DE2416672A1 - DEVICE FOR MEASURING FLOWING SAMPLES - Google Patents

Description

April 4, 1974 Application files: 27.6d

PATENT APPLICATION

Applicant: The Bailey Meter Company, 29'ύΟ] Euclid Avenue, Wickliffe, OHIO 44092 - USA -

Title: Device for measuring flowing samples

The invention relates to a device that registers a dimensionally stable sample of a medium flowing through on the spot, which is an essential prerequisite for an exact one-off or continued analysis of a medium into one or more components to employ The invention is particularly applicable to the analysis of exhaust gases, such as those from industrial processes and with fossil fuel fired combustion chambers escape into the open or are generated in industrial processes, such as. B. gases that incurred in sulfuric acid production, pulp production and the like. Such an analysis can be made thereby be that a beam of a selected electromagnetic or acoustic radiation from a transducer through the sample Sending the flowing medium to a receiver. The relationship between the transmitted and received radiation depends on this on one or more components of the medium to be analyzed.

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One known method of analyzing a flowing medium is to provide a lightweight tube that has a slot through which a portion of the medium flows. The radiator is placed on one outer end of the tube and the receiver on the other. Such lightweight tubes do not allow for an accurate analysis because, because of the diffusion of the flowing medium in the light tube, they do not produce a scaled sample of the flowing medium the light pipe and against the shut-off window or lenses in the transmitter and receiver. Attempts have been made to remedy these shortcomings by using a flushing medium, such as. B. air, introduced into the light tube. It has been found, however, that such a measure is unsuccessful in most cases. Exhaust gases are usually removed through channels whose width is between 30 and 60 cm and up to 450 cm or may be more _o A light pipe that is sufficiently stiff so as to extend from one side of the channel to the other, must be made of a thick-walled tube which has an inner diameter of 100 mm or more. The introduction of flushing medium into such a pipe does not create an impermeable, stable boundary with the flowing medium at the ends of the gate. It has also been found that changes in the amount of flushing medium significantly affect the dimensional stability of the flowing sample of the medium.

The invention is based on the object of creating a device for measuring a dimensionally stable medium sample which allows one-time or continuous analyzes of the ^! the medium flowing through. The risk of soiling should be largely eliminated.

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This object is achieved according to the invention in that the support tube is closed at each end of the slot by a disc provided with a screen, through which the flushing medium into the medium flowing through to be measured occurs.

To transfer the flushing medium to the support tube is a special one Channel provided in which screens are arranged and a pressure regulator is used to increase the pressure on the inlet side of the screen maintain a constant pressure above the critical pressure.

Each of the diaphragms expediently comprises a tube that is longer than two orifice diameters to ensure an orderly flow of flushing medium from the support tube into the flowing medium. It has proven to be useful to use a compressible gas as the flushing medium.

In a practical embodiment, on each long side of the A flat reinforcement plate is attached from one end to the other end of the slot. To increase the rigidity of the support tube increase, the slot is advantageously divided into a number of segments.

If the conditions so require, that will be the case with the flowing Medium-lying surface of each of the orifice plates is conical in the direction of the flow.

To create a stable interface between the one introduced into the slot To maintain flushing medium and the medium flowing through the slot, a device is provided which regulates the amount of flushing medium flowing through the diaphragm. Furthermore, a device is provided to increase the flush volume through each of the diaphragms

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than about 2.5 cubic feet per minute and inch orifice diameter keep.

With the device according to the invention it is possible continuously measure a dimensionally stable sample and eliminate the shortcomings of the known devices.

An exemplary embodiment of the invention is shown in the drawing and is described in more detail below.

FIG. ₀ 1 is a side view of an embodiment, partially in cross section,

FIG. 2 is a sectional view taken along line 2-2 of FIG. 1 in the direction of the arrows,

3 shows another arrangement for feeding flushing medium into the flowing sample,

4 is a partial plan view of a slit divided into segments;

Fig. 5 is a graph used for describing certain aspects of the invention.

Figure 1 shows an embodiment for sampling an exhaust gas, such as. B. of flue gas that is ejected from a fossil fuel furnace. Such gases are normally drawn through a duct with walls 2.

A support tube 4 extends through the channel, which is expediently z. B. from an ICX) mm pipe can be made. It was fixed-

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provided that such a support tube has sufficient rigidity to allow optical alignment between a radiation receiver and a radiation transmitter for channels to ensure their Width is found in most industrial applications. It is clear, however, that the weight and size of the support tube can be enlarged to the extent necessary to meet the conditions of a respective FqIIs. Still has such a support tube usually has sufficient rigidity to eliminate the need for the lightweight tube within of the channel

The support tube 4 has a slot 6 through which a part of the exhaust gas flows _p, thereby determining the amount of the sample _c It will be understood that the length of the slot can be changed as necessary to meet the requirements of a case.

Thus, for a beam with a certain intensity, the slit length can be be adjusted so that the expected amount of suspended matter and the impermeability of the gas for the use coming radiation band must be taken into account. For channels of ordinary Width, it has been found that a continuous slot does not significantly affect the stiffness of the support tube; However, as shown in Figure 4, canals with a different

proportionately larger width of the slot can be divided into segments. If necessary, additional rigidity of the support tube 4 can be achieved by the fact that side plates (Figure 2) are shown, welded to the inner wall of the support tube or otherwise fastened, specifically along the length of the slot _{or the like}

In an expedient manner, the support tube 4 can be stored and supported in the channel walls 2, on which it is welded or sealed by some other suitable means. That

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The support tube is provided with flanges TO and 12 in order to provide an attachment option for flanged fittings 14 and 16, to which a transmitter IB and a receiver 20 are attached by suitable detachable devices (not shown) in order to be able to inspect the windows and, if necessary, to clean them which are provided in typical gewähnlich donor and recipient devices _o A flushing medium, such. B. air is introduced into the fittings 14 and 16 through suitable connections 21 or ο 22. The scavenging air flows through the support tube 4 and is discharged into the slot 6.

As mentioned above, an arrangement according to the known state of the art does not produce a flowing sample which has dimensional stability. The invention overcomes this deficiency in that the flushing medium exits through apertures which are provided at each end of the slot 6. In Figure 1, a disk 24 is shown lying on the donor end of the slot and a similar disk 26 lying on the receiving end of the slot. Each disc is equipped with a diaphragm 29 which has a relatively small diameter compared to the support tube. To give an idea of the order of magnitude, one can say that with a 100 mm support tube the diaphragms have a diameter of 50 mm or less. As shown in FIG. 1, the scavenging air to be discharged through the diaphragms first flows through tubes 28 and 30, the length of which is at least twice as large as the diaphragm diameter, in order to produce a laminar or at least an orderly flow. It has been found that such an arrangement provides a stable interface between the purge air and the withdrawn medium, thereby providing a dimensionally stable flowing sample while preventing the particulate matter and sample gas from entering the lightweight tube.

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FIG. 5 shows a typical relationship between the amount of purge air and the ratio of the effective and the observed concentration of a measured component of the sample gas. It will be found that the ratio remains constant above a minimum amount of scavenging air. The dimensional stability of the sample medium is thus maintained regardless of fluctuations in the amount of flushing medium. As a refinement, the invention also includes maintaining a constant amount of flushing medium in cases where a compressible gas such as ζ. B. air is used; this is done by introducing the flushing medium through the diaphragms 32, 34 and maintaining a pressure on the inlet side which is above the critical pressure. The constant inlet pressure is maintained by pressure regulator 36 _f 3ö.

For 2-inch orifices it was found that flush volumes above Cubic feet per minute and orifice result in a constant ratio between observed and effective concentration. It means that a value of 7 cubic feet per minute and orifice can be chosen in an advantageous manner in order to achieve independence from the flush volume or the sample gas volume over a wide range. For 1.1 / 2-inch orifices have been found to provide a constant ratio of flush rates above 3.5 cubic feet per minute. Thus, the minimum flush for a constant ratio between observed and true concentration is approximately 2.5 standard cubic feet per minute per inch of orifice diameter.

FIG. 3 shows another form of diaphragm arrangement for the introduction of the flushing medium into the slot ends. At this A fitting 40 having flanges 42 and 44 is provided. After installation in the support tube, the flange 44, which is attached to o According to the illustration, the surface of the

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Flange 44 is conical. The conicity can be up to 15 °. The flanges 42, 44 are separated by a tube 46, which is long enough - about twice the inner diameter of the tube - to allow an orderly flow of flushing medium into the slot to manufacture. It has been found that such a design increases the dimensional stability of the flowing sample approximately within the holds the same flushing medium and sample gas volume range as the arrangement shown in FIG.

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Claims (9)

2 U 1 R 6 7 PATENT CLAIMS Device for measuring a dimensionally stable medium sample which flows through a support tube with an elongated slot, wherein the support tube can be acted upon by a flushing medium, characterized in that the support tube (4) on each The end of the slot (6) is closed by a disc (24, 26) provided with a diaphragm (29) through which the Rinsing medium enters the medium. 2. Apparatus according to claim 1, characterized in that each of the diaphragms comprises a tube which is longer than two orifice diameters is 3. Apparatus according to claim 1, characterized in that the flushing medium is a compressible gas. 4. Device according to claim 1 and / or one of the following, characterized in that a special channel for the transfer of the flushing medium to the support tube (4) is provided in which orifices (32 or 34) are arranged and a pressure regulator (36 or 3tf) is used to control the pressure on the inlet side of the diaphragm (29) to maintain a constant pressure above the critical pressure. 5. Device according to claim 1 and / or one of the following, characterized in that a flat reinforcement plate on each longitudinal side of the slot runs from end to end of the slot. - 10 - 409843/0851 6. Apparatus according to claim 1, and / or one of the following, characterized in that the slot is divided into a number of segments, with the proviso that the rigidity of the support tube is increased _o 7. Device according to claim 1 and / or one of the following, characterized in that the surface of each of the diaphragm plates lying next to the flowing medium is in the direction of the flow of the flowing medium is conical. ö. Device according to claim 1 and / or one of the following, characterized in that a device regulates the amount of flushing medium flowing through the diaphragm the proviso, a stable interface between the flushing medium introduced into the contactor and that through the slot Maintain flowing medium. 9. Device according to claim 1 and / or one of the following, * characterized in that a facility the flow rate through each of the orifices is provided to be greater than about 2.5 cubic feet per minute and inch of orifice diameter to hold ο Λ 0 9 β 4 2/0 8 5 1