SU1330484A1 - Method and arrangement for hydraulic test of a sectionalized pipeline - Google Patents

Abstract

The invention relates to the field of instrumentation technology. The purpose of the invention is to improve the accuracy and performance when testing a vertical pipeline (TP). The mounted TG1, equipped with a pump, is tested in sections, consisting of sections (C) 2 and 3, between them. Between C 2 and 3, a diaphragm (D) 4 with a branch pipe and radial channels 8 and 9 is installed, the transition between them is axial 10 and 11. Thus, a test area is formed from all C located below D 4. The first section is formed from the lower C, and each subsequent section is connected to the previous section C located directly above it. The test area is filled with water through the upper end of the partitioned TP. The water enters the C 2 lying over the test section, and passes through the channels 8 and 10, then through the TP and the channels 9 and 11 falls into the C 3. After filling C 3, the entire section is filled with water. Air escapes through the pipe in the TP and the valves. To seal the test section, the valves of the TP are closed. The pump creates the pressure required for the C 3 test. When testing a vertical TP, the overpressure for the test section is set equal to the overpressure for its upper C. 2 s. item f-ly, 2 ill. (L with so about 4 oo 4 srig1

Description

The invention relates to instrumentation engineering and can be used for hydraulic testing of large vertical pipelines (e.g. process pipelines in shafts).

The purpose of the invention is to improve the accuracy and performance when testing a vertical pipeline.

FIG. Figures 1 and 2 illustrate a device for carrying out a method for the hydraulic testing of a sectioned pipeline installed between two adjacent sections.

A device for carrying out the method of hydraulic testing a sectioned pipeline comprises a pump 1 and a diaphragm 4 installed between sections 2 and 3 of a pipeline (not shown) with a pipe 5 for connecting the pump 1 and a channel 6 connected to the pipe 5 to supply test pressure to the end face surface 7 of the diaphragm 4. In the diaphragm 4, additional radial channels 8 and 9 are made, passing into the axial channels 10 and 11, which exit to opposite end surfaces 7 and 12 of the diaphragm 4. Radial channels 8 and 9 connected by pipe 13 to valve 14 and pipe 15 to valve 16 for venting and for monitoring the filling of the pipeline. A valve 17 is installed between the pump 1 and the nozzle 5, and a pressure gauge 18 is installed at the nozzle 5 to control the pressure.

The method of hydraulic testing of a partitioned pipeline is carried out as follows.

Installing the diaphragm 4 between sections 2 and 3 of the pipeline form a test section (not shown) of all sections of the pipeline located below the diaphragm 4. The first section is formed from the lower section (not shown) of the pipeline, and each subsequent section is connected to the previous section of the section located directly above it (for example, section 3). The test area is filled in; through the upper end (not shown) of the pipeline. At the same time, water enters section 2, lies over the test area, passes through channels 10 and 8, then through pipeline 13, channels 9 and 11, and enters section 3. After filling section 3, the entire section is filled because the sections below 3 were filled earlier during the testing of the previous sections. Through the pipe 15 and the valve 16 air is released, and the appearance of water there indicates the filling of section 3, and, consequently, of the entire test area with water. After that, close the valves 16 and 14, sealing the test area. Then, the pump 1 creates the pressure required for testing the upper section 3 of the test section, which is controlled by a pressure gauge 18.

When testing a vertical pipeline, the required overpressure for

The test area is set equal to the required excess pressure for its upper section with a completely filled pipeline (usually Rice 1.25 P, where RISP is the test pressure, and P is the working pressure of the fluid in the upper section). When testing the pipeline, its entire sections are subjected to unreasonably high test pressure, which either makes the walls of the upper sections more solid, or you can take an underestimated test pressure. At the same time, routine testing with areas is difficult, since water can only be supplied from the surface through a pipeline, and the diaphragm cannot be removed without water leakage if the section above it is filled with water.

In the proposed method, E.odo at the expense of the device of the diaphragm can be fed from above through the pipeline, and the diaphragm is removed when the liquid in the pipeline goes 5 just below it, which prevents water from flowing out. Each section is tested repeatedly in the composition of each successive test area as the sections are built up from the top and only once when this section is the most

0 top in the test area, it is tested with the full overpressure required for this section. Then the loads are removed from it.

Claims (2)

1. The hydraulic testing method of a sectioned pipeline, which consists in testing the installed pipeline with sections consisting of one or several sections, filling the section with water, sealing it and creating the necessary pressure for this section, characterized in that the purpose of increasing accuracy and productivity when testing a vertical pipeline, the first test section is formed from the lower section, and each subsequent section is connected to the previous section of the section located o.zhennoy directly above it, while the overpressure for the test portion usta50 navlivayut equal necessary overpressure for its upper section and filled with water is carried out portion at the upper end of the pipeline. 2. A device for hydraulic testing of a sectioned pipeline, comprising a pump and a diaphragm installed between pipeline sections with nozzles for connecting the pump and a channel connected to the nozzle for supplying a test pressure to the end surface of the diaphragm, characterized in that increase the accuracy and performance when testing the vertical pipeline, in the diaphragm, two additional radial channels are made, passing into the axial channels facing the opposite end surfaces of the diaphragm, the ends of radial channels connected with the conduit valve. /four Editor A. Revin Order 3573/43 VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk mab., 4/5 Production and Printing Enterprise, Uzhgorod, ul. Project, 4 srig.2 Compiled by Yu. / 1ysenko Tehred I. Veres Circulation 776 Proofreader A. T sko Subscription