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    This study introduces a new model-based fault detection filter (FDF) for dynamic processes. The FDF improves safety and efficiency by accurately detecting faults using both boundary and in-domain measurements, avoiding false alarms during transient stages.

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    Area of Science:

    • Process control and automation
    • Dynamic systems analysis
    • Fault detection and diagnosis

    Background:

    • Distributed parameter processes (e.g., heat, fluid) require robust fault detection for safe operation.
    • Existing data-driven methods fail to capture process dynamics, limiting their use in transient conditions.
    • Current model-based methods lack redundancy by relying solely on boundary measurements.

    Purpose of the Study:

    • To develop a robust, model-based fault detection approach for distributed parameter processes.
    • To address limitations of existing methods by incorporating both boundary and in-domain measurements.
    • To enable real-time fault detection without extensive data collection or offline training.

    Main Methods:

    • A real-time fault detection filter (FDF) was designed based on a model-based perspective.
    • Theoretical analysis was conducted for parameter selection and threshold computation.
    • A time-varying threshold was implemented to prevent false alarms during transient phases.

    Main Results:

    • The proposed FDF effectively detects faults in distributed parameter processes.
    • The method eliminates the need for large datasets and offline training.
    • Successful application in a hot strip mill cooling system validated its industrial potential.

    Conclusions:

    • The developed fault detection filter offers a robust and efficient solution for dynamic industrial processes.
    • The approach enhances operational safety and efficiency by providing reliable fault detection.
    • The FDF demonstrates significant potential for real-world industrial applications, particularly in complex systems like cooling processes.