The application claims priority to Chinese patent application No. 202110928112.3 filed on Aug. 13, 2021, the entire contents of which are incorporated herein by reference.
The present invention relates to a dynamic test apparatus for marine riser in hang-off mode, in particular a linkage test apparatus for deepwater drilling riser and hang-off system.
Marine deepwater drilling riser system is the key equipment for offshore oil and gas exploration and development. When the environmental load exceeds the riser operation limit, the riser system and the blowout preventer are released into a hang-off mode. Risers in the hang-off mode is divided into a hard hang-off mode and a soft hang-off mode. In the hard hang-off mode, the top of risers is rigidly connected with a spider through an outer barrel of the telescopic joint, while the top of risers is connected with a platform through a tensioner in the soft hang-off mode. In the hard hang-off mode, the motion of the platform is directly transmitted to the top of the riser due to the rigid connection between the top of the riser and the platform. It may cause dynamic compression of the riser, resulting in local buckling instability of the riser. What's worse, the tension of risers at the top part may come to extreme, resulting in fracture of the riser. In the soft hang-off mode, the tensioner can compensate the heave motion of the platform and reduce the risk of dynamic compression or extreme tension of the riser. However, the operation of risers in the soft hang-off mode is cumbersome and difficult to implement in the face of severe sea conditions under typhoons.
In order to face with typhoon sea conditions, a hang-off system is proposed. Based on the proposed hang-off system, the coupling dynamic theory of risers and the hang-off system is analyzed to explore the performance and characteristics of the hang-off system. However, it cannot be proved whether the established theoretical dynamic model of risers and the hang-off system is accurate. It is necessary to carry out model validation analysis by experiment. However, full-scale laboratory test can hardly be carried out for the huge size of risers and the hang-off system in engineering. It is urgent to design a linkage test apparatus for deepwater drilling risers and the hang-off system. Then, coupling dynamic tests of risers and the hang-off system can be carried out, amending the theoretical dynamic model of risers and the hang-off system. Tests and the analysis of the theoretical dynamic model can guarantee the safe use of the hang-off system.
In response to the above-mentioned problems, the present invention provides a linkage test apparatus for deepwater drilling riser and hang-off system, wherein the test apparatus can simulate the dynamic coupling process of risers and the hang-off system realistically. The coupling dynamic response characteristics of risers and the hang-off system can be revealed.
The present invention is achieved by the following technical solution:
A linkage test apparatus for deepwater drilling riser and hang-off system, comprising a motion excitation system, a hang-off system and a riser system;
wherein the motion excitation system comprises a six-degree-of-freedom excitation platform for simulating the motion of a marine drilling platform, a displacement sensor and an acceleration sensor;
wherein the hang-off system is divided into a hydraulic cylinder actuating mechanism and a hydraulic system; the hydraulic cylinder actuator comprises a hydraulic cylinder, a spider, a guide fixing sleeve, a clamping block, a gland, a hang-off joint, a gimbal, a rotating flange, a displacement sensor and a strain gauge; the hydraulic system includes a trip valve, a throttle valve, a two-position three-way electromagnetic reversing valve, an relief valve, a check valve, a hydraulic pump, a filter, a PLC controller, an accumulator, an oil tank, a high-performance computer, and a pressure sensor; and wherein the hydraulic cylinder is composed of an inner cylinder and an outer cylinder and is fixed to the six-degree-of-freedom excitation platform by the spider, and the inner cylinder of the hydraulic cylinder is hollow; an upper part of the hang-off joint is provided with a fixing groove; a side surface of a lower part is planar and is provided with a light hole; the hang-off joint passes through the inner cylinder of the hydraulic cylinder unobstructed and it is fixed on a top of the inner cylinder of the hydraulic cylinder by the guide fixing sleeve and the clamping block; the lower part of the hang-off joint is connected to the rotating flange by the gimbal; the high-performance computer is provided with a built-in control and monitoring system for controlling and monitoring the motion excitation system, the hang-off system and the riser system; and the PLC controller is capable of recognizing signals from the high performance computer for real time controlling and monitoring of hydraulic elements;
wherein the riser system comprises riser test joints, a lower marine riser package model, a water environment, three component force sensors and acceleration sensors; many riser test joints are successively connected to form a riser system; the lower marine riser package model is suspended at a bottom of the riser system; the three component force sensors and the acceleration sensors are distributed at a certain interval in the riser system for monitoring dynamic response of the riser system; and the riser system is mostly contained in the water environment for simulating an actual marine environment.
Further, wherein the guide fixing sleeve is U-shaped, and the bottom thereof is provided with a through hole for passing through the hang-off joint; the clamping block is crescent-shaped, and two clamping blocks are combined into a circular ring and fit with the groove of the hang-off joint; an inner diameter of the guide fixing sleeve is the same as an outer diameter of the clamping block; a group of the strain gauges are arranged on the side surface of the hang-off joint, and the group of the strain gauges has two measuring points arranged at 90 degrees for monitoring strain information; the gimbal is composed of a gimbal base and a pin shaft; upper and lower parts of the gimbal base are both U-shaped, and opening directions of the gimbal base are opposite; the angle of a tangent plane is 90 degrees, and a side face is provided with a light hole; and the gimbal connects the lower part of the hang-off joint and the rotating flange so as to realize the rotation in space.
Further, wherein the hydraulic pump is connected to the oil tank, the check valve, the relief valve, and the accumulator via a hydraulic line, and provides a hydraulic power source for the accumulator; a rod cavity of the hydraulic cylinder is connected with a rodless cavity of the hydraulic cylinder, forming a differential circuit with the throttle valve connected; two circuits are formed via the two-position three-way electromagnetic reversing valve: a circuit combining the accumulator, the two-position three-way electromagnetic reversing valve, the throttle valve and the hydraulic cylinder for pushing the inner cylinder of the hydraulic cylinder to extend, and a circuit combining the hydraulic cylinder, the throttle valve, the two-position three-way electromagnetic reversing valve, the filter and the oil tank for pushing the inner cylinder of the hydraulic cylinder to retract; the trip valves are disposed at an outlet end of the hydraulic cylinder and an outlet end of the accumulator; the displacement sensor is used for monitoring the extension length of the inner cylinder of the hydraulic cylinder; the pressure sensors are used for monitoring the pressure of the accumulator, the pressure of the rodless cavity and the rod cavity of the hydraulic cylinder.
Futher, wherein the design basis of the riser test joint and the lower marine riser package model are both dynamic similarity principles; the dynamic parameters of the test model are obtained after engineering parameters are scaled down by the same proportion, and the dynamic equation is:
M{umlaut over (x)}+C{dot over (x)}+Kx=F
where M is the mass of the riser or lower marine riser package; C is the damping of the riser or lower marine riser package; K is the stiffness of the riser or lower marine riser package; F is the applied force on the riser or lower marine riser package; and x is the displacement of the riser or lower marine riser package.
Further, wherein the riser test joint is designed as multiple sections; a top part is provided with a flange, and a bottom part is provided with a threaded hole; the riser system is assembled through threaded connection, and the threaded connection between a top part of the riser system and the rotating flange is a bolt connection; the lower marine riser package model is composed of counterweight plates; a through hole is provided at the center of the counterweight plate; and a plurality of the counterweight plates are arranged and then connected together via a connecting rod; and an adapter flange is provided at a top of the lower marine riser package model and is connected to the riser system via a screw; and wherein the riser test joint and the lower marine riser package model have the features of easy assembly and disassembly and adjustable parameters.
Further, wherein signals of the displacement sensor, the acceleration sensor arranged in the motion excitation system, the three component force sensor, the acceleration sensor arranged in the riser system, the displacement sensor, the pressure sensor and the strain gauge arranged in the hang-off system are collected by a PLC controller; the throttle valve and the two-position three-way electromagnetic reversing valve are controlled by the PLC controller; the high-performance computer controls the six-degree-of-freedom excitation platform while enabling data reading and command issuing within the PLC controller.
With the above technical solution, the present invention has the following advantages: 1. based on the dynamic similarity principle, the scaled model of riser system is designed, which has the capability of data inversion, and the dynamic response characteristics of risers and the hang-off system in real ocean environment can be obtained; 2. based on various sensors, detailed experimental data of the risers and the hang-off system can be obtained by means of the combination of a PLC controller and a high-performance computer, and the theoretical model can be modified; 3. the linkage test apparatus for deepwater drilling riser and hang-off system is simple in structure, convenient in the assembly and disassembly, and allow the linkage test for a variety of riser system configurations and a variety of the hang-off system parameters; and 4. a six-degree-of-freedom excitation platform is used to provide motion, which is easy to operate and can carry out a variety of test conditions.
The present invention will now be further described with reference to the accompanying drawings and examples.
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The method of the present invention has advantageous effects of: a simple and reliable linkage test scheme for deepwater drilling riser and hang-off system is proposed. Based on the dynamic similarity principle, the riser system is designed to simulate the dynamic coupling process of risers and the hang-off system in real marine environment. The dynamic response law of risers and the hang-off system is revealed through data inversion, which provides technical support for the safe use of the hang-off system.
Number | Date | Country | Kind |
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202110928112.3 | Aug 2021 | CN | national |
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