Tray internals — bubble cap sizing: Select the most common standard bubble-cap size combination used in industrial trays (cap diameter with riser diameter).

Chemical Engineering Process Equipment and Plant Design Difficulty: Easy
Choose an option
  • A
    1″ cap with 0.5″ riser
  • B
    6″ cap with 4″ riser
  • C
    8″ cap with 1″ riser
  • D
    4″ cap with 8″ riser
  • E
    3″ cap with 2″ riser

Answer

Correct Answer: 6″ cap with 4″ riser

Explanation

Introduction / Context:Bubble-cap trays are legacy yet still-encountered distillation/absorption internals. Size standardization simplifies fabrication and performance prediction. Typical cap and riser diameters are chosen to balance pressure drop, capacity, and froth contact.

Given Data / Assumptions:

  • Industrial-scale column trays with moderate vapor/liquid loads.
  • Use of standardized caps and risers from historic catalogs.
  • Focus on “most common” rather than niche or miniature lab sizes.

Concept / Approach:A 6″ bubble cap with a 4″ riser is a widely referenced standard combination for production trays, offering adequate area and manageable pressure drop. Smaller sizes like 1″ with 0.5″ riser are laboratory or very light-duty; mismatched options (e.g., riser larger than cap) are impractical.

Step-by-Step Reasoning:

Select a size that suits typical tray spacing and active area.Ensure cap diameter > riser diameter to provide annular slots and vapor distribution.6″/4″ pairing satisfies these design heuristics for many services.

Verification / Alternative check:Classic tray design references list common caps in the 4–8″ range with risers about 2–4″, with 6″/4″ frequently cited as standard.

Why Other Options Are Wrong:

  • 1″/0.5″: too small for most industrial duties.
  • 8″/1″: disproportionate; would restrict vapor severely.
  • 4″ cap with 8″ riser: geometrically nonsensical.
  • 3″/2″: used in small duties but not “most common.”

Common Pitfalls:Assuming cap trays are universally optimal; modern designs often prefer sieve or valve trays or structured packing for efficiency and cost.

Final Answer:6″ cap with 4″ riser

Discussion & Comments
No comments yet. Be the first to comment!
Join Discussion