Abstract
The pipe isolation tool demonstrates remarkable advantages in safety and efficiency compared with traditional plugging devices. However, its utilization in plugging operations is limited by demand of operation duration and precise velocity trajectory. In this article, a pipe isolation tool control system is designed for energy-saving and plugging part’s velocity tracking of the pipe isolation tool. To achieve energy recovery and velocity-tracking control, a flywheel and an accumulator are used for energy transformation and storage. A fuzzy proportional integral derivative controller is proposed to improve the ability of the desired velocity trajectory. The proposed control strategy, compared with the conventional pipe isolation tool drive system, is more energy efficient and has more internally stable dynamics on the closed-loop system. The results verify that both energy-saving and velocity-tracking objectives are satisfied for the electrohydraulic control system of the pipe isolation tool.
Highlights
The pipeline transportation, considered as the best and safest way, has been widely used in long-distance transport of oil and gas productions.[1]
The results show that control strategy has succeeded in realizing velocity tracking
The energy-saving and velocity-tracking control system is designed in a way to add an energy recovery device consisting of a hydraulic motor, an accumulator, a fuzzy PID controller and a flywheel based on a conventional pipe isolation tool (PIT)
Summary
The pipeline transportation, considered as the best and safest way, has been widely used in long-distance transport of oil and gas productions.[1]. An electrohydraulic control system is designed to achieve energy-saving and velocity-tracking of the PIT. The energy-saving and velocity-tracking control system is designed in a way to add an energy recovery device consisting of a hydraulic motor, an accumulator, a fuzzy PID controller and a flywheel based on a conventional PIT. Velocity control system with energy saving of PIT
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