FR2688801A1 - DUST COLLECTION DEVICE FOR THE ANALYSIS OF SMOKE AND METHOD OF IMPLEMENTING SUCH A DEVICE. - Google Patents

Abstract

The transfer and treatment line (8) between the fume sampling rod (7) and an analysis system (9) comprises at least one upstream section (17) consisting of a corrugated metal tube, advantageously flexible, connected to the upstream part (15) of the transfer line (8). The dust carried by the sampled gas is deposited in the corrugations of the corrugated tube. For their evacuation, a pressurized gas (20) is passed in countercurrent through the corrugated tube. Application in particular to devices for analyzing fumes from electric furnaces for producing steel with injection of oxygenated gas.

Description

 The present invention relates to smoke analysis devices, in particular in an industrial reactor smoke evacuation pipe, comprising a sampling rod, at least one analysis system, and a gas transfer line between the combustion rod sampling and analysis system.

A device of this type is described in the document
GB-A-1,370,658 and in European patent application 92.400051.6, of January 9, 1992, in the name of the Applicant. Smoke analysis devices find a particularly important application in the continuous regulation of the injection of post-combustion oxygen into electric furnaces for the production of steels or ferro-alloys. A key aspect of the reliability of such devices lies in the resistance to clogging by dust carried by the fumes. In fact, in the above applications, the sampled fumes are extremely charged with metallic dust, with rates reaching 250 g / Nm3, as well as with water (up to 20%), which can lead to blockage of the device. transfer and treatment, including rapid clogging of the filters arranged in the transfer line.

 The object of the present invention is to propose a smoke analysis device of particularly simple, robust design, with low manufacturing costs, making it possible to significantly reduce the quantities of dust reaching the downstream part of the transfer line.

 To do this, according to a characteristic of the invention, the transfer line comprises at least one upstream section consisting of a metal tube, advantageously flexible, having corrugations.

 According to another characteristic of the invention, the transfer line comprises, downstream of the section, a means of countercurrently introducing a stream of exhaust gas.

 With such an arrangement, the corrugated tube promotes, upstream, the settling of dust and its accumulation in its cells, thereby reducing the amounts of dust reaching the downstream part of the device.

 Another object of the present invention is to propose a method for implementing such a device in which, after a determined period of use, the exhaust gas is passed against the current in the corrugated tube, after having possibly disconnected the upstream end of the corrugated tube from the upstream part of the transfer line.

 In this way, the dust accumulated in the corrugated tube is easily and quickly evacuated without requiring a change of a constituent part of the transfer line, as is the case with the filters.

Other characteristics and advantages of the present invention will emerge from the following description of embodiments, given by way of illustration but in no way limiting, made in relation to the appended drawings, in which
- Figure 1 is a schematic view of a steel arc furnace production installation comprising a smoke analysis device according to the invention; and
- Figure 2 is a schematic view, in longitudinal section, of an embodiment of a corrugated tube according to the invention.

 FIG. 1 shows an electric arc furnace 1, the roof 2 of which carries electrodes 3 and is connected to a pipe 4 for discharging the fumes. The oven 1 comprises for example at least one oxy-fuel burner 5 and at least one lance 6 for injecting oxygen or a highly oxygenated gas.

 The device for analyzing the fumes discharged through the conduit 4 comprises a cane 7 for withdrawing the fumes extending in the conduit 4 and connected, by a gas transfer line 8, to at least one system 9 for analyzing the carbon monoxide and / or hydrogen content in the fumes. Line 8 comprises, in its downstream part, at least one desiccation and / or dedusting device 10 and a pump 11 for sucking smoke from the cane 7 which may be of the type described in European patent application 92.400051.6 above, the content of which is assumed to be incorporated here for reference.

 The analysis system 9 provides measurement signals to a central control unit 12 controlling in particular a solenoid valve 13 interposed in a conduit connecting the lance 6 to an oxygen source 14 to modulate the quantities of oxygen injected into the furnace 1 as a function of the combustion characteristics measured by the analysis system 9.

 According to the invention, the line 8 comprises an upstream end portion 15 made of stainless steel extending from the rod 7, and connected, by a quick coupling 16, to the end of a section of corrugated tube 17 whose l he downstream end is connected by a fitting 18 to the downstream part of the line 8, made for example of copper. Downstream of the fitting 18 and upstream of a stop valve 19 in the line 8, there opens into this line 8 a line 20 for introducing a compressed gas, typically air, via a stop valve 21.

 As best seen in Figure 2, the section 17 consists of a flexible stainless steel tube 22 advantageously sheathed with a metal braid 23 ensuring its elasticity and its resistance to pressure. The tube 22 has corrugations 24 forming, in the embodiment shown, cells with a substantially circular section and, for a line 8 with a nominal diameter of 20 mm, has an internal diameter D of 15 mm, with a pitch d corrugation 1 of 3.3 mm and a corrugation height h of 2 mm. The section 17 has a length greater than 1 m, typically about 2 m. By "corrugated tube" in the sense of the present invention, is meant a tube comprising corrugations forming not only circular cells, as shown in FIG. 2, but also any type of cells, with triangular, square or trapezoidal profile. Depending on the applications, the internal diameter D is typically between 6 and 100 mm, the ratio / h between 0.2 and 3 and the ratio D / 1 between 0.5 and 10. In use, and due to the turbulence created in the section 17, the dust carried by the sampled gas is deposited, as shown in 25, in the cells 24 which thus retain a substantial part of the sampled dust which therefore does not reach the downstream part of the transfer line. The section 17 is advantageously oriented substantially horizontally or with a slight slope, the connector 16 then being lower than the connector 18.

 According to one aspect of the invention, regularly, after a determined usage time, during a rest phase of the installation, the valve 19 is closed and the valve 21 is opened to sweep the section 17 against the current. by the compressed gas in the line 20 to evacuate the dust 25 accumulated in the cells 24, after having advantageously disconnected the quick connector 16 to release the upstream end of the section 17 of the section 15,. To facilitate this evacuation, simultaneously with the passage of the exhaust gas stream, the flexible section 17 is printed with periodic jerks, for example by tilting the section 17 downwards. After cleaning, the section 17 is again connected to the section 15 for other sampling and analysis phases.

 Although the present invention has been described in relation to particular embodiments, it is not thereby limited, but is on the contrary subject to modifications and variants which will appear to those skilled in the art.

Claims (9)

 1. Smoke analysis device comprising at least one gas analysis system (9), and a gas transfer line (8) between the rod (7) and the analysis system (9), characterized in that the transfer line (8) comprises at least one upstream section (17) consisting of a metal tube (22) having corrugations (24).  2. Device according to claim 1, characterized in that the corrugated tube (22) is flexible.  3. Device according to claim 1 or claim 2, characterized in that the pitch (1) of the corrugations (24) relative to the height (h) of the corrugations is such that i / h is between 0.2 and 3.  4. Device according to one of the preceding claims, characterized in that the length of the corrugated tube (22) is greater than 1 m.  5. Device according to one of claims 2 to 4, characterized in that the corrugated tube (22) is arranged substantially horizontally in the transfer line (8).  6. Device according to one of claims 2 to 5, characterized in that the transfer line (8) comprises, downstream of the corrugated tube (22), a means (20, 21) for introduction against the current d '' a stream of exhaust gas.  7. Device according to claim 6, characterized in that it comprises a means (16) of removable connection between the upstream end of the corrugated tube (22) and the upstream portion (15) of the transfer line (8).  8. Method for implementing a device according to claim 6 or claim 7, characterized in that, after a determined period of use, the connection means (16) are disconnected, the upstream end of the corrugated tube (22) of the upstream part (15) of the transfer line (8) and the exhaust gas is passed through the corrugated tube.  9. Method according to claim 8, characterized in that the flexible corrugated tube (22) is agitated during the passage of the exhaust gas.