Shell-and-tube exchangers: a practical minimum tube pitch is commonly taken as approximately how many times the outside diameter of the tube?
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A1.25
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B1.75
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C2.5
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D3.5
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E1.00
Answer
Correct Answer: 1.25
Explanation
Introduction / Context:Tube pitch (center-to-center spacing) in shell-and-tube heat exchangers governs mechanical clearance, tube-to-tube vibration risk, shell-side flow distribution, and cleaning access. Designers typically set a minimum pitch relative to the tube outside diameter to balance compactness with manufacturability and performance.
Given Data / Assumptions:
- Circular tubes arranged on standard layouts (triangular or square).
- Mechanical cleaning may not be required for the tightest triangular patterns.
- Normal industry rules of thumb for minimum pitch.
Concept / Approach:A common lower bound for triangular pitch is about 1.25 times the tube OD, providing just enough ligament for drilling the tubesheet and for tube-to-tube clearance. Larger pitches are used for square layouts, mechanical cleaning lanes, or to reduce shell-side pressure drop. Tighter than 1.25 can compromise drilling integrity or increase risk of damage during expansion/rolling.
Step-by-Step Solution:
Select a practical minimum that preserves tubesheet strength and manufacturability.Recall the widely cited figure: pitch ≈ 1.25 × OD for very compact layouts (typically triangular pitch).Therefore, choose 1.25 as the practical minimum.Verification / Alternative check:TEMA and vendor practices echo ~1.25 OD as a lower limit for close pitch without mechanical cleaning lanes.
Why Other Options Are Wrong:
- 1.75, 2.5, 3.5 are not “minimums” but looser pitches used for other objectives (cleaning, lower pressure drop).
- 1.00 OD gives zero ligament—impractical.
Common Pitfalls:Choosing minimum pitch where mechanical rodding is later required; ignoring fouling tendency that would argue for wider spacing.
Final Answer:1.25