Abstract
In the quest to achieve sustainable pipeline operations and improve pipeline safety, effective corrosion control and improved maintenance paradigms are required. For underground pipelines, external corrosion prevention mechanisms include either a pipeline coating or impressed current cathodic protection (ICCP). For extensive pipeline networks, time-based preventative maintenance of ICCP units can degrade the CP system’s integrity between maintenance intervals since it can result in an undetected loss of CP (forced corrosion) or excessive supply of CP (pipeline wrapping disbondment). A conformance evaluation determines the CP system effectiveness to the CP pipe potentials criteria in the NACE SP0169-2013 CP standard for steel pipelines (as per intervals specified in the 49 CFR Part 192 statute). This paper presents a predictive maintenance framework based on the core function of the ICCP system (i.e., regulating the CP pipe potential according to the NACE SP0169-2013 operating window). The framework includes modeling and predicting the ICCP unit and the downstream test post (TP) state using historical CP data and machine learning techniques (regression and classification). The results are discussed for ICCP units operating either at steady state or with stray currents. This paper also presents a method to estimate the downstream TP’s CP pipe potential based on the multiple linear regression coefficients for the supplying ICCP unit. A maintenance matrix is presented to remedy the defined ICCP unit states, and the maintenance time suggestion is evaluated using survival analysis, cycle times, and time-series trend analysis.
Highlights
Pipeline networks supply piped products to consumers that span over large geographic areas
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The predictive maintenance framework presented in this paper can predict the CP pipe potential or the CP pipe potential state and inform the required maintenance activity considering the risk and duration of an event
Summary
Pipeline networks supply piped products to consumers that span over large geographic areas. Typical products include bulk and domestic water, oil, and gas. Underground pipelines enable the transfer of these products between the source and destination [1]. Pipeline networks often run through residential and industrial areas and remote areas such as agricultural properties [2]. The Charleston Advisor estimated in 2013 that South Africa had a total installed pipeline network of 3869 km and was expected at that stage to increase with economic activity [3]. The extension of pipeline networks presents significant safety and financial risk due to the corrosion process that starts when a pipeline is buried in the ground [4]
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