JP3113125B2 - Underground gas leak detection method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for detecting an underground gas leak position.

[0002]

2. Description of the Related Art A conventional underground gas leak position detecting method is to make a hole in a road approximately every 1 m, sequentially suck the leaked gas from the hole, measure the gas concentrations, and determine the highest gas concentration. The location was determined to be the leak location.

[0003]

The gas concentration distribution of the leaked gas in the ground is governed by the soil characteristics, and the concentration distribution may not necessarily show a clear peak or may not show a peak. There may not be. For this reason, conventionally,
Although the leakage position is determined by referring to the piping diagram or taking into account experience, a difference of 50 cm or more often occurs between the determined position and the actual leakage position. The present invention eliminates the drawbacks of the conventional method, and enables accurate location of gas leakage in the ground.
It is something that you can ask for .

[0004]

[Means for Solving the Problems ] To solve the above-mentioned problems.
Therefore, in the present invention, it is set on both sides of the gas leakage inspection area
Measurement point A is set at the center between measurement points B and C
A fixed amount of air is sent into the ground from measurement point A in the center,
Of gas concentration at measurement points B and C located on both sides of
Over time by measuring and comparing statistical changes
Measurement on the side where the gas concentration decreases and equilibrates at a certain concentration
There is a gas leak position between the point B and the central measurement point A
Then, this time, from the measurement point B to the underground
Change in gas concentration over time at measurement point A after injecting air
Is measured, and then a fixed amount of air is sent from the measurement point A into the ground.
And measure the time-dependent change in gas concentration at measurement point B
Then, in the measurement of the gas concentration at each of the measurement points A and B,
The gas concentration rises after starting the air supply and
Measure the time until the concentration reaches
Time T1 in degree measurement and gas concentration at measurement point B
The time T2 in the measurement and the distance L between the measurement points A and B
Is proportional to the formula L × (T1) / (T1 + T2)
The distance from the measurement point A to the gas leak position
It is determined as being characterized in.

Further, according to the present invention, after determining the leak position,
By measuring the amount of air delivered to the underground, at the amount of air
The leakage amount is estimated from the equilibrium gas concentration .

Further, the present invention is characterized in that the soil quality, such as ease of air passage, is determined by measuring the pressure of the outgoing air at a constant flow rate or the flow rate at a constant pressure.

[0007]

[Action] Between the measurement points set on both sides of the gas leakage inspection area
Set a measurement point in the center as well.
A fixed amount of air is supplied, and the gas concentration is measured at both measurement points.
By measuring the change over time and comparing these,
Gauge on either side of the measurement point on both sides of the center measurement point
It can be determined whether there is a leak position.

After the above determination, it is determined that there is a gas leakage position.
Air from one of the measurement points
And change the gas concentration over time at the other measurement point.
The measurement is performed alternately, and air is released in each measurement.
Measure the time from sending in until the gas concentration rises.
By performing a proportional calculation,
The gas leakage position can be obtained as the distance.

[0009] From one side of two measurement points sandwiching the gas leakage position
A fixed amount of air is supplied, and the gas concentration is
When measuring the air concentration, the gas concentration
Gas volume, gas leakage amount from gas leakage position, gas leakage
Determined by the distance from the position to the measurement point for measuring gas concentration
When approaching a certain gas concentration, that is, an equilibrium concentration,
This equilibrium concentration is lower when the air volume is lower or when the gas leaks.
Measure the gas concentration as the amount of leakage increases or from the gas leakage position.
Gas becomes larger as the distance to the measuring point becomes shorter.
If you know the location of the leak and the amount of air sent into the ground,
The amount of leakage can be estimated from the gas concentration.

Further, by measuring the pressure of the incoming air when the flow rate is constant or the flow rate when the pressure is constant, it is possible to determine the soil properties such as the ease of air passage.

[0011]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
You. In FIG. 1, symbols B and C represent both sides of the gas leakage inspection area.
Is the measurement point set at the point between the measurement points B and C.
A measurement point A is set at the center. These measurement points A, B, C
Boring bar 1 for gas leakage inspection
And measure. The boring bar 1 has a guide tube
After inserting the main body into the ground, the air in the ground is
It is also possible to use a configuration that allows inhalation or air
Therefore, for example, those shown in FIGS. 4 and 5 are given as an example.
I can do it. (In the application of Japanese Utility Model Application No. 3-53242)
See the attached specification and drawings. ) This bowling bar 1
Is a cone at the tip of the guide tube 3 that is integrated with the handle 2.
The underground guide member 6 having the shape is connected to the wire 7 and the locking member 4.
The basic configuration is a configuration in which the underground guide member 6 is held.
After pushing the guide tube 3 into the ground, the holding member 4 is grasped.
Guide tube 3 by handle 2
Then, a gap is provided between the soil guide member 6 and the tip of the guide tube 3.
A portion 8 is formed, and air is introduced into the guide tube 3 through the gap 8.
Can be distributed. Reference numeral 9 indicates a wire strike.
10 is a pump, 11 is a flow meter, 12 is a pressure gauge, 1
3 is a gas concentration recorder.

First, two boring bars 1
Is inserted into the ground at the measurement points B and C , which are the inspection areas, and another boring bar 1 is inserted into the measurement point A at the center between the measurement points A, B, and C. Is configured.
Thus , two inspection areas 1 are located on the left and right sides of the central measurement point A.
4 and 15 are formed. In the above configuration, gas leakage
Measurement of the center between measurement points B and C set on both sides of the inspection area
When a certain amount of air is sent into the ground from fixed point A, it is sent to the ground.
Because the air that has been pushed in moves the surrounding underground air,
Underground air between each measurement point B, C and measurement point A is measured sequentially
The points B and C are used to measure the gas concentration,
Is replaced by the air inserted from the measurement point A.

In this case, as shown in FIG.
It is assumed that there is a gas leak position 16 between B, that is, in the area 15
Between the measurement point and C, that is, in the area 14, the replaced air
Since no gas is contained in the gas, the gas concentration at the measurement point AC is
As shown by the solid line in FIG.
Although the concentration increases for a while after starting the
After that, the concentration gradually decreases toward zero.

On the other hand, in the area 15,
Contains gas that is continuously leaking from the gas leak location.
Therefore, the gas concentration does not become zero. That is, measurement point B
The change over time in the gas concentration at is shown by the dashed line in FIG.
As described above, the gas concentration is high for a while after
After reaching the peak, it decreases as in the case of measurement point C.
However, the gas concentration at the peak is high,
Of the measurement at measurement point C
From the measurement point A
The amount of air to be delivered and the leakage of gas from the gas leakage location 16
It depends on the leak amount and the distance from the gas leak position 16 to the measurement point B.
Approaching a certain gas concentration, or equilibrium concentration
Go.

Therefore, the above gas concentrations at the measurement points B and C are
By measuring the change over time and comparing
Gas leak position 16 is between measurement point A and measurement point B.
Can be determined.

As described above, air is introduced from the measurement point A.
Immediately after the measurement, measurement point A to gas leak position 16
This is because underground air at
A fixed amount of air is sent from measurement point B in
After measuring the change in gas concentration over time,
For a while, the gas concentration is zero, but then the gas leakage position 1
The gas leaked from 6 reaches the measurement point A together with the air
The gas concentration rises more, and the time from measurement point A
It is proportional to the distance to the gas leak position 16.

As described above, air is sent from the measurement point B.
Immediately after the measurement, the gas leakage point 16
In this state, the underground air at
A fixed amount of air is supplied from measurement point A, and gas concentration is measured at measurement point B.
When measuring the time-dependent change in the degree,
Has a gas concentration of zero, but then
Gas leaks from the air to the measurement point B together with air
The gas concentration rises and the time is from the measurement point B to the gas concentration.
It is proportional to the distance to the leak position 16.

Therefore, the gas concentration at each of the measurement points A and B
In the measurement of gas, the gas concentration has been
Until it starts up, that is, up to the gas concentration set appropriately
In the gas concentration measurement at measurement point A
The time T1 and before the gas concentration measurement at the measurement point B
With respect to the recording time T2 and the distance L between the measurement points A and B, the expression L
× (T1) / (T1 + T2)
The gas leak position 16 is determined as the distance from the measurement point A.
Can be

As described above, the gas leakage position 16 is sandwiched.
2 Send a fixed amount of air from one side of measurement points A and B,
When measuring gas concentration at measurement points B and A on the other side
Is the gas concentration,
The amount of gas leakage from the device 16 and the
Is determined by the distance to the measurement point where
When approaching a certain gas concentration, that is, an equilibrium concentration,
Equilibrium concentration, the smaller the amount of air or the greater the amount of gas leakage
From the gas leak position to the measurement point for measuring the gas concentration
The shorter the distance at, the larger.

Accordingly, the gas is leaked to the gas leak position 16 and the ground.
If the amount of air to be leaked is known,
Can be estimated.

Further, the pressure or the pressure when the flow rate of the air to be sent is constant.
By measuring the flow rate at a constant pressure,
It is possible to determine the soil properties such as susu.

[0022]

As described above, the present invention has the following effects. a. The location of gas leakage in the ground can be accurately known without referring to a piping diagram or adding experience. b. The amount of leakage can be estimated. c. You can know the soil quality such as ease of air flow.

[Brief description of the drawings]

FIG. 1 is an overall explanatory diagram showing an embodiment of the present invention.

FIG. 2 shows that air is introduced from a measurement point A, and measurement points B,
Time showing change with time of gas concentration measured in C-
It is a gas concentration curve figure.

FIG. 3 shows a measurement after air is introduced from a measurement point A;
Gas measured at measurement point A by introducing air from point B
After a change in the concentration over time and after this measurement,
Of gas concentration measured at measurement point B by feeding air
FIG. 4 is a time-gas concentration curve diagram showing a temporal change.

FIG. 4 is an explanatory diagram of a boring bar .

FIG. 5 is an enlarged view of a main part of the boring bar .

[Sign]

 DESCRIPTION OF SYMBOLS 1 Boring bar 2 Handle 3 Guide pipe 4 Locking member 5 Grip part 6 Underground guide member 7 Wire 8 Gap part 9 Wire stopper 10 Pump 11 Flow meter 12 Pressure gauge 13 Concentration recorder 14, 15 Inspection area 16 Gas leak position

Claims (3)

(57) [Claims] 1. Measurements set on both sides of a gas leak inspection area
A measurement point A is set in the center between points B and C, and
A fixed amount of air is sent into the ground from measurement point A,
Change of gas concentration at measurement points B and C located at
By measuring and comparing
Measurement point B on the side where the gas concentration decreases and equilibrates at a certain concentration
It is determined that there is a gas leak position between
Then, this time, a fixed amount of air
To measure the change over time in the gas concentration at measurement point A.
And then send a fixed amount of air into the ground from measurement point A.
At the measurement point B to measure the change over time in the gas concentration.
In measuring the gas concentration at measurement points A and B,
Gas concentration rises after the start of feeding
Measure the time until the gas concentration is reached, and measure the gas concentration at measurement point A.
And the gas concentration measurement at the measurement point B
The time T2 and the distance L between the measurement points A and B
Then, the proportional calculation of the formula L × (T1) / (T1 + T2) is performed.
Thus, the gas leakage position is defined as the distance from the measurement point A.
Underground gas leak detection method 2. After determining the position of the leak, measure the amount of air to be sent into the ground, and measure the amount of gas that is balanced in the amount of air.
2. The underground gas leakage position detecting method according to claim 1, wherein the amount of leakage is estimated from the concentration . 3. The underground as set forth in claim 1, wherein the soil quality such as ease of air passage is determined by measuring the pressure at a constant flow rate of the air to be sent or the flow rate at a constant pressure.
Gas leak position detection method .