Cylindrical pressure vessel sizing: a vessel of internal volume 6π m³ (length/diameter = 3) must withstand 10 atm internal pressure. Using allowable stress 125 N/mm² and 2 mm corrosion allowance, estimate the required wall thickness.
-
A5 mm
-
B6 mm
-
C8 mm
-
D10 mm
Answer
Correct Answer: 10 mm
Explanation
Introduction / Context:This is a classic thin-cylinder design estimate for a welded cylindrical pressure vessel. Given the internal volume, the length-to-diameter ratio, the design pressure, and the allowable stress, we can quickly approximate the shell thickness and then add corrosion allowance. Such back-of-the-envelope checks are common in preliminary mechanical design before detailed code calculations.
Given Data / Assumptions:
- Internal volume V = 6π m³.
- Length/diameter ratio L/D = 3 (cylindrical shell only).
- Maximum internal pressure P ≈ 10 atm ≈ 1.013 MPa.
- Allowable design stress σ_allow = 125 N/mm² = 125 MPa.
- Corrosion allowance CA = 2 mm.
- Joint efficiency and other factors assumed unity for this estimate (preliminary sizing).
Concept / Approach:First determine cylinder diameter D from the volume and L/D relation, then apply the thin-cylinder hoop-stress relation t = (P * D) / (2 * σ_allow) for a first-pass thickness. Finally, add corrosion allowance to obtain nominal thickness.
Step-by-Step Solution:
Volume relation: V = (π/4) * D² * L, with L = 3D → V = (3π/4) * D³.Set (3π/4) * D³ = 6π → (3/4) * D³ = 6 → D³ = 8 → D = 2 m.Hoop thickness (no CA): t_req = P * D / (2 * σ_allow) = 1.013 MPa * 2 m / (2 * 125 MPa) ≈ 0.0081 m = 8.1 mm.Add CA = 2 mm → t_nominal ≈ 8.1 + 2 ≈ 10.1 mm → choose 10 mm.Verification / Alternative check:If we included joint efficiency less than 1, thickness would increase. For a quick sizing, 10 mm aligns with expectations for this pressure, diameter, and allowable stress.
Why Other Options Are Wrong:
- 5 or 6 mm: Too thin; violates hoop stress criterion.
- 8 mm: Roughly the net thickness before corrosion; does not include the 2 mm allowance.
Common Pitfalls:Confusing absolute and gauge pressure; forgetting to add corrosion allowance; ignoring longitudinal stress check (typically smaller) and code-required minimums.
Final Answer:10 mm