ILI Tool Calibration on In-ditch Measurement with Related Uncertainty (EC-4-2)

The pipeline industry is moving toward the implementation of reliability-based integrity management approaches, which account explicitly for the uncertainties associated with ILI data, material properties, and failure pressure modeling. The uncertainty associated with defect sizing has been shown to have a significant impact on reliability estimates and consequently the number of features requiring remediation, the re-inspection interval/frequency, and the number of digs needed to confirm the ILI tool performance. 

While some guidance is available to assist operators in accounting for in-ditch sizing error in the context of verifying whether or not ILI tool performance is consistent with vendor claims (e.g. API 1163 – Appendix E), no explicit guidance is currently available to assist operators in accounting for in-ditch sizing error when field dig data is to be used to update the claimed measurement error. The aim of this project is to address this deficiency by accomplishing the following objectives:

1. Develop process for either confirming adequacy of vendor claimed random error component, or recalibrating the random error component of ILI measurement uncertainty.
2. Develop process for examining errors associated with ILI predictions, and determine methods to correct for these errors, recognizing that lack of knowledge about the accuracy of in-ditch measurement will limit error correction.
3. Develop comments and recommendations on the number of confirmation measurements required to provide a statistically defensible basis for adjusting vendor claimed tool error.

The scope of this research was limited to external corrosion metal loss dimensions, specifically depth and length. Follow-on research (EC-4-3 & EC-4-5) will focus on assessing ILI tools’ sizing tolerances, understanding the relationship between the measurement error and the resultant predicted and actual burst pressures, and developing ways to work with the error.