RU2740329C1 - Method of repairing potentially hazardous pipeline section - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.

SUBSTANCE: invention relates to operation of main gas pipelines (MG), in particular, to operation of potentially hazardous areas (PHA) with high, non-normative level of stress-strain state (SSS). Method of PHA repair consists in evaluation of its SSS when, at opened section, it is cut at design point with minimum bending radius, by means of geodesics measuring by means of geodesies of deviation angles of cut ends of pipeline, determining arisen crosshairs, wherein axle crosshair angle is assigned by angle of cold bend discharge and symmetric cold gas discharge baffle is made to ensure normative bending stresses of repaired section. According to the method, the SSS estimation is carried out based on the geodetic positioning data, which is carried out on the exposed section, by measuring at least every 2 m, by mathematical processing of results, essence of which in expression of data of geodetic positioning through polynomials, geometrical calculation of radiuses of bend through every 3 points, along entire length of opened section, determining point with minimum radius of bend. At that, if normative requirement is not provided on radiuses of bending more than 1000D in jaws, then section opening is continued, with repeated geodetic positioning not less than in 2 m, and mathematical processing, to point, where bending radius in clamping is 1000D and more, with repeated determination of point with minimum bend radius, where cutting is performed with subsequent repair. In the opened section, which is limited at least on one side by the cold bending tapped opening is performed to it, considering it as the jamming boundary, with repeated determination of design, minimum radius of bending, where the cut is performed with subsequent repair.

EFFECT: object of the invention is to develop a method of repairing the MG PHA in which the geodetic positioning is used to define a cross-section with a minimum bending radius, in which cutting is performed, with provision of standard stresses of the adjacent section.

1 cl, 1 tbl, 5 dwg

Description

The invention relates to the operation of main pipelines (MT), in particular, to the operation of potentially hazardous areas (FOC) with an increased, non-standard level of stress-strain state (VAT).

The intersection of the section of the overhead crossing (LP) of the MG with an obstacle, for example, with a ravine, is considered as a FOC, while, approximately in the center, a concave section with a non-standard radius of elastic bending is formed (SP 86.13330.2012 "Code of rules. Trunk pipelines [1]), according to to which this radius should not be less than 1000D, i.e. such a site is potentially hazardous (POC). According to (SP 36.13330.2012 "Code of rules. Main pipelines SP [2]) bending stresses are determined by the formula:

where: E - modulus of elasticity of pipe steel, MPa;

D - pipeline diameter, m;

ρ is the radius of elastic bending of the section, m.

From formula (1) it follows that the smaller the elastic bending radius, the higher the bending stresses. According to [1], the radii of elastic bending less than 1000D are abnormal. Thus, if the section is straight, the bending radius is infinity, and the bending stresses become zero.

There is a known method of repairing a section of main gas pipelines (MG) with a defective circumferential weld (Guidance document on the technology of pipe welding during repair and restoration work on gas pipelines: RD 558-98: approved by BV Budzulyak, Board Member of RAO Gazprom, 25.02. 1997: put into effect from 25.02.1997. - Moscow: Gazprom, VNIIGAZ, 1997. - 231 p. [3]) at the MGP with a VAT level above the permissible (normative) according to [2], which consists in the exemption of the MG site from gas, opening the gas pipeline and replacing the section with a defective circular weld.

The disadvantage of this method is that a non-standard level of VAT may persist in the repaired section (it is known that high VAT can cause the occurrence and development of a defect, for example, a circular weld or destroy a pipeline, bypassing the stage of occurrence and development of a defect (Chuchkalov M.V. stress corrosion cracking (MV Chuchkalov, PM Askarov // Gas Industry. - 2014. - No. 3 (703). - pp. 37-39 [4]), including due to an incorrectly chosen cut location.

The prototype is a method for repairing a potentially hazardous section of a gas pipeline with a VAT level higher than the allowable one (Pat. No. 2686133 RF. A method for repairing a potentially hazardous section of a gas pipeline. PM Askarov et al., Published on April 24, 2019, Bul. No. 12 [5]), which consists in assessment of its stress-strain state with subsequent repair, in which by means of in-line diagnostics (IDT) they determine the design point with a minimum bend radius at the overhead crossing, cut the overhead passage at the design point, measure the angles of deviation of the cut ends of the pipeline by means of geodesy, determining the resulting crosshair axes, while the angle of the crosshair of the axes is set as the angle of cold bending retraction and a symmetrical tie-in of the cold bending bend is carried out, while ensuring the normative bending stresses of the overhead passage of the main gas pipeline, without oblique joints.

The disadvantage of this method is that the place of the cut is assigned according to VTD data. Meanwhile, VTD at MG is carried out in a planned manner once in the interval from 2 to 10 years. In addition, more than half of the main gas pipelines are not equipped with the possibility of conducting high-temperature inspection, and the situation is approximately the same on the main oil pipelines. On the linear part in pipeline transport, geodetic positioning (GP) is a generally accepted method used in assessing the stress-strain state (SDS) of the surveyed area (Instructions for determining the actual stress-strain state according to geodetic survey data of gas pipeline sections located in areas with hazardous geodynamic processes, and assessment of their performance: approved by the General Director of OOO VNIIGAZ. - M., 2003. - 37 p. [6]).

The aim of the invention is to develop a method for repairing a MG fender, in which a section with a minimum bending radius is determined by means of geodetic positioning, in which the cutting is performed, while ensuring the standard stresses of the adjacent area.

The technical result is achieved by the fact that in the method of repairing a potentially hazardous section of a pipeline with an abnormal bend radius, which consists in assessing its stress-strain state, when a cut is made in the opened section at a design point with a minimum bend radius, the angles of deviation of the cut ends of the pipeline are measured by means of geodesy. determining the arising crosshair of the axes, while the angle of the crosshair of the axes is set as the angle of cold bending retraction and a symmetrical tie-in of the cold bending retraction is carried out, ensuring the normative bending stresses of the repaired section, in accordance with the invention, the stress-strain state is assessed according to geodetic positioning data, which is carried out on the opened a section, measured at least every 2 m, carry out mathematical processing of the results, the essence of which is in the expression of geodetic positioning data through polynomials, bend radii are calculated every 3 points, according to the entire length of the exposed area, determining the point with the minimum bending radius; at the same time, if the normative requirement for bending radii of more than 1000D in pinches is not provided, then the opening of the section is continued, with repeated geodetic positioning at least after 2 m, and mathematical processing, to the point where the bending radius in pinching is 1000D and more, with repeated determination of the calculated, minimum bend radius, where the cut is carried out with subsequent repair.

In the particular case of the implementation of the repair method, in the opened section, limited at least on one side by the cold bending bend, the opening is carried out before it, considering it as the pinching boundary, with the repeated determination of the calculated, minimum bend radius, where the cut is carried out with subsequent repair.

In the proposed method, geodetic positioning is carried out in the exposed section, with abnormal bending stresses, for example, not less than 2 m (coordinate x-linear, y-height), the data obtained (x, y) are expressed in terms of polynomials, according to [6] ... According to (Pogorelov A.V. Geometry, grades 7-9: textbook for general education organizations / - 2nd edition - M .: Education, - 240 p.) Through 3 points that do not lie on a straight line, you can draw the radius of a circle.

Let's calculate the bending radius R by linear-height coordinates, by 3 points according to formulas (2-6), reduced to engineering form:

where the P value is calculated by the formula:

The values of the coefficients a , b, c are calculated using the following formulas:

Linear-height coordinates according to geodetic positioning data and calculation results using formulas (2-6), calculate the value of the bend radius along the entire length of the exposed section, including pinching points, for convenience, are tabulated, among them a point with a minimum bend radius is determined, in which will be the maximum bending stresses according to formula (1). If in pinching at the ends of the section, the requirement for a bend radius of 1000D and more is met [1], FIG. 1, then according to the prototype [5] repair, cut the exposed section at the design point, measure the angles of deflection of the cut ends of the pipeline by means of geodesy, determining the resulting crosshair of the axes, while the angle of the crosshair of the axes is assigned as the angle of cold bending retraction and a symmetrical cut-in of cold bending bend is carried out, while ensuring the normative bending stresses of the overhead crossing, pipeline, without oblique joints.

If, according to the results of the calculation, areas with abnormal stresses (ρ = 1000D or less) are found in pinches, for example, on at least one side, then the opening of the site continues, with geodetic measurements every 2 m and calculation for compliance with ρ = 1000D and more. And so on until the definition of the point (section) in pinching with the standard bending radius (Fig. 2) and re-determining the point with the minimum bending radius. Further repair according to [5].

In practice, sections with abnormal bending stresses are most often found at intersections with obstacles, for example, ravines, while the edges of ravines are often performed using cold bending curves (CCB), at least on one side, Fig. 3. In this case, the opening of the section is carried out before OHG, which according to (Askarov, R.M. Features of calculating the longitudinal stresses of the main gas pipeline based on the data of in-line diagnostics / R.M. Askarov [and others] // Transport and storage of oil products and hydrocarbons. - 2018. - No. 3 - P. 37-44 [6]) have a compensating and pinching effect, there will be a pinching boundary, with the repeated determination of the calculated, minimum bending radius, where the cut is carried out with subsequent repair.

FIG. 1 shows an exposed section with a length of L _openings , ρ - with a non- _standard bend radius, in which it is necessary to determine ρ _{min by} means of geodesy, in Fig. 2 shows the same section with an open length up to the calculated L ¹ _opening according to the criterion of the bending radius ρ = 1000D and more in pinches, in Fig. 3 shows the same section with an exposed length up to the calculated L ^{1 1} _open-cut through the CBO, Fig. 4 is a graph of the geodetic positioning data of a section of an MG with a diameter of 1420 mm (example), FIG. 5 shows the graph of Fig. 3 processed in accordance with [6]. 5. In the same place the equation in the form of a polynomial of the 4th degree.

FIG. 1 the following designations are accepted: pipeline pos. 1, pinching pos. 2, the exposed section, the length of the _opening L, ρ is the non- _standard bending radius. FIG. 2 shows the same section, opened before the calculated L ¹ _opening along bending radii ρ = 1000D and more in pinches and separation ρ _min . FIG. 3 shows the same section, opened up to the calculated L ^{1 1} _opening , pos. 3 - OHG in pinches.

The alleged invention was tested at OOO Gazprom transgaz Ufa.

FIG. 4, as an example, a graph of the results of geodetic positioning of a section of an MG with a diameter of 1420 mm is given. The graph shows that the site has a height difference of about 1.8 m with a length of about 30 m.

The table provides a summary of geodetic positioning data (columns 2 and 3), in columns 4-7 the calculated data using formulas (2-6), in column 8 the calculated bending radii.

It can be seen from the table that the minimum radius is 341.4 m at 6 point on x = 10 m column 8. In this case, there are CBOs along the edges of the site, so the site was not opened further. After cutting in the region of point 6 and inserting the CBO with an angle of 6 °, the bending radius of the section became more than 1000D.

Claims (2)

1. A method for repairing a potentially hazardous section of a pipeline with an abnormal bend radius, which consists in assessing its stress-strain state, when a cut is made in the exposed section at a design point with a minimum bend radius, measured by means of geodesy of the angles of deviation of the cut ends of the pipeline, determining the resulting crosshairs, in this case, the angle of the crosshair of the axes is set as the angle of cold bending retraction and a symmetric cut-in of the cold bending bend is carried out, with the provision of standard bending stresses of the repaired section, characterized in that the stress-strain state is assessed according to geodetic positioning data, which is carried out on the opened section, by measuring at least than every 2 m, mathematical processing of the results is carried out, the essence of which is in the expression of geodetic positioning data through polynomials, bending radii are calculated every 3 points, along the entire length of the exposed area, determining the point ku with a minimum bend radius; at the same time, if the normative requirement for bending radii of more than 1000D in pinches is not provided, then the opening of the section is continued, with repeated geodetic positioning at least after 2 m, and mathematical processing, to the point where the bending radius in pinching is 1000D and more, with repeated determination of the calculated, minimum bend radius, where the cut is carried out with subsequent repair. 2. A method for repairing a potentially dangerous section of a pipeline according to claim 1, characterized in that in the opened section, limited at least on one side by the cold bend bend, the opening is carried out before it, considering it as the pinching boundary, with the repeated determination of the calculated minimum bending radius, where the cut is carried out with subsequent repair.

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