Nozzle Loads, Piping Stresses, and the Effect of Piping on Equipment

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Typical <strong>Piping</strong> Layout <strong>and</strong> Support – 2x100% Pumps • Typical pump arrangements have one pump spared (i.e. not running) • Thermal effect can be significant • <strong>Piping</strong> layout is typically symmetrical for es<strong>the</strong>tics, <strong>and</strong> for equal flow if both pumps run toge<strong>the</strong>r • Minimize effect <strong>of</strong> downstream piping • AutoPIPE ® Break… – 14x10 BB2 Pumps – Flow = 4031gpm, Head = 241ft, HP = 300hp 18
Strut to restrain <strong>the</strong>rmal force in z direction Pump nozzles 19
Page 1 and 2: Nozzle Loa
Page 3 and 4: Introduction • As Mechanical Equi
Page 5 and 6: What are Equipment Nozzle</
Page 7 and 8: The Piping <strong
Page 9 and 10: Stress Engineering Tools • Stress
Page 11 and 12: Max ratio Same layout showing ASME
Page 13 and 14: Piping Support Typ
Page 15 and 16: Special Piping Sup
Page 17: Typical Piping Lay
Page 21 and 22: API vs ANSI Pump Design API 610 ANS
Page 23 and 24: API vs. ANSI Nozzle</strong
Page 25 and 26: API vs. ANSI Nozzle</strong
Page 27 and 28: Nozzle Load Issues
Page 29 and 30: High Temperature Barrel Pump • <s
Page 31 and 32: Very low thermal s
Page 33 and 34: Why is piping always bugging me? Co
Page 35 and 36: How can Nozzle <st
Page 37 and 38: Pumps rotated 180 deg. to reduce pi
Page 39 and 40: References • Pumps - API 610 10 t

Nozzle Loads, Piping Stresses, and the Effect of Piping on Equipment

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