Sieve (seive) tray columns are typically designed to operate at what fraction of the flooding vapor velocity to achieve high plate efficiency without excessive entrainment?
-
A45 percent of flooding velocity
-
B60 percent of flooding velocity
-
C80 percent of flooding velocity
-
D95 percent of flooding velocity
-
E30 percent of flooding velocity
Answer
Correct Answer: 80 percent of flooding velocity
Explanation
Introduction / Context:Tray columns have an upper capacity limit known as flooding, where liquid is carried upward by vapor, causing hydraulic instability. Designers select an operating vapor velocity as a percentage of the flooding velocity to balance efficiency, capacity, and pressure drop.
Given Data / Assumptions:
- Conventional sieve trays with typical physical properties and tray spacings.
- Well-distributed vapor and liquid loads.
- Focus is on a general design guideline, not a specific system re-rate.
Concept / Approach:Operating too close to flooding risks entrainment and downcomer backup; too low reduces mass transfer efficiency due to poor vapor–liquid contact. Practical design targets typically fall in the range of about 60–85% of the predicted flooding velocity for sieve trays, with ~80% a common, satisfactory value.
Step-by-Step Solution:Estimate flooding velocity from tray hydraulics correlations.Apply design factor to avoid entrainment and allow turndown margin.Select ~80% of flooding velocity as a robust design point for high efficiency with safety margin.
Verification / Alternative check:Vendor and design handbooks frequently recommend 70–85% for sieve trays; choosing 80% lies near the center, offering good performance and margin.
Why Other Options Are Wrong:45%: overly conservative; underutilizes column capacity.60%: workable but leaves more unused capacity than typical designs.95%: too close to flooding; high entrainment and instability risk.30%: far too low, leading to poor contacting.
Common Pitfalls:Using a fixed percentage without confirming with tray spacing, weir loading, and downcomer backup.Ignoring physical property changes across the column height.
Final Answer:80 percent of flooding velocity