120, to the outside. In this embodiment, one end of the sample discharge line 140 is connected to the analyzing means 120 through the housing 110, and the sample discharge line 140 includes a cooling means 142 and a discharge pump 144, Etc. may be installed.

As shown in FIG. 3, the temperature sensor 150 may be installed in the housing 110 to measure a temperature of the inside of the housing 110. Accordingly, the temperature sensor 150 measures the temperature of the inside of the housing 110 in real time, and provides the measured temperature to the controller 180, which will be described later.

3, the temperature holding means 160 is provided inside the housing 110 and maintains the temperature inside the housing 110 at a predetermined temperature. It is very important for the accurate operation that the analyzing means 120 is maintained at a constant temperature within an operating temperature range that can operate properly without any temperature deviation. Therefore, in the present embodiment, the internal temperature of the housing 110 is kept constant by the temperature holding means 160.

The temperature holding means 160 may have a variety of structures and may be composed of a gas inlet 162, a gas outlet 164, and an outlet fan 166, for example, as shown in FIG. The gas inlet 162 is formed through one side of the housing 110 and is a passage through which an external gas is introduced into the housing 110. As shown in FIG. 3, the gas outlet 164 is formed through the housing 110 on the opposite side of the gas inlet 162, and is a passage through which the gas inside the housing 110 flows out.

3, the outflow fan 166 is installed in the inside of the housing 110 in front of the gas outlet 164, and the gas inside the housing 110 is connected to the gas outlet 164 To the outside. Accordingly, the gas inside the housing 110 flows out to the outside by the outflow fan 166, and the gas outside the housing 110 flows through the gas inlet 162 due to the gas pressure inside the housing 110, .

In this case, since the housing 110 is installed in the space where the temperature and humidity are maintained, the gas flowing into the housing 110 is maintained at a constant temperature. Accordingly, when the outflow fan 166 is continuously operated, the temperature inside the housing 110 is changed to be the same as the set temperature of the constant temperature and humidity space. The operation and operation time of the outflow fan 166 is precisely controlled by the controller 180 based on temperature information measured in real time from the temperature sensor 150 and provided to the controller 180 .

Therefore, in the gas sensing system 100 according to the present embodiment, the temperature inside the housing 110 can be kept constant by the temperature holding means 160 without any variation, Thereby maintaining an optimal operating state.

Next, the controller 180 controls the gas sensing system 100 according to the present embodiment as a whole. Specifically, the controller 180 controls the temperature of the gas sensing system 100 based on the temperature data provided from the temperature sensor 150 A sample collection line 130 and a sample discharge line 140 are controlled by controlling the analyzing unit 120, the sample collection line 130 and the sample discharge line 140 by controlling the internal temperature of the housing 110 to a predetermined temperature Element.

Meanwhile, the gas sensing system 100 according to the present embodiment is provided with a sample intermittent valve 172, a purging gas supply line 174, a purging gas intermittent valve 176, Respectively.

The system protection means 170 protects the gas sensing system 100 according to the present embodiment in an emergency such as the power applied to the system 100 is blocked by an accident or the like Lt; / RTI >

2, the sample intermittent valve 172 is installed in the sample collecting line 130 and the sample gas is supplied to the analyzing unit 120 through the sample collecting line 130 It is a component that controls things. 2, the purging gas supply line 174 is connected between the sample intermittent valve 172 and the branching means 120 of the sample collection line 130, Is a component that supplies purging gas to line 130. In the present embodiment, the purging gas supply line 174 holds a purging gas such as N ₂ and supplies the purging gas to the sample collection line 130 under the control of the controller 180.

As shown in FIG. 2, the purging gas intermittent valve 176 is installed in the purging gas supply line 174 and includes a component for interrupting the purging gas supplied through the purging gas supply line 174 to be.

The analyzing means protection program is a soft ware installed in the controller 180. The analyzing means protection program includes a sample intermittent valve 172, a purging gas supply line 174 and a purging gas intermittent valve 176, Thereby protecting the gas sensing system 100 according to the present embodiment. Specifically, in the present embodiment, the analyzing means protection program installed in the control unit interrupts the sample intermittent valve 172 when the emergency occurs, opens the purging gas intermittent valve 176, and opens the sample collection line 130, The analyzing means 120 and the sample discharging line 140 are purged for a predetermined period of time. In this way, all of the sample gas remaining in the system is removed and the measurement is started again.

In this embodiment, the controller 180 has a PLC-based structure. Preferably, the control program and the analyzing means protection program are installed in the PLC. As shown in FIG. 2, (182).

1: Chimney 2: Sampling line
3: Meter
100: a gas sensing system according to an embodiment of the present invention
110: housing 120: analyzing means
130: Sampling line 140: Sample discharge line
150: temperature sensor 160: temperature holding means
170: System protection means 180:

Claims (4)

A housing having a predetermined internal space therein;
Analyzing means installed in the housing for detecting the concentration of a specific component in the sample gas using the absorbance of infrared rays;
A sample collection line for sampling the sample gas and supplying the sample gas to the analysis means in the housing;
A sample discharge line connected to the analysis means for discharging the sample gas analyzed by the analysis means to the outside;
A temperature sensor installed inside the housing and measuring a temperature inside the housing;
A temperature maintaining unit provided inside the housing and maintaining the temperature inside the housing at a predetermined constant temperature;
The temperature maintaining means is controlled based on the temperature data provided from the temperature sensor to maintain the inside temperature of the housing at a predetermined temperature, and the analyzing means, the sample collecting line, and the sample discharging line are controlled to perform sample analysis And a control unit. The method according to claim 1,
The housing is installed in a constant temperature and humidity space,
Wherein the temperature holding means comprises:
A gas inlet formed through one side of the housing and introducing an external gas into the interior;
A gas outlet formed through the housing on the opposite side of the gas inlet, for discharging the gas inside the housing to the outside;
And a discharge fan installed on the front side of the gas outlet port of the inside of the housing and forcing the gas inside the housing to flow out through the gas outlet port. The method according to claim 1,
A sample intermittent valve installed in the sample collecting line for interrupting supply of the sample gas to the analyzing means through the sample collecting line;
A purging gas supply line connected between the sample intermittent valve and the division means in the sample collection line and supplying the purging gas to the sample collection line;
And a purging gas intermittent valve installed in the purging gas supply line for interrupting the purging gas supplied through the purging gas supply line,
The control unit is equipped with an analyzing means protection program for shutting off the sample intermittent valve at the time of occurrence of an emergency situation and opening the purging gas intermittent valve to control the sampling line, the analyzing unit and the sample discharge line to be purged for a predetermined time Gas detection system. The apparatus of claim 3,
PLC system, wherein the control program and the analysis means protection program are mounted on the PLC and provide a touch screen panel for the user interface.

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