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Steel Recycling : Reinvented

Steel Recycling : Reinvented. Billy Delgiorno Tyler Snouffer Tom Hammond Nashed Ahmed. Table of Contents. Introduction Specifications Brainstorming Selection Description Conclusion. Introduction. Problem: reduce the amount of off-chemistry heats produced due to recycling steel.

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Steel Recycling : Reinvented

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  1. Steel Recycling : Reinvented Billy Delgiorno Tyler Snouffer Tom Hammond Nashed Ahmed

  2. Table of Contents • Introduction • Specifications • Brainstorming • Selection • Description • Conclusion

  3. Introduction • Problem: reduce the amount of off-chemistry heats produced due to recycling steel. • Inaccurate scrap steel composition coming from scrappers leads to off-chemistry heats. • Scrap steel is combined with iron ore to produce line pipe steel, which has a very specific composition of alloys. • Design a new process that prevents this issue, preferably before arriving at ArcelorMittal.

  4. Specifications • Reduction of off-chemistry heats • Predetermined scrap steel composition • Utilize current process • Increase efficiency • Ease of transportation

  5. Brainstorming • All steel will be stamped after production • XRF analysis of steel while at shredding facility • Composition sensor in BOF • Electronically stamped steel via microchip

  6. Selection Matrix

  7. X-Ray Fluorescence • XRF uses a type of wavelength spectroscopy in order to determine the composition of the steel. • High energy photons emitted into the steel displace electrons causing an energy jump. • Energy jump emits a fluorescence of certain wavelength that is measured by the XRF. • Most metals concentrations can be determined within 2% error.

  8. Implementing XRF • The steel arrives at the shredding facility. • Conveyor belt sorting system • XRF analysis • Data aggregated • Shipped to ArcelorMittal

  9. The Life of Steel

  10. Conclusion • Increases accuracy • Increases efficiency • Relatively inexpensive • Solution meets all objectives

  11. Questions?

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