Abstract

The NOx conversion efficiency of a combined selective catalytic reduction and ammonia slip catalyst (SCR-ASC) in a diesel aftertreatment (AT) system degrades with time. A novel model-informed data-driven on-board diagnostic (OBD) binary classification strategy is proposed in this paper to distinguish an end of useful life (EUL) SCR-ASC catalyst from degreened (DG) ones. An optimized, supervised machine learning model was used for the classification with a calibrated single-cell three-state continuous stirred tank reactor (CSTR) observer used for state estimation. Percentage of samples classified as EUL (%EUL), with respect to classification boundary of 50%, was used as an objective criterion of classification. The method resulted in 87.5% classification accuracy when tested on eight day-files from four trucks (2 day-files per truck; 1 DG and 1 EUL) operating in real-world on-road conditions. Each day-file had ∼86,000 samples of data. Mileage of the same truck was used as ground truth for classification. However, mileage across different trucks cannot be used for classification since the operating conditions would vary across trucks.

Issue Section:
Research Papers
Keywords:
diesel aftertreatment system, on-board diagnostics, SCR aging, observer design, applied machine learning, automotive systems, supervised learning, classification and regression
Topics:
Catalysts, Filters, Nitrogen oxides, Trucks, Diesel, Machine learning, Selective catalytic reduction, Diesel engines, Filtration, Temperature, Roads

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