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Innovations in Flame Tracking and Control at SDSU

This document outlines the Flame Tracker technology developed at SDSU, focusing on its operational mechanisms and integration with LabVIEW for enhanced control. It includes details on the unique stepper motor and controller communication through a software driver that replaces costly hardware solutions. The system features a user-friendly front panel with a velocity vs. time graph, enabling precise tracking of flame behavior. Key aspects such as the transformation control diagram, initial testing conditions, and repeatability measurements are discussed, demonstrating the advantages of this technology over traditional manual methods.

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Innovations in Flame Tracking and Control at SDSU

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Presentation Transcript

    1. The Flame Tracker @ SDSU

    2. Flame Controller Layout

    3. Flame Tracker: How It Works!

    4. Stepper Motor & Controller Serial Port communication Created software driver instead of expensive board

    5. Labview Control Program. Front panel with Velocity vs. Time graph Transformation equation parameters

    7. Software Driver Labview makes special driver board for stepper motor Designed software driver using serial port vis.

    8. Transform Control Diagram

    9. Hardware

    10. The Initial Test, AFP, Air, 0.16 mm Thick

    11. A stationary flame.

    12. Flame Tracker in Operation: Spreading Flame Converted to Stationary Flame

    13. Repeatability of the Spread Rate Measurement by the Flame Tracker

    14. Comparison with Manual Measurement

    15. Comparison with Manual Measurement

    16. Comparison with Manual Measurement

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