Electromagnetic ultrasonic is a new type of non-destructive testing technology with the advantages of high efficiency, high reliability, and no pollution. It has been widely used in the petroleum and petrochemical fields in recent years.
1.Pipeline inspection
Traditional pipeline detection methods require production to be stopped, which affects production for a long time. Electromagnetic ultrasonic detection can be carried out quickly inside the pipeline without affecting production, and improves detection efficiency and accuracy.
2.Oil well inspection
Electromagnetic ultrasonic can detect inside the oil well and accurately analyze the porosity, permeability and other information of the oil well, especially playing an important role in oil well repair.
3.Seismic exploration
Electromagnetic ultrasonic can measure the tiny displacement and strain of rocks, thereby realizing seismic exploration and developing new technical means for petroleum and petrochemical exploration.
4.Pressure vessel inspection
Pressure vessels often used in the petroleum and petrochemical industry are prone to safety hazards such as fatigue fracture after repeated use and heavy loads. Electromagnetic ultrasound can conduct integrity testing on the interior of pressure vessels to ensure safety and reliability.
5.Quality control
Electromagnetic ultrasound can perform quality control on petroleum and petrochemical products, such as measuring pipe wall thickness, oil well depth and other parameters to ensure stable product quality and improve production efficiency.
6.Environmental protection
The petroleum and petrochemical industry often produces wastewater, waste gas and other pollutants. Electromagnetic ultrasound can use non-destructive testing technology to accurately determine whether pipelines are leaking gas or leaking water, and take timely measures to protect the environment and contribute to the sustainable development of enterprises.
Electromagnetic ultrasonic thickness gauges have broad application prospects in the petroleum and petrochemical fields. With the continuous innovation of technology, it is believed that more application scenarios will emerge, bringing more new opportunities and challenges to the efficient development of this field.
