Atmospheric storage tank design: For tanks of diameter ≤ 15 m, what is the typical minimum shell plate thickness specified for elastic stability?
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A2 mm
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B5 mm
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C10 mm
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D15 mm
Answer
Correct Answer: 5 mm
Explanation
Introduction / Context:Atmospheric storage tanks must resist wind loads, handling damage, local buckling, and fabrication tolerances. Even when internal pressure is negligible, a minimum shell thickness is imposed for elastic stability and practical fabrication.
Given Data / Assumptions:
- Cylindrical vertical tank with diameter ≤ 15 m.
- Design pressure near atmospheric; hydrostatic head due to stored liquid applies.
- Common industry practice and standards guide minimum gage selection.
Concept / Approach:Thin shells are susceptible to elastic instability (local buckling or wrinkling) during construction, lifting, or service. A nominal minimum thickness (often around 5 mm) provides stiffness, allows welding without burn-through, and tolerates corrosion allowances and out-of-roundness within reasonable limits.
Step-by-Step Solution:
Identify governing load: not internal pressure but handling/wind and hydrostatic head.Apply practical fabrication constraints: plate availability, welding process, corrosion allowance.Adopt minimum shell thickness of about 5 mm for tanks ≤ 15 m diameter as a baseline.Verification / Alternative check:Industry guides and many company standards specify a lower bound of about 5 mm (exclusive of additional corrosion allowance) for small-to-medium atmospheric tanks.
Why Other Options Are Wrong:
- 2 mm: too thin for handling/welding and prone to buckling.
- 10 or 15 mm: possible in special cases but not the minimum; adds unnecessary cost for small tanks.
Common Pitfalls:Ignoring local shell buckling near nozzles; neglecting corrosion allowance; underestimating wind loads and required stiffening rings.
Final Answer:5 mm