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Design of a Bed Seal System for an Adsorber Vessel

Design of a Bed Seal System for an Adsorber Vessel. Amy Boyce JR Daversa Ben Gatto Jake Mattern Brian Smith. Introduction. Background Explanation of an adsorber vessel and adsorbent material Problem Discussion of material leakage issues Sources of leakage.

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Design of a Bed Seal System for an Adsorber Vessel

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  1. Design of a Bed Seal System for an Adsorber Vessel Amy Boyce JR Daversa Ben Gatto Jake Mattern Brian Smith

  2. Introduction • Background • Explanation of an adsorber vessel and adsorbent material • Problem • Discussion of material leakage issues • Sources of leakage

  3. The adsorber vessel and material • Air separation process • Role of adsorbent material • Temperature Swing Adsorption (20-170ºC)

  4. Material Leakage • What is happening? • Thermal expansion (0.14 inch difference) • Adsorbent material is slipping through seal • Why is this such a big problem? • Reduces efficiency • Requires periodic shutdown

  5. Sources of Leakage • Key locations • Wall-grate interface • Flange-grate interface • What causes the gaps? • Thermal cycling • Poor material choice (Brass wool) • Bending

  6. Our Design • Ways it addresses the problem • Key features

  7. Ways it addresses the problem • Bending eliminated in hold down ring • Seal optimized between bed support components • Travel paths of beads eliminated • Thermal expansion no longer contributes to leakage

  8. Key features • Banding of grate • Overlapping hold-down ring • Even mating surface between components • Change of sealant material: brass wool to PTFE

  9. Testing • Prototype description • Life-size model • Straight Section • Testing mechanism • Mechanical simulation • Crank-rocker (0.25 inch motion) • Will simulate 20 years at 6 cycles a day

  10. Off-Design Performance • Extra 0.1 inch of motion in the prototype • Demonstrates that a greater temperature swing would still work with this design

  11. Conclusions If successful: • New design will work not only for current process but for expanded temperature range • Leakage will be eliminated • Shut-down times will be eliminated due to downstream absorbent material

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