JPH01142460A - Online gas chromatograph analyzer - Google Patents

Abstract

PURPOSE:To eliminate maintenance work such as disassembling and cleaning, by filtering liquid with a suction filter having a filter paper renewing mechanism in an apparatus which analyzes the amount of components contained in a treating liquid mixed with a solid matter on line. CONSTITUTION:An absorbing oil used in circulation in an equipment for recovery of benzole or the like as attached to a coke furnace is sent into a sampling pipe 11 with a pump not illustrated from an appropriate sampling point. The absorbing oil in the sampling pipe 11 with a solenoid valve 13 kept open is sent to a pre-filter absorbing oil tank 15 via a feeding pipe 14 while the oil in other sampling tubes 11 is returned to a recovery equipment via a return pipe 12. The oil stored by a fixed amount in the tank 15 is filtered with a suction filter 18 having a filter paper 19 renewing mechanism to be sent to an absorbing oil tank 17 thereafter. The oil in the tank 17 returns to the recovery equipment passing through a filter 28 and a sample pipe 24 having a flowmeter 29. On the other hand, a part thereof is sampled with a sampling valve 25 halfway to be sent to a gas chromatograph analyzer 26.

Description

[Detailed Description of the Invention] [Field of Industrial Application] This invention is applicable to processing liquids containing solids that are recycled in processing equipment, such as absorbed oil in recovery equipment for pensol etc. attached to coke ovens. The present invention relates to an online gas chromatography analyzer that makes it possible to precisely analyze the amount of components contained in the product online during cyclic use.

[Conventional technology]

When coke oven gas (COG) generated in a coke oven is used as a fuel gas, pensoles and naphthalene contained in the coke oven gas can cause various problems such as clogging of combustion burners. It is necessary to remove pensoles, etc. Therefore, coke ovens are equipped with recovery equipment for pensol and the like to remove and recover pensol and the like.

In the above recovery equipment, absorption oil made of coal tar distilled oil is used to absorb and remove pensols from coke oven gas. At the same time, the absorbed oil is regenerated. The regenerated absorption oil is recycled for absorption and removal of pensols, etc.

Therefore, in order to improve the removal efficiency and stabilize the removal efficiency of pensols etc. from coke oven gas in the recovery equipment for pensols etc., it is necessary to increase the concentration of pensols etc. in the absorbed oil in each part of the recovery equipment. It becomes important to control the quantity. For this reason, the amount of components contained in the absorbed oil at each part of the recovery equipment is analyzed.

However, in the past, the absorbed oil was collected by Iruma and then loaded into a gas chromatography analyzer and analyzed by humans, which limited the number of times one analysis could be performed and also made it impossible to obtain real-time analysis results. This has hindered the ability to stabilize operations and improve efficiency in response to load fluctuations on recovery equipment.

For this reason, we have created an online gas chromatography analyzer that automatically collects absorbed oil from recovery equipment, automatically charges it into a gas chromatography analyzer, and analyzes it online during cyclic use. is being developed.

FIG. 2 shows the configuration of a conventional online gas chromatography analyzer.

In FIG. 2, reference numeral 1 denotes an absorbed oil sample tube, and the sampling tubes 1 are provided in a number corresponding to the absorption oil sampling points of a recovery facility such as Penzol, for example, three tubes, each of which is connected to the sampling point. Each of the collection tubes 1 is provided with a fixed filter 2 consisting of a sintered filter or a wire mesh filter in the middle.
An absorption oil return pipe 3 and a solenoid valve 4 are inserted in this order, and a common absorption oil sample tube 5 is connected to the terminal. A flow meter 6 is inserted into the return pipe as necessary.

The absorbed oil is sent from a collection point in the recovery equipment to a collection pipe 1 by a pump (not shown), and passes through a filter 2 to remove solid components mixed in the absorbed oil. And during one analysis,
Absorbed oil in the collection tube 1 with the solenoid valve 4 opened selectively enters the sample tube 5. During non-analysis, the absorbed oil that has entered the collection tube 1 returns to the collection equipment through the return pipe 3, and new absorbed oil is constantly introduced into the collection tube 1.

A gas chromatography analyzer 8 is connected to the sample tube 5 via a sampling valve. If necessary, a fixed filter 9 is further inserted in front of the sampling valve of the sample tube 5, and a flow meter 10 is inserted in the rear thereof.

If a filter 9 is inserted in the absorbed oil that has entered the sample tube 5, a portion of the plate is further removed from solid matter by a sampling valve, and is then collected as an analysis sample and charged into a gas chromatography analyzer 8. Then, the amount of pensoles and naphthalene contained in the product is analyzed. The remaining absorbed oil is transferred to flow meter 1.
After the flow rate is measured at 0, the sample tube 5 returns to the recovery facility from its terminal.

It is preferable that the entire analyzer, except for the gas chromatography analyzer 8, surrounded by the dotted chain line in the figure be kept warm with steam or the like in order to prevent the precipitation of pensols and naphthalene from the absorbed oil.

[Problem that the invention seeks to solve]

However, the absorbed oil that is recycled in recovery equipment such as Penzol contains a large amount of solid content, such as impurities in the coke oven gas, reaction products with the absorbed oil, and carbon generated due to the thermal history of the absorbed oil. There is. For this reason, in conventional analyzers, the filter 2 of the collection tube 1 is easily clogged by the solid content in the absorbed oil, and the filter 2 of the collection tube 1 is easily clogged with
The amount of absorbed oil that goes to is reduced. For this reason, the amount of absorbed oil sampled by the sampling valve 7 and charged into the gas chromatography analyzer 8 decreases or becomes zero, causing problems in which the absorbed oil cannot be analyzed in the gas chromatography analyzer 8 or even if it is possible to analyze it. This also causes the problem of unreliability in the analysis results.In order to avoid this, maintenance work must be performed frequently to unclog the filter 2, and therefore, the absorbed oil must be automatically removed from the recovery equipment. It is not possible to maintain the function of an online gas chromatography analyzer, in which the sample is collected automatically and automatically loaded into the gas chromatography analyzer 8, making it possible to analyze it online during circulation.

It is also possible to use a coarse filter for the filter 2, but in this case, the fine structure of the sampling valve 7 etc. will be clogged with solids, which will similarly make analysis impossible or result in poor analysis results. This creates a problem of lack of reliability.

In view of the above-mentioned current situation, the purpose of this invention is to reduce the amount of components contained in the processing liquid containing solids that is recycled in the processing equipment, such as absorbed oil in the collection equipment for pensol etc. attached to the coke oven. An object of the present invention is to provide an online gas chromatography analyzer that enables accurate online analysis during cyclic use.

[Means for solving problems]

The online gas chromatography analyzer of the present invention includes a processing liquid sampling pipe connected to a processing liquid sampling point of processing equipment, in which a processing liquid return pipe and a solenoid valve are inserted in this order, and the processing liquid sampling pipe. A filtration treatment liquid tank installed at the terminal via a treatment liquid inlet pipe, a post-filtration treatment liquid tank installed below the filtration treatment liquid tank, and a filter paper installed between both the tanks. a suction filtration device with an update mechanism; a treated liquid sample tube connected to the post-filtration treated liquid tank; a gas chromatography analyzer connected to the sample tube via a sampling valve; and inside the post-filtrated treated liquid tank. and a feeding means for feeding the processing liquid into the sample tube.

Hereinafter, the online gas chromatography analyzer of the present invention will be described in detail.

FIG. 1 is a configuration diagram showing an embodiment of an online gas chromatography analyzer according to the present invention.

In FIG. 1, reference numeral 11 denotes an absorption oil collection tube, and the collection tube 11 is similar to the collection tube 1 of the conventional analyzer shown in FIG. Connected to the absorption oil sampling point of the equipment. An absorbed oil return pipe 12 and a solenoid valve 13 are inserted in the middle of each sampling pipe 11 in this order, but in this analyzer, the solid matter mixed in the absorbed oil is removed by the filter paper renewal mechanism described later. Since the water is removed using a suction filtration device equipped with a filter, no filter of any kind such as a sintered filter is inserted. At each end of the sampling pipe 11, a filtering and exiting absorption oil tank 15 is installed via a common absorption oil feed pipe 14.

The absorbed oil is pumped (
During analysis, the absorbed oil in the sampling tube 11 with the electromagnetic valve 13 opened selectively enters the inlet tube 14. During non-analysis, the absorbed oil that has entered the collection pipe 11 is returned to the collection equipment through the return pipe 12,
New absorbed oil is constantly coming in. The absorption oil that has entered the inlet pipe 14 is filtered through the inlet pipe 14 and sent to the absorption oil tank 15, and when a certain amount is stored in the tank 15, the repellent oil 16 installed in the tank 15 transfers it to the tank 15. is detected, and the solenoid valve 13 is closed.

Below the filtration absorbing liquid tank 15, a filtration/extraction absorption oil tank 1F is installed, and between both tanks 15 and 1F, a suction filtration device with a filter paper renewal mechanism is installed. The filtration device 1B includes a supply roll 20 wrapped with filter paper 19,
A take-up roll 21 to which the filter paper 19 unwound from the supply roll 20 is attached is provided at an interval in the horizontal direction. Filter paper 19 stretched between these rolls 20 and 21
In order to prevent tearing due to suction filtration, etc., the central portion through which the absorbed oil passes is supported from above and below by filter paper receivers 22a and 22b made of a porous material that is resistant to deformation and has corrosion resistance. The filter paper 19 can be made of glass fiber as well as paper. The above-mentioned filter paper 19, rolls 20, 21, etc. are all housed in a sealed housing (not shown) and airtightly placed in the lower part of the filtration absorption oil tank 15 and the upper part of the filtration extraction absorption oil tank 1f. The absorbed oil in the tank 15 can be filtered by suction by a pump 23 connected to the tank 17.

The absorbed oil stored in the absorbing oil tank 15 is filtered by suction by the pump 23 through the filter paper 19 of the filtration device 18, and mixed solid matter is removed. In one day, when the filtering device finishes filtering the absorbed oil, the take-up roll 21 is rotated for a certain period of time, and the used part of the filter paper 19 is taken up, the unused part of the filter paper 19 is taken up by the take-up roll 21, and the supply roll 20. This renews the filter paper 19 in preparation for filtering the absorbed oil stored in the tank 15 next. The filtration device 18 may have two upper and lower filters, as in the filtration device previously proposed by the present applicant (Utility Application No. 151-139715), so that the filter paper 19 can be renewed as needed depending on the properties of the absorbed oil. It can also be provided on a stage.

At the bottom of the absorption oil tank 1, there is an absorption oil sample tube 24.
is connected, and a gas chromatography analyzer 26 is connected to the middle of the sample tube 24 via a sampling valve 25.

In addition, absorption oil is sent to the sample tube 24 in the tank 17.
A feeding means 2 consisting of pressurizing means is installed. Further, a flow meter 29 is inserted into the sample tube 24 .

The entire amount of the absorbed oil from which solid content has been removed by filtration is stored in tank 1, and then fed into sample tube 24 by pressurization with air or nitrogen gas from feeding means 2. Note that the feeding means 27 may be a pump. If a filter 28 is inserted, the absorbed oil sent into the sample tube 24 further removes solid matter through the filter 28, and then a part of it is collected as an analysis sample by the sampling valve 25 and sent to the gas chromatography analyzer 26. The amount of pensoles and naphthalene contained therein is analyzed. The flow rate of the remaining absorbed oil is measured by a flow meter 29, and then returned to the collection equipment from the end of the sample tube 24.

It is preferable to keep the entire analyzer, except for the gas chromatography analyzer 26, surrounded by the dotted chain line in the figure, using steam or the like in order to prevent the precipitation of pensoles and naphthalene from the absorbed oil.

As described above, in the gas chromatography analyzer of the present invention, the solid content mixed in the absorbed oil is not removed by a fixed filter in the middle of the sampling tube 11, and the absorbed oil is transferred to the sampling tube 11.
The absorbed oil is stored in an absorption oil tank 15 through a feed pipe 14, and the absorbed oil is suction-filtered using a filter paper 19 that has been renewed by a suction filtration device with a filter paper renewal mechanism. without becoming impossible to remove due to clogging.
The required amount of solid content in the absorbed oil can be removed. Therefore, the fine structures such as the sampling valve 25 are not clogged with solid matter, and the required amount of absorbed oil can be charged to the gas chromatography analyzer 26, so that the components contained in the absorbed oil can be It is possible to analyze the amounts of pensoles and naphthalene with high accuracy without reducing accuracy. Also, the filter paper 19 wound around the supply roll 20 is taken up by a winding roll 21.
By winding it up with The function as an analytical device is easily maintained.

〔Effect of the invention〕

According to the online gas chromatography analyzer of the present invention, the amount of components contained in the solid content-containing processing liquid that is recycled in the processing equipment, such as absorbed oil in the collection equipment for pensol etc. attached to the coke oven, can be measured. Analyzes can be performed online with high accuracy during cyclical use.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing one embodiment of the analyzer of the present invention, and FIG. 2 is a block diagram showing a conventional analyzer. In the drawings, 11... Collection tube, 12... Return tube, 13
... Solenoid valve, 14... Feed pipe, 15.
... Filter exit absorption oil tank, 17... Filter removal absorption oil tank, 18... Suction filtration device with filter paper renewal mechanism, 19.
... Filter paper, 20.21 ... Roll, 22
a, 22b... Filter paper receiver % 23... Pump, 2
4... Sample tube, 25... Sampling valve, 26... Gas chromatography analyzer, 27... Feeding means.

Claims (1)

[Scope of Claims] A processing liquid sampling pipe connected to a processing liquid sampling point of processing equipment, in which a processing liquid return pipe and a solenoid valve are inserted in this order; A filtration pre-treatment liquid tank installed via a liquid feed pipe, a post-filtration treatment liquid tank installed below the filtration pre-treatment liquid tank, and a suction equipped with a filter paper renewal mechanism installed between the two tanks. It consists of a filtration device, a treated liquid sample tube connected to the post-filtration treated liquid tank, a gas chromatography analyzer connected to the middle of the sample tube via a sampling valve, and a feeding means for feeding into the tube. An online gas chromatography analyzer featuring: