Shell-and-tube heat exchangers: which of the following tube lengths is normally NOT used in practice for standard bundles and maintenance access?
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A2.5 metres
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B6 metres
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C10 metres
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D0.5 metre
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E3 metres
Answer
Correct Answer: 0.5 metre
Explanation
Introduction / Context:Standard tube lengths in shell-and-tube heat exchangers balance thermal performance, pressure drop, and maintainability. Very short tubes complicate tube-to-tubesheet fabrication, reduce area per pass dramatically, and hinder economical layout. Understanding typical lengths helps in quick “sanity checks” during specification and vendor bid reviews.
Given Data / Assumptions:
- Conventional exchangers with removable or fixed bundles.
- Normal fabrication practices using standard tube stock lengths (often in ~2.4 m, 3 m, 4.5 m, 6 m ranges, etc.).
- Focus is on what is normally not used, not what is theoretically possible.
Concept / Approach:Common practice favors tube lengths of a few meters (e.g., 2.5–6 m or more), which provide sufficient heat-transfer area without excessive shell length. Extremely short tubes (e.g., 0.5 m) cause disproportionate header space, poor economic utilization of shell hardware, and limited thermal effectiveness per unit cost.
Step-by-Step Solution:
List typical lengths available from tube mills and used by TEMA vendors (2.5 m, 3 m, 6 m, etc.).Assess practicality: very short tubes lead to costly headers versus area gained.Therefore identify 0.5 m as atypical in normal practice.Select the “not used” option accordingly.Verification / Alternative check:Vendor catalogs and TEMA-based datasheets show preferred standard lengths aligned with stocking and bundle assembly considerations.
Why Other Options Are Wrong:
- 2.5 m, 3 m, 6 m, 10 m are all common in various duties and sizes.
Common Pitfalls:Confusing small lab/pilot units (which could use short tubes) with industrial practice; overlooking maintenance access space for pulling bundles.
Final Answer:0.5 metre