JP5465739B2 - Exhaust gas analyzer - Google Patents

Description

  The present invention relates to an apparatus for measuring the concentration of harmful gases such as NOx and CO in exhaust gas and analyzing the combustibility of the exhaust gas.

  Conventionally, in order to evaluate combustion exhaust gas containing NOx, CO, etc. of a diesel engine or a boiler, there is a method using a gas chromatograph mass spectrometer or a combustion exhaust gas analyzer, while an analyzer (for example, an all-sat analyzer). There is also a manual analysis method using a reagent or the like.

  In addition, when conducting test research and sample measurement within an operating company (in other words, without daily trend management and measurement certification), it is easy to use an off-the-shelf gas chromatograph, exhaust gas analyzer, and detector tube. The concentration of combustion exhaust gas may be measured.

JP 2010-227749 A

  However, since exhaust gas from diesel engines and boilers contains high concentrations of soot, off-the-shelf exhaust gas analyzers must use a product with a structural specification that allows the gas sampling part to withstand high concentrations of soot. As a result, not only the price of the main body but also the price of accessories increases the cost of the entire device. The gas chromatograph is also expensive because it is a special dedicated device, and it is further expensive because it is necessary to remove the dust using a pretreatment filter or the like in order to eliminate the influence of the dust. On the other hand, measurement by an analyzer needs to be performed by an engineer who is familiar with reagent preparation and measurement techniques, and is not easy.

  In addition, when measuring gases with multiple compositions using a method that uses a detector tube, it is necessary to replace the detector tube every time. Differences occur depending on the view of the person reading the value.

  In Patent Document 1, as an exhaust gas treatment method, in the acidic gas removal step, liquid alkali is used so that the concentration in the exhaust gas approaches the target concentration based on the sulfur dioxide concentration and the hydrogen chloride concentration measured in the concentration measurement step. Although a method for controlling the supply amount of the agent and the powder alkali agent is disclosed, the exhaust gas is not analyzed by removing the dust in the exhaust gas easily and inexpensively.

  The present invention has been made in view of the above problems, and its main purpose is to analyze the exhaust gas easily and inexpensively.

In order to solve the above-mentioned problem, the present invention is an exhaust gas analyzer, which is a first filter using cotton that adsorbs solids and liquids containing dust in exhaust gas and allows gas in the exhaust gas to pass through, a container for accommodating the first filter, the gas that has passed through the first filter, sucked from the container, and a gas analyzer for analyzing the exhaust gas analyzer is in the higher position the first filter A second filter that removes water vapor and soot in the gas that has passed through the first filter, an intake pipe that guides the gas that has passed through the second filter to the exhaust gas analyzer,
The equipped and wherein the Rukoto.

  According to this configuration, the filter may be any filter as long as it can adsorb dust and drain in the exhaust gas and allow the gas excluding them to permeate. For example, a cotton or fiber filter can be used, so that it can be procured at low cost. Then, the exhaust gas analyzer can be easily manufactured by attaching the container containing the filter to the intake port of the intake pipe extending from the exhaust gas analyzer. According to this, when analyzing the exhaust gas, the concentration of the exhaust gas can be measured easily and inexpensively by attaching an inexpensive filter container to a dust-free exhaust gas analyzer that is not resistant to dust. . Furthermore, even if the exhaust gas analyzer does not have durability to soot dust, it is possible to analyze combustion exhaust gas containing soot dust from a diesel engine or a boiler by using a filter.

The exhaust gas analyzer of the present invention further includes a housing that houses the container and the exhaust gas analyzer, and the housing includes an intake port that sucks outside air into the housing, and an interior of the housing. It is good also as providing an exhaust fan which discharges the outside air.
According to this configuration, it is possible to prevent the temperature of the exhaust gas analyzer from rising by discharging the heat generated from the exhaust gas analyzer stored in the housing to the outside.

Moreover, the said exhaust gas analyzer of this invention WHEREIN: The said container is transparent and the said housing | casing is good also as providing the transparent opening part near the said container.
According to this configuration, the inside of the container accommodating the filter can be visually confirmed from the outside of the housing through the opening, so that the color of the filter and the amount of drain accumulated in the container can be confirmed. According to this, when the dust is adsorbed on the filter and becomes black, the filter can be replaced, and when the amount of drain increases, the drain can be discarded.

The exhaust gas analyzer of the present invention may further include a transformer capable of transforming electric power supplied from outside to a predetermined voltage.
According to this configuration, since the same voltage power can be supplied to the exhaust gas analyzer even if the voltage of the external power source is different by using a transformer, the exhaust gas using the same exhaust gas analyzer can be used both in Japan and abroad. An analytical device can be used.

  In addition, the problems disclosed by the present application and the solutions thereof will be clarified by the description of the mode for carrying out the invention and the drawings.

  According to the present invention, the exhaust gas can be analyzed inexpensively and easily.

1 is a perspective view showing a configuration of an exhaust gas analyzer 1. FIG.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. The exhaust gas analyzer according to the embodiment of the present invention is a combination of a small combustion exhaust gas analyzer and a filter that removes soot and dust in the exhaust gas. The filter is a dedusting / drain collecting filter that adsorbs only solids and liquids and allows gas to pass through without causing a catalytic reaction or a chemical reaction to the exhaust gas. For example, a cotton or fiber filter is used.

  According to this, it is small and can be transported as needed, and can be manufactured at a lower cost than conventional devices.

  FIG. 1 is a perspective view showing the configuration of the exhaust gas analyzer 1. The exhaust gas analyzer 1 includes, for example, a storage case 20 that is a casing of 270 mm (vertical) × 500 mm (horizontal) × 285 mm (height), and the storage case 20 can be opened and closed by a lid. A total of 2, the washing bottle 3 and the power supply device PS are accommodated.

  The exhaust gas analyzer 2 is an off-the-shelf small combustion exhaust gas analyzer, which is not durable against soot and dust, but can protect the sensor with a dilution function for high-concentration exhaust gas, Carbon monoxide concentration and nitrogen oxide concentration can be measured. The exhaust gas analyzer 2 is fixed from a bottom surface of the storage case 20 to a table 21 that is as high as the height of the cleaning bottle 3, and an intake pipe 9, an exhaust pipe 10, and a power plug 16 are connected to the exhaust gas analyzer 2. The exhaust gas analyzer 2 receives supply of DC power from the power plug 16, sucks exhaust gas from the intake pipe 9, performs component analysis of the exhaust gas, and discharges the exhaust gas thereafter to the exhaust pipe 10.

  The exhaust gas analyzer 2 includes a connection terminal (not shown) of a USB (Universal Serial Bus) cable, and the lid of the storage case 20 is closed so that the display unit of the analyzer cannot be seen. By connecting a USB cable between the analyzer and a PC (Personal Computer), it is possible to display measured values related to exhaust gas on the PC screen. At this time, analysis data can be monitored, recorded, and edited by installing software dedicated to the analyzer on the PC. As the exhaust gas analyzer 2, for example, a handy type combustion exhaust gas analyzer provided by Testo Co., Ltd. is used.

  The cleaning bottle 3 is a transparent container that stores drainage in the exhaust gas, and is fixed to the corner portion of the storage case 20 by two plates 22 and 23. The viewing window 4 is a transparent opening provided on the side surface of the storage case 20 near the corner. By visually observing the inside of the cleaning bottle 3 from the outside of the storage case 20 through the visual window 4, the amount of drain accumulated in the cleaning bottle 3 and the color of the cotton 7 stored in the cleaning bottle 3 as will be described later. Can be confirmed. And when it is found that the amount of drain is large or the cotton 7 is discolored, the drain accumulated in the cleaning bottle 3 is discarded by removing the cleaning bottle 3 from the storage case 20, The cotton 7 can be replaced with a new one.

  The introduction pipe 6 is a pipe that sucks exhaust gas (intake air) from the introduction port 5 and introduces the exhaust gas into the cleaning bottle 3. The cotton 7 is accommodated in the washing bottle 3 and is provided so as to wrap the discharge port of the introduction pipe 6. Before taking the exhaust gas into the exhaust gas analyzer 2, the cotton 7 removes dust (solid) in the exhaust gas from the exhaust port, It is a filter that collects drain (mist-like liquid). When dust accumulates in the cotton 7 and the color of the cotton 7 becomes black, the cleaning bottle 3 can be opened and replaced. In practice, Fresh Superior (registered trademark) is used as the cotton 7, but a fiber filter or the like may be used instead.

  The attached filter 8 is provided as an exclusive member of the exhaust gas analyzer 2 at the intake port of the intake pipe 9 at a position higher than the cotton 7 and removes water vapor in the exhaust gas and soot that has not been completely removed by the cotton 7. This can lead to equipment protection of the exhaust gas analyzer 2. The intake pipe 9 guides the exhaust gas that has passed through the attached filter 8 to the exhaust gas analyzer 2. On the other hand, the exhaust gas (exhaust gas) discharged from the exhaust gas analyzer 2 is exhausted from the exhaust port 11 through the exhaust pipe 10.

  The power supply device PS includes a power cable 12, a power transformer 13, a DC / AC inverter 14, and an outlet 15. The power cable 12 is a cable for receiving power from an external power source. The power transformer 13 is, for example, a transformer that can convert a voltage of 85 to 230V received from an external power source into a predetermined voltage, and can convert the voltage to the same voltage regardless of whether the external power source is 100V or 200V. Thereby, the exhaust gas analyzer 2 having the same working voltage can be used both in Japan and abroad. The DC / AC inverter 14 converts the power received from the power transformer 13 from alternating current to direct current, and supplies it to the exhaust fan 18. The outlet 15 is an AC power supply port converted into a voltage of 100 V by the power transformer 13 so that the exhaust gas analyzer 2 can be used even overseas.

  Further, the exhaust gas analyzer 1 includes an intake port 17 and an exhaust fan 18 for exhaust heat inside the storage case 20. The intake port 17 is provided on one side surface of the storage case 20 and is a ventilation port that takes in outside air. The exhaust fan 18 is provided on the side surface of the storage case 20 facing the intake port 17, rotates by receiving power from the DC / AC inverter 14, and discharges the air in the storage case 20 to the outside. Thereby, the temperature rise of the exhaust gas analyzer 2 and the power supply device in the storage case 20 can be suppressed.

  Actually, as a result of measuring the same exhaust gas concentration in the state where the cotton 7 is provided in front of the intake pipe 9 of the exhaust gas analyzer 2 and in the state where the cotton 7 is not provided, there is no difference in the measured value. It has been confirmed that there is no influence on the accuracy of concentration measurement of the exhaust gas analyzer 2 by attaching cotton 7 as a filter.

  According to the embodiment of the present invention described above, exhaust gas can be analyzed inexpensively and easily. That is, by attaching the washing bottle 3 containing cotton 7 to the exhaust gas analyzer 2, it is possible to provide a small exhaust gas analyzer 1 that can be transported as necessary, compared with the conventional apparatus. And can be manufactured at low cost. In addition, it is possible to deal with high-concentration exhaust gas with an inexpensive and simple configuration, and dust can be removed, which is very useful in actually analyzing exhaust gas.

Furthermore, the following effects can be expected.
(1) The procurement cost of the exhaust gas analyzer 1 can be reduced. Actually, the cost of the apparatus has dropped from about 2 million yen to about 1 million yen, to about 50%.
(2) It is possible to prevent exhaust gas analyzer 2 from being worn out by high-concentration dust, and to reduce maintenance costs and running costs. Conventionally, when the exhaust gas analyzer 2 without a filter is used for exhaust gas containing soot dust, it has been necessary to disassemble and inspect the exhaust gas analyzer 2 at an early stage, and the cost has been tens of thousands of yen.
(3) Since the concentration of exhaust gas can be measured easily in a short time, the efficiency of research work can be improved.
(4) Since the digital display and data recording are possible by connecting the exhaust gas analyzer 2 to the PC, the accuracy of exhaust gas analysis can be improved.

<< Other embodiments >>
As mentioned above, although the form for implementing this invention was demonstrated, the said embodiment is for making an understanding of this invention easy, and is not for limiting and interpreting this invention. The present invention can be changed and improved without departing from the gist thereof, and equivalents thereof are also included in the present invention.

1 Exhaust gas analyzer 2 Exhaust gas analyzer 3 Washing bottle (container)
4 Visual window (opening)
7 Cotton (filter)
13 Power transformer (transformer)
17 Intake port 18 Exhaust fan 20 Storage case (housing)

Claims (4)

A first filter using cotton that adsorbs solids and liquids containing dust in the exhaust gas and allows gas in the exhaust gas to pass through;
A container containing the first filter;
An exhaust gas analyzer for sucking and analyzing the gas that has passed through the first filter from the container;
Equipped with a,
The exhaust gas analyzer is
A second filter that is higher than the first filter and removes water vapor and smoke in the gas that has passed through the first filter;
An intake pipe for guiding the gas that has passed through the second filter to the exhaust gas analyzer;
Exhaust gas analyzing apparatus characterized by Ru with a. The exhaust gas analyzer according to claim 1,
A housing for housing the container and the exhaust gas analyzer;
The housing is
An intake port for sucking outside air into the housing;
An exhaust fan for exhausting the air inside the housing to the outside;
An exhaust gas analyzer characterized by comprising: The exhaust gas analyzer according to claim 2,
The container is transparent;
The casing further includes a transparent opening in the vicinity of the container. The exhaust gas analyzer according to any one of claims 1 to 3,
An exhaust gas analyzer, further comprising a transformer capable of transforming electric power supplied from outside to a predetermined voltage.

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