Experimental Investigation for Multi-Defect Detection of Industrial Pipeline Based on Passive Infrared Thermal Imaging Analysis: A Case Study

Corrosion of pipe walls is a major hidden hazard for the safety of chemical enterprises; therefore, detection of pipe wall corrosion defects is extremely important. In this study, passive thermal imaging technology was used to detect and evaluate corrosion defects of different shapes in pipe walls and of different depths for the same shape. Three-dimensional finite element models of defects with different depths were established using COMSOL, and the thermal response mechanisms of defects with different depths and the effects of defect depth and shape on heat transfer were analyzed by experiments. The results indicated that the level of fluid temperature determined the accuracy of the test, and at the same temperature, the defects at a depth of 3 mm exhibited multiple peaks and a large peak area. The heating rate of 3-mm deep defects during the temperature change was 1.08 times higher than that for 2 mm-deep defects.

Keywords: Pipe wall corrosion, Defect shape, Defect depth, Infrared thermal imaging nondestructive testing, Thermal response mechanism

Suggested Citation: Suggested Citation

Zhou, Gang and Jia, Xianchao and Li, Yuying and Liu, Yang and Yang, Siqi and Chen, Qiuyan and He, Min, Experimental Investigation for Multi-Defect Detection of Industrial Pipeline Based on Passive Infrared Thermal Imaging Analysis: A Case Study. Available at SSRN: https://ssrn.com/abstract=4206838 or http://dx.doi.org/10.2139/ssrn.4206838