18 April 2006 Thermographic identification of wetted insulation on pipelines in the arctic oilfields
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Proceedings Volume 6205, Thermosense XXVIII; 62051H (2006) https://doi.org/10.1117/12.669966
Event: Defense and Security Symposium, 2006, Orlando (Kissimmee), Florida, United States
Abstract
Steel pipes used at Alaskan oil-producing facilities to transport production crude, gas, and injection water between well house and drill site manifold building, and along cross-country lines to and from central processing facilities, must be insulated in order to protect against the severely cold temperatures that are common during the arctic winter. A problem inherent with this system is that the sealed joints between adjacent layers of the outer wrap will over time degrade and can allow water to breach the system and migrate into and through the insulation. The moisture can ultimately interact with the steel pipe and trigger external corrosion which, if left unchecked, can lead to pipe failure and spillage. A New Technology Evaluation Guideline prepared for ConocoPhillips Alaska, Inc. in 2001 is intended to guide the consideration of new technologies for pipeline inspection in a manner that is safer, faster, and more cost-effective than existing techniques. Infrared thermography (IRT) was identified as promising for identification of wetted insulation regions given that it offers the means to scan a large area quickly from a safe distance, and measure the temperature field associated with that area. However, it was also recognized that there are limiting factors associated with an IRT-based approach including instrument sensitivity, cost, portability, functionality in hostile (arctic) environments, and training required for proper interpretation of data. A methodology was developed and tested in the field that provides a technique to conduct large-scale screening for wetted regions along insulated pipelines. The results of predictive modeling analysis and testing demonstrate the feasibility under certain condition of identifying wetted insulation areas. The results of the study and recommendations for implementation are described.
© (2006) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Jonathan J. Miles, Jonathan J. Miles, A L. Dahlquist, A L. Dahlquist, L. C. Dash, L. C. Dash, } "Thermographic identification of wetted insulation on pipelines in the arctic oilfields", Proc. SPIE 6205, Thermosense XXVIII, 62051H (18 April 2006); doi: 10.1117/12.669966; https://doi.org/10.1117/12.669966
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