Abstract
Performance-based maintenance of machinery relies on detection and prediction of performance degradation. Degradation indicators calculated from process measurements need to be approximated with degradation models that smooth the variations in the measurements and give predictions of future values of the indicator. Existing models for performance degradation assume that the performance monotonically decreases with time. In consequence, the models yield suboptimal performance in performance-based maintenance as they do not take into account that performance degradation can reverse itself. For instance, deposits on the blades of a turbomachine can be self-cleaning in some conditions. In this study, a data-driven algorithm is proposed that detects if the performance degradation indicator is increasing or decreasing and adapts the model accordingly. A moving window approach is combined with adaptive regression analysis of operating data to predict the expected value of the performance degradation indicator and to quantify the uncertainty of predictions. The algorithm is tested on industrial performance degradation data from two independent offshore applications, and compared with four other approaches. The parameters of the algorithm are discussed and recommendations on the optimal choices are made. The algorithm proved to be portable and the results are promising for improving performance-based maintenance.
Highlights
Performance-based maintenance of industrial machinery relies on an assessment of the current condition of the machinery and on prognosis of future loss of performance [1,2]
Degradation indicators calculated from process measurements need to be approximated with degradation models that smooth the variations in the measurements and give predictions of future values of the indicator
A moving window approach is combined with adaptive regression analysis of operating data to predict the expected value of the performance degradation indicator and to quantify the uncertainty of predictions
Summary
Performance-based maintenance of industrial machinery relies on an assessment of the current condition of the machinery and on prognosis of future loss of performance [1,2]. The regression model can be used to extrapolate the smoothed value of the degradation indicator This will give a prediction of the future trend, which is useful for maintenance scheduling. This study proposes a data-driven algorithm for improved estimation and prediction of a degradation indicator for turbomachinery It combines a moving window approach with adaptive regression analysis to predict the expected value of degradation and quantify the uncertainty of the prediction. Tuning data set from offshore compressor Test data sets from offshore compressor Selected time windows Maintenance events Test data set from offshore turbine Adaptive Degradation Prediction, the proposed algorithm Mean value approximation Linear regression over varying window Linear regression over fixed window Exponential approximation with fixed starting point. To get an insight into the current degradation without performing an inspection, a degradation indicator is used
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