KR810001202Y1 - Measuring device for hydrocarbon density - Google Patents

Abstract

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Description

Hydrocarbon Concentration Measuring Device

The accompanying drawings are explanatory diagrams showing an embodiment of the present invention device.

In recent years, in order to grasp the situation of pollution, the effect of the measure, etc. with progress of the proposal for the prevention of air pollution in the recent years, a gas measuring instrument with high accuracy and reliability is required, but this invention has designed the air pollution. As a measuring device, in particular, there is provided a hydrocarbon concentration measuring device capable of measuring the concentration of hydrocarbons in the atmosphere to a very high degree. In the conventional hydrocarbon concentration measuring apparatus, it is common sense to use a FID (hydrogen salt ionization detector (hereinafter referred to as FID)) aside from a different method.

With the recent improvement of the measurement technique, oxygen interference of FID has been greatly closed up.

In the conventional measuring apparatus, a compressed air and a synthetic air pump have been used as the assisting air, but it has been forbidden to use the FID as a supporting gas by purifying the atmosphere due to problems such as maintenance cost and water retention.

However, in the method of using this crude gas by atmospheric purification, the oxygen concentration in the content is changed due to the change of humidity in the atmosphere, and finally by the change of the amount of water vapor in the crude air purification gas, which gives a large error in the indication. There is a flaw.

Therefore, the concentration of oxygen reacted with the hydrocarbon by the crude air purifier is ignored in ppm order, but the change in the concentration of oxygen due to water vapor cannot be ignored in% order.

The object of the present invention is to address the above-mentioned shortcomings in the conventional apparatus, by installing a cooler in the supporting air line, cooling it to a constant temperature, and saturating the water vapor into a constant concentration of water vapor, It is characterized in that the oxygen concentration in the content is not changed by the change of the water vapor concentration.

Next, an embodiment of the present invention will be described in detail with reference to the drawings.

In the drawing, reference numeral 1 denotes a sample air inlet, and atmospheric air is sucked from the inlet 1 by a sampling pump 2 (for example, pressurized at about 0.3 kg / cm ² ) to provide sample air. It is introduced into the pipeline l ₁ and is sent to the sample air pipeline l ₂ through the middle sample filter 3. During the pipeline ℓ ₂ separate pipeline (supporting air line) ℓ _3, and the branched (分岐), these lines ℓ _2, ℓ ₃ are both connected to the FID (4).

_On the side of the branched pipeline l ₃ , first, an air freshener 5 is installed. The air and branched air exiting the sampling pump ₂ and sent to the line l ₂ are completely oxidized in this purifier 5 to be air containing no hydrocarbon.

Rearward of the refiner (5) and a cooler 6 is installed, the air coming out of the purifier 5 through gyobyeon (絞弁) (7) of the line ℓ ₃ during sent in the cooler 6. The cooler 6 cools the air to a constant temperature (for example, about 2 ° C.) to saturate the water vapor, thereby concentrating the water vapor to a constant concentration. Accordingly, the air entering the branched line l ₃ is supplied to the FID 4 at a constant oxygen concentration after passing through the cooler 6 even at an oxygen concentration at any humidity. The cooler 6 can eliminate the oxygen interference caused by the atmospheric change.

(8) is a trap-bubble tube (10) of water for supplying a constant flow rate of the assistant air to the FID (4), and keeps a certain amount of water in the water tank (9), and the pipeline l _{3 in the} cooler (6) Insert the bubbler tube 10 branched into the water into the water in the tank 9 to a certain depth, and when the flow rate of the air flowing through the line ℓ ₃ is greater than or equal to the predetermined flow rate, bubbles are released from the bubbler tube 10 so as to maintain a constant flow rate. It is forbidden to maintain.

The water tank 9 passes through the discharge port 11 to communicate with the atmosphere.

In addition, in order to compensate for the evaporation of water in the water tank 9, the combustion exhaust gas line 12 is taken out of the FID 4 and inserted into the water tank 9 of the barb 8, and this line 12 Through the water tank (9) of the water generated in the FID (4) through the water supply to the water tank (9) without supplying elsewhere, while automatically draining through the drain port (13), It is forbidden to maintain a predetermined level at all times.

In the trap brush 8 of the above water, the automatic drainage is because the amount of the water from the FID 4 is larger than that of the water in the tank 9, and therefore it is always maintained at a constant pressure by the automatic drainage effect. .

FID (4), the line of the sample air as in ₂ ℓ, is also hydrogen (fuel gas) is (送入) respectively fed from lines ₄ ℓ.

On the other hand, the supporting air is fed from the line ℓ _3, the exhaust gas of the combustion air in the FID (4) is discharged from the line ℓ _3.

As described above, according to the present invention, by installing a cooler in the air supply line, FID can be supplied with a certain concentration of crude oxygen even if the humidity in the air changes. You can do it.

In addition, as shown in the above-described embodiment, by installing the trap trap of water, it is possible to provide a long-term stable hydrocarbon concentration measuring apparatus without maintenance of water supply elsewhere.

Claims (1)

As shown, branching of the air supply line ℓ ₃ in the middle of the sample air line ℓ ₁ , ℓ ₂ to send the sampled atmospheric air to the FID (4), and connects the supporting air line ℓ ₃ to the FID (4) , again a supporting air line ℓ ₃ in the hydrocarbon concentration measuring apparatus characterized in that a cooler (6) for controlling the water in the air by a certain amount.