RU2064554C1 - Method for running pipeline through sagging and swelling soils - Google Patents

Abstract

FIELD: civil engineering, main gas pipeline construction under conditions of northern flooded tundra and bags, in particular in sagging and swelling soils. SUBSTANCE: water-repellent anti-swelling solution, for example, dietilenglicol, is injected prior to pipeline installation into the area of support location. Compensating members, for example, screw jacks are placed between the support and pipeline. EFFECT: higher reliability. 3 cl, 1 dwg

Description

 The invention relates to the field of construction of technological pipelines in the territory of deep seasonal freezing and widespread development of permafrost soils.

 In the process of construction and operation of technological pipelines using buried foundations / piles / in the zone of deep seasonal freezing, the heaving of these supports occurs, which in turn leads to focal stresses in the pipeline body and reduces its operational reliability.

 The closest technical solution, selected as a prototype, is a method of laying a pipeline comprising filling pillows through certain flight distances, laying reinforced concrete slabs and placing a pipeline on them (SU, ed. St. 605055, F 16 L 1/00, 1976).

 The disadvantage of this technical solution is its low reliability due to the fact that it does not exclude the occurrence of heaving processes of the soil of the trench base and cement-cement support massifs when the product passes through the pipeline with a negative temperature. With deep seasonal freezing, the entire trench filled with a cement-cement mass, including the pipeline, will be subject to both normal and tangential shear forces, as a result of which, subject to lithological heterogeneity of the base soils, sections with increased stresses in the pipeline body will arise.

 The problem solved by the invention is to increase the reliability of operation of technological pipelines.

 The problem is solved in that in the known method of laying a pipeline in subsidence and heaving soils, which includes filling pillows through certain flight distances, laying reinforced concrete slabs and placing pipelines on them, unlike the prototype, pillows are crushed from crushed stone, and placed between reinforced concrete slabs and the pipeline compensating elements in this case, the soil sections on which the pillows are poured, are treated with an antifouling solution.

 In addition, diethylene glycol is used as an anti-caking solution, and jacks are used as compensating elements.

 The invention is illustrated in the drawing. In the drawing, soil 1, on which a cushion of crushed stone 2 is placed, on which, in turn, a support 3 is mounted. Between support 3 and pipeline 4, support 5 is placed.

 The proposed method of laying the pipeline is implemented as follows.

 A previously prepared and planned base from natural soil is treated with a well-known anti-porous solution such as diethylene glycol.

 Then, pillows are poured from crushed stone to install supports from reinforced concrete blocks 1.2x1.2x0.6 m in size on which a pipeline with a diameter of 426-700 mm is laid. In order to compensate for alternating movements of the pipeline during operation, it is necessary to install compensating elements between the pipeline and the support pad. As these elements are jacks, etc.

 The method allows to reduce construction time, increase operational reliability, eliminate the process of residual heaving of foundations for pipelines and simplify the construction of foundation foundations.

Claims (3)

 1. The method of laying the pipeline in subsidence and heaving soils, including the filling of pillows over certain flight distances, laying reinforced concrete slabs and placing a pipeline on them, characterized in that the pillows are poured from crushed stone, and compensating elements are placed between the reinforced concrete slabs and the pipeline, while the soil on which the pillows are poured is treated with an anti-porous solution.  2. The method according to claim 1, characterized in that diethylene glycol is used as an anti-porous solution.  3. The method according to claim 1, characterized in that the jacks are used as compensating elements.