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Storage Tank Design

Storage Tank Design. BGBataller December 8, 2009 2 nd Semester, AY 2009-2010 Seminar Room, ChE Dept, CEAT-UPLB. Storage Tank. CLASSIFICATION Shop-fabricated  Vcap≤23,700 gal Field erected  Vcap > 23,700 gal. Shop-Fabricated Tanks. Field Erected Tanks. Guidelines on Allowances.

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Storage Tank Design

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  1. Storage Tank Design BGBataller December 8, 2009 2nd Semester, AY 2009-2010 Seminar Room, ChE Dept, CEAT-UPLB

  2. Storage Tank • CLASSIFICATION • Shop-fabricated Vcap≤23,700 gal • Field erected  Vcap> 23,700 gal

  3. Shop-Fabricated Tanks

  4. Field Erected Tanks

  5. Guidelines on Allowances 1. Vessels below500 gallons (1:9 m3) are never more than 85% filled 2. Vessels above500 gal (1.9 m3) are never more than 90% filled 3. Liquid in quantities less than 1,000 gal (3.8 m3) is stored in vertical tanks mounted on legs

  6. Guidelines on Allowances 4. Liquid in quantities between1,000 and 10,000 gal (3.8 and 38 m3) is stored in horizontal tanks mounted on a concrete foundation 5. Liquid in quantities exceeding10,000 gal (3.8 m3) is stored in vertical tanks mounted on a concrete foundation.

  7. SHELL DESIGN • Shell Thickness (One – Foot Method) >> Applicable only for the Lower Course Shell Thickness

  8. SHELL DESIGN • Shell Thickness (One – Foot Method) >> Applicable only for the Upper Course Shell Thickness

  9. SHELL DESIGN • Shell Thickness (Variable Point Method) LOWER COURSE THICKNESS

  10. SHELL DESIGN • Shell Thickness (Variable Point Method) UPPER COURSE THICKNESS

  11. Shell Design >> Variable Point Where:

  12. Shell Design >> Variable Point Where x is a variable design point that is a function of: a. Thickness of layers b. Tank Radius c. Liquid Height >> is the minimum value among x1, x2, x3

  13. Roof Thickness • For Self-Supporting Roofs (FS=4)

  14. Height between Stiffeners • For Long Cylindrical Shell (E=30x106, FS=1.5, Poisson’s ratio = 0.3)

  15. Bottom (annular) Plate Length • For FS=2 and tb=0.25 to 0.75 in.

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