RU2014110686A - METHOD FOR MONITORING THE POSITION OF SUPPLIES OF THE GROUND PIPELINES UNDER PERMANENT FROZEN CONDITIONS - Google Patents

Abstract

1. A method of monitoring the position of pipelines of elevated laying in permafrost conditions, characterized in that it includes the installation of deformation grades on the foundation pile piles of the pipeline support at a distance of not less than 0.5 m from the earth's surface, the installation of underground deep benchmarks that are placed at a distance of not more than 1 , 5 km from each other and not more than 50 m from the supports, the installation of reference stations along the pipeline at a distance of 20-40 km from each other, which are configured to receive and transmit information to the server; of deep depth benchmarks and reference stations determine their coordinates in the state network, the obtained coordinates are transferred using the key to local coordinates, which are transmitted to the server, after which, in the local coordinate system, they carry out a zero cycle of measuring coordinates of deformation marks relative to ground depth benchmarks, determine the coordinates of the marks the zero vertical and vertical position of the pipeline, the coordinates of the marks are also transmitted to the server, and based on the results of all measurements, a design digital model of the pipeline is built then, during the operation of the pipeline, they carry out control measurements of the coordinates of the deformation marks characterizing the current planned height position of the pipeline, while the control measurements are made using mobile GPS / GLONASS receivers, which ensure the receipt and transmission of measurement data to the server, build the current digital model of the pipeline, which is compared with the design digital model of the pipeline, and sections of the pipeline are determined on which the deviation of its current position from the design project

Claims (10)

1. A method of monitoring the position of pipelines of elevated laying in permafrost conditions, characterized in that it includes the installation of deformation marks on the foundation piles of the pipeline support at a distance of not less than 0.5 m from the surface of the earth, the installation of deep soil benchmarks, which are placed at a distance of not more than 1.5 km from each other and not more than 50 m from the supports, the installation of reference stations along the pipeline at a distance of 20-40 km from each other, which are configured to receive and transmit information to the server; when installing soil deep benchmarks and reference stations, their coordinates are determined in the state network, the obtained coordinates are transferred using the key to local coordinates, which are transmitted to the server, and then in the local coordinate system they carry out a zero cycle of measuring the coordinates of deformation marks relative to ground depth benchmarks, according to the coordinates stamps determine the zero planning and height position of the pipeline, the coordinates of the stamps are also transmitted to the server, and the design figures are built according to the results of all measurements A new pipeline model then, during the operation of the pipeline, control measurements of the coordinates of the deformation grades characterizing the current horizontal and vertical position of the pipeline are carried out, while control measurements are made using mobile GPS / GLONASS receivers, which provide receiving and transmitting measurement data to the server, build the current digital pipeline model, which is compared with the design digital model of the pipeline, and determine the sections of the pipeline on which the deviation of its current position from the design exceeds permissible values, while control measurements of the coordinates of deformation grades are carried out at least 1 time per month during the first year of operation of the pipeline and at least 2 times a year in the remaining operating period. 2. The method according to p. 1, characterized in that the measurement of the coordinates of the marks relative to the benchmarks in the local coordinate system, characterizing the zero planning and height position of the pipeline, is carried out by optical control devices and / or global positioning means. 3. The method according to p. 1, characterized in that as a mobile receiver using a device equipped with a GNSS receiver and wireless means for receiving and transmitting information to the server. 4. The method according to p. 1, characterized in that during the operation of the pipeline carry out control measurements of the coordinates of ground deep benchmarks, which are stored on the server and used when measuring the position of deformation marks by means of optical control devices, while control measurements of coordinates of ground deep benchmarks are not less than 1 time per month during the first year of operation of the pipeline and at least 2 times a year in the remaining operating period. 5. The method according to p. 1, characterized in that the deformation marks are made of rolled steel, for example a steel corner, pipe or reinforcement, with the formation of an acute angle, while the marks are attached to a metal grillage or head of the support pile in such a way that the apex of the acute angle is the top point of the deformation mark, the coordinates of which are determined during the operation of the pipeline. 6. The method according to p. 1, characterized in that the deformation mark is supplied to each pile of the foundation of the pipeline support. 7. The method according to p. 1, characterized in that the deep benchmark consists of a metal pipe, a bench head made of stainless steel with a polished spherical surface, and a concrete "anchor" installed in the well, while the benchmark is equipped with a protective casing of a metal pipe, filled with sandy non-porous soil. 8. The method according to p. 1, characterized in that each benchmark is set to a depth of not less than the depth of the border of the maximum seasonal thawing of soils increased by 1 m, in particular, to a depth of at least 11 m 9. The method according to p. 1, characterized in that on the pipeline on the compensators place the plan-height position sensors in the place of the maximum possible change in the position of the pipeline, information from the sensors is sent to the server. 10. The method according to p. 1, characterized in that the reference station includes multi-frequency navigation equipment consumer GLONASS or GLONASS / GPS phase mode; multi-frequency GLONASS or GLONASS / GPS geodetic GNSS antenna with systems for suppressing multipath and reflected signals, an eccentricity index of the phase center of not more than 2 mm, a device for fastening on a fixed object; a computer with a controller function to configure the equipment of a permanent reference station; software to perform the basic functions of a reference station; backup power supply (if necessary).