In storage tank design for petroleum or liquid fuels: for tanks with capacity greater than 45 kilolitres, what is the recommended safe upper limit on the height-to-diameter ratio (h/d)?
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A1
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B2
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C3
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D3.5
Answer
Correct Answer: 1
Explanation
Introduction / Context:For above-ground petroleum and liquid fuel storage tanks, geometric proportions directly affect stability, seismic/wind response, sloshing, and shell stresses. A common siting and design practice is to keep the tank squat (i.e., height not greatly exceeding diameter) to improve stability and minimize overturning moments. Hence, designers often specify a safe limit for the height-to-diameter ratio (h/d) for larger capacities (> 45 kilolitres).
Given Data / Assumptions:
- Tank stores petroleum or similar liquid fuels.
- Capacity is greater than 45 kilolitres.
- Typical atmospheric, fixed or floating roof tank design; standard wind and seismic considerations.
Concept / Approach:The h/d ratio controls the center of gravity location and shell buckling susceptibility. Lower h/d provides a broader base and lower overturning lever arm, which reduces risk under wind and seismic loads. For common field-erected tanks, conservative guidance places a practical upper limit on h/d around unity (i.e., less than 1) for large-capacity tanks to maintain stability and manageable shell courses.
Step-by-Step Solution:
Recognize that higher h/d increases slenderness and overturning moment.Industry practice for large fuel tanks favors squat proportions (h/d less than 1).Thus, the recommended safe upper limit for h/d in this range is < 1.Verification / Alternative check:Qualitative checks from stability equations show that overturning moment from wind scales with projected height; reducing h/d reduces base shear and foundation demands. Shell buckling margins also improve with squat geometries.
Why Other Options Are Wrong:
- 2, 3, 3.5: These imply relatively tall, slender tanks, which are less stable and more demanding structurally for large capacities.
Common Pitfalls:Ignoring local codes; not accounting for seismic zone; overlooking roof type (fixed vs. floating) that may change sloshing and freeboard needs; using tall narrow tanks merely to save plot area.
Final Answer:1