EMAT Guided Wave Technology for Inline Inspections of Unpiggable Natural Gas
| 项目名称: | EMAT Guided Wave Technology for Inline Inspections of Unpiggable Natural Gas |
| 摘要: | The CIRRIS XI robot has made great strides in overcoming major challenges associated with internal assessment of cast iron pipelines. Most importantly the CIRRIS XI robot can measure wall thickness and stress and detect defects while providing significant improvements in accuracy and resolution using an Electro Magnetic Acoustic Transducer (EMAT) normal beam sensor. Another promising type of EMAT technology is "EMAT guided wave" which has yet to be introduced for robotic inline inspection. It is more complex than normal beam EMAT but the use of EMAT guided wave on robots for inline inspection would advance inspection in leaps and bounds by providing 100% coverage. This would increase the confidence of detecting threats without affecting the time and speed of inspections. To this end, this project, co-funded by Pipeline and Hazardous Materials Safety Administration (PHMSA), focuses on using the CIRRIS XI robot as a baseline for developing a 100% inspection robot using an EMAT guided wave sensor. The first task of the project will be the evaluation of the performance of the EMAT guided wave sensor for inspection of cast iron and steel transmission and distribution mains. Sensor performance will be evaluated using various plate and pipe sizes, sensor configurations, wave modes and scan speed. The second task will involve the assessment of the ability to detect and classify defects and flaws using feature extraction through post processing. Following this a lab demonstration of the sensor technology will be provided to PHMSA and industry participants. The third task will focus on evaluating the existing robot design and performing an initial conceptual design to incorporate the EMAT guided wave sensor and electronics into the CIRRIS XI robot. The initial application for the robot would be in distribution mains. Future enhancements to the sensor and robot would also make it possible to operate the robot in transmission mains. |
| 状态: | Active |
| 资助组织: | Pipeline and Hazardous Materials Safety Administration |
| 执行机构: | ULC Robotics |
| 开始时间: | 20160930 |
| 预计完成日期: | 20180930 |
| 实际结束时间: | 20180930 |
相关文献
- EMAT Sensor for Small Diameter and Unpiggable Pipes; Prototype and Testing
- Development, Field Testing and Commercialization of a Crack and Mechanical Damage Sensor for Unpiggable Natural Gas Transmission Pipelines
- Improving Magnetic Flux Leakage In-Line Inspection Corrosion Sizing Using Phased Array Guided Ultrasonic Waves
- Development of an AMR Eddy Current-Based Crack Detection Sensor for the Live Inspection of UnPiggable Natural Gas Transmission Pipelines
- Long Term Monitoring of Cased Pipelines Using Long-Range Guided-Wave Technique
- LNG Bunkering for Marine Vessels @ the Port of New Orleans: Siting and Facility Components
检索历史
应用推荐
