JPH06174604A - Exhaust gas automatic analyzer - Google Patents

Abstract

PURPOSE:To provide an automatic analyzer which sucks in sample gas continuously to the half way in a pipe to a gas analyzer and continuously measures the in-duct distribution of the exhaust gas characteristics in a short time. CONSTITUTION:Corresponding to the sample gases A1 to D4 sampled at 16 points, switching valves 1-A to 1-D are provided. Corresponding to these, three- way switching valves 2-A to 2-D for switching to each purge air are provided. Also, four-way switching valves 3-1 and 3-2 for switching the sample gas flow to a sampling pump 5 or to a bypass pump 6 are provided. The sample gas is sucked in a gas analyzer 7 and measured. A switch/data process panel 8 controls the switching of each valve. In this manner, gas replacement time in the pipe can be shortened and thus, the in-duct distribution of the exhaust gas characteristics can be continuously measured in a short time.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exhaust gas automatic analyzer, and in particular, it is suitable for continuously measuring the distribution of exhaust gas properties in a duct in a short time in order to know the combustion state in a boiler. Regarding the device.

[0002]

2. Description of the Related Art In a conventional apparatus of this type, as shown in FIG. 3, exhaust gas burned by a boiler 21 is guided to a chimney 22 by a duct 23 and discharged. Sampling and analyzing the exhaust gas in the duct can grasp the combustion state,
And it is one of the effective means to improve the combustion condition.

In order to analyze the exhaust gas, the exhaust gas in the duct is analyzed as shown in FIG. 16 in this case
The distribution of points (A _{1 to} D ₄ ) is shown. FIG. 5 shows a conventional device for switching and continuing a large number of measurements in order as described above.
Shown in.

First, with the sampling probe 24,
The exhaust gas is returned into the duct through the bypass pipe 34 by the bypass valve 28 and the bypass pump 30 of the device surrounded by the two-dot chain line. This state is maintained for about 90 seconds as the time until the property of the sampled exhaust gas stabilizes.
Next, the sampling valve 27 is switched to, sampling is started here, and the exhaust gas is analyzed by the gas analyzer 32. The analysis time is about 60 seconds. The purge valve 26 is opened while measuring other sampling points, and is opened for a certain period of time as a measure for preventing clogging. This is the operation at one sampling point.

The switching instruction is based on a signal from a device incorporated in the switching / data processing board 33. When there are 16 measurement points, this cycle is repeated 16 times. It takes about 40 minutes to measure the distribution in the duct once.
Further, the gas analyzer inlet valve 35 is first set to the discharge side, and then switched to the sampling side after the existing gas is completely consumed. still,
In FIG. 5, 25 is a sampling conduit, 29 is a purge pressure reducing valve, and 31 is a sampling pump.

[0006]

However, although the above-mentioned conventional method can reliably measure the sampling gas,
However, there are many kinds of switching valves, and if measuring 16 points,
Eight switching valves are required. There is also a problem that it takes about 40 minutes to complete one measurement cycle.

An object of the present invention is to make a sample gas to flow continuously to a gas analyzer one after another, to draw a sample gas to be measured next halfway and to wait, thereby shortening a gas replacement time between pipes. It is an object of the present invention to provide an exhaust gas automatic analyzer capable of continuously measuring the distribution of exhaust gas properties in a duct over time.

[0008]

In order to achieve the above object, the present invention provides a sampling probe which is inserted into a plurality of sampling points in a flue to collect sampling gas.
In an exhaust gas automatic analyzer comprising a sampling pipe for transferring the collected sampling gas, a sampling gas switching valve, a sampling gas transfer pump, a switching data processing panel for switching the sampling points, and a gas analyzer for analyzing the collected sampling gas A means for extracting a predetermined sample gas at a predetermined timing from the continuously flowing sampling gas by switching a large number of sampling gases from the plurality of sampling points one after another to continuously flow as a plug flow in the sampling pipe is provided. It is characterized by that. Further, a rotary switch for switching the flow of a large number of sampling gases is provided in the sampling pipe.
Further, a system is provided in which the sampling gas to be measured next to the sampling gas being measured among the plurality of sampling gases is drawn into the sampling pipe halfway. In addition, a system is provided for checking and correcting the switching timings and measurement timings of the large number of sampling gases.

[0009]

In the conventional method, when sampling, the sample gas drawn into the analyzer is moved to the next sampling after the sampling pipe is completely purged by the atmosphere and then the next sample gas is drawn. However, according to the above configuration, in order to simplify the sampling, it is possible to perform the analysis in a short time by switching the sample gas one after another without having to carry one purge at the time of switching.

Further, in that case, the analysis accuracy can be improved and the apparatus can be simplified as follows. (1) The system can be simplified by providing a rotary switch for efficiently switching the sample gas. (2) The sampling time can be shortened by pulling the next sampling gas halfway through the piping system and waiting it. (3) For a system in which the sampling gas is not measured, it is possible to install a blow-in purge system and to cause the stagnant material between the pipes to flow back into the duct. (4) The matching between the switching timing and the measurement timing is checked, and if they do not match, the atmosphere can be blown in to correct.

A system provided with.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a system diagram of one embodiment of the present invention, and FIG. 2 is a diagram showing the movement of each valve of this embodiment. This figure shows a specific example in the case of performing analysis by switching 16 points of sample gas.

As shown in FIG. 1, there are switching valves 1-A to 1-D corresponding to the sample gases A1 to D4 sampled at 16 points. Corresponding to this, three-way switching valves 2-A to 2 for switching to purge air respectively
-D. Further, there is a four-way switching valve 3-1 or 3-2 for switching whether to put the sample gas thus far into the sampling pump 5 or the bypass pump 6. The sample gas is drawn into the gas analyzer 7 and measured. A switching / data processing board 8 for switching each valve is provided.

The operation of each valve will be described with reference to FIG. First, when measuring the A1 sample gas, the switching valve 1-A is in the 1 position. From this, go to the 3-way switching valve 2-A. 2-A is in the OFF state, that is, a
-B is in conduction, and goes to the four-way switching valve 3-1. This valve is in an OFF state, that is, ab is in conduction, is introduced into the warming pump 5, and is measured by the gas analyzer 7.

At this time, the switching valve 1-B is in the position 1 and the sample gas A2 is drawn in, but the four-way switching valve is led to the bypass pump 6 because a-b and cd are conducting. . That is, the four-way switching valve 3-1
Until now, the sample gas of A2 has come and is ready for the next measurement. The three-way switching valves 2-C and 2-D are both O
N, that is, c-a is conducted to the purge side, and the stagnant substances in the pipe, which flow backward between the ducts, are discharged between the ducts. As described above, only the sample gas of A1 is gas analyzer 7
Get in

Next, the sample gas of A2 is measured, and the movement of each valve at that time is according to the item of A2 shown in FIG. As shown in the figure, measure up to B3 sample gas sequentially,
When the measurement of the sample gas of B3 is completed, the two-way switch 4-1 is turned on and the instrumentation air is switched to the switching valve 1.
-Enter from the position 5 of A and measure the atmosphere. Since the property is different from that of exhaust gas, by measuring this, it can be checked whether the switching timing and the measurement timing match, or it can be corrected. After that, the sample gas of B4 will be measured. This is repeated until the sample gas of D4 is repeated.

As described above, the sample gas to be measured can be drawn into the gas analyzer 7 one after another without replacing the previous gas once for each sample and then sampling the next sample gas. In the case of 16 points, the sampling time is about 60 seconds per point and about 20 minutes per cycle.

As described above, in the present embodiment, the gas sampling method is such that the sample gas is continuously flowed to the gas analyzer one after another, and the sample gas to be measured next is pulled in halfway to wait for the gas between the pipes. The replacement time can be shortened. In addition, a system was provided that allows checking whether the switching timing and the measurement timing match and, if they do not match, the correction. In addition, a rotary switch is provided to switch the sample gas to shorten the switching time and simplify the system. In addition, as for the system that is not sampling, a purge system is provided to blow back the stagnant substances in the pipe back into the duct.

[0019]

As described above, according to the present invention, the sample gas is continuously flowed to the gas analyzer one after another, the sample gas to be measured next is drawn in halfway, and the waiting time is set, and the gas replacement time between the pipes is set. Thus, it is possible to provide an exhaust gas automatic analyzer that can shorten the time and continuously measure the distribution of exhaust gas properties in a duct in a short time.

[Brief description of drawings]

FIG. 1 is a system diagram showing an embodiment of an exhaust gas automatic analyzer of the present invention.

FIG. 2 is a diagram showing the movement of each valve of the exhaust gas automatic analyzer according to the present embodiment.

FIG. 3 is a diagram showing the whole relating to exhaust gas measurement.

FIG. 4 is a diagram showing an example (16 points) of measurement distribution of exhaust gas in a duct.

FIG. 5 is a system diagram showing a conventional exhaust gas automatic analyzer.

[Explanation of reference numerals] 1-A, 1-B, 1-C, 1-D switching valve 2-A, 2-B, 2-C, 2-D three-way switching valve 3-1 3-2 four-way switching valve 4-1 and 4-2 Two-way switch valve 5 Sampling pump 6 Bypass pump 7 Gas analyzer 8 Switching / data processing panel 21 Boiler 22 Chimney 23 Flue 24 Sampling probe 25 Sampling conduit 26 Purge valve 27 Sampling valve 28 Bypass valve 29 Purge valve Pressure reducing valve 30 Bypass pump 31 Sampling pump 32 Gas analyzer 33 Switching / data processing panel 34 Bypass pipe 35 Gas analyzer inlet valve A, B, C, D Measuring points

Claims (4)

[Claims] 1. A sampling probe for inserting sampling gas into a plurality of sampling points in a flue, a sampling pipe for transferring the sampling gas, a sampling gas switching valve, a sampling gas transfer pump, and a sampling point. In an exhaust gas automatic analyzer comprising a switching data processing panel for switching and a gas analyzer for analyzing the collected sampling gas, a large number of sampling gases are sequentially switched from the plurality of sampling points and plug flow continuously in the sampling pipe. A device for automatically analyzing exhaust gas, comprising means for discharging a predetermined sample gas from the continuously flowing sampling gas at a predetermined timing. 2. The automatic exhaust gas analyzer according to claim 1, wherein a rotary switch for switching the flow of a large number of sampling gases is provided in the sampling pipe. 3. The automatic exhaust gas analyzer according to claim 1, further comprising a system for drawing the sampling gas to be measured next to the sampling gas being measured among the plurality of sampling gases up to the middle of the sampling pipe. Exhaust gas automatic analyzer. 4. The exhaust gas automatic analyzer according to claim 1, further comprising a system for performing matching check and correction of switching timings and measurement timings of the plurality of sampling gases.