Flange Rating - CAESAR II - Help

This is an optional input. It has been a common practice in the industry to use the ANSI B16.5 and API 605 temperature/pressure rating tables as a gauge for leakage. Because these rating tables are based on allowable stresses and are not intended for leakage prediction, the leakage predictions that resulted are a function of the allowable stress for the flange material, not the flexibility, or modulus of elasticity, of the flange. To give you a comparison to the old practice, the minimum and maximum rating table values from ANSI and API are stored and are used to print minimum and maximum leakage safety factors that are predicted from this method. An example of the output that you get upon entering the flange rating is shown below:

EQUIVALENT PRESSURE MODEL ————————-

Equivalent Pressure (lb./sq.in.) 1639.85

ANSI/API Min Equivalent Pressure Allowed 1080.00

ANSI/API Max Equivalent Pressure Allowed 1815.00

According to the older method, this shows that leakage occurred if a carbon steel flange is used, and leakage does not occur if an alloy flange is used. Both flanges have essentially the same flexibility tendency to leak.

The following input parameters are used only for the ASME Section VIII Division 1 stress calculations:

• Flange Type

• Flange Outside Diameter

• Design Temperature

• Small End Hub Thickness

• Large End Hub Thickness

• Hub Length

• Flange Allowables

• Bolt Allowables

• Gasket Seating Stress

• Optional Allowable Multipliers

• Flange Face & Gasket Dimensions

Specify the Flange Type on the Flange Tab tab. To acquire material allowables from the Section VIII, Division 1 material library, use the Flange Material list on the Material Data Tab tab.

An input listing for a typical flange analysis is shown below:

CA E S A R I I MISCELLANEOUS REPORT ECHO

Flange Inside Diameter [B](in.) 30.560

Flange Thickness [t](in.) 4.060

Flange Rating (Optional) 300.000

Bolt Circle Diameter (in.) 38.500

Number of Bolts 32.000

Bolt Diameter (in.) 1.500

Bolt Initial Tightening Stress(lb./sq.in.)

Effective Gasket Diameter [G] (in.) 33.888

Uncompressed Gasket Thickness (in.) 0.063

Basic Gasket Width [b0] (in.) 0.375

Leak Pressure Ratio [m] 2.750

Effective Gasket Modulus(b./sq.in.) 300,000.000

Externally Applied Moment (optional)(in.lb.) 24,000.000

Externally Applied Force (optional)(lb.) 1,000.000

Pressure [P](lb./sq.in.) 400.000

The following inputs are required only if you wish to perform stress calcs as per Sect VIII Div. 1

Flange Type (1-8, see ?-Help or Alt-P to plot) 1.000

Flange Outside Diameter [A](in.) 41.500

Design Temperature°F 650.000

Small End Hub Thickness [g0](in.) 1.690

Large End Hub Thickness [g1](in.) 3.440

Hub Length [h](in.) 6.620

Flange Allowable @Design Temperature(lb./sq.in.) 17,500.000

Flange Allowable @Ambient Temperature(lb./sq.in.) 17,500.000

Flange Modulus of Elasticity @Design(lb./sq.in.) 0.279E+08

Flange Modulus of Elasticity @Ambient(lb./sq.in.) 0.279E+08

Bolt Allowable @Design Temperature(lb./sq.in.) 25,000.000

Bolt Allowable @Ambient Temperature(lb./sq.in.) 25,000.000

Gasket Seating Stress [y](lb./sq.in.) 3,700.000

Flange Allowable Stress Multiplier 1.000

Bolt Allowable Stress Multiplier (VIII Div 2 4-1411.000

Disable Leakage Calculations (Y/N) N

Flange Face OD or Lapjt Cnt OD(in.) 34.500

Flange Face ID or Lapjt Cnt ID(in.) 33.000

Gasket Outer Diameter (in.) 36.000

Gasket Inner Diameter (in.) 33.000

Nubbin Width (in.)

Facing Sketch 1.000

Facing Column 2.000

Disable Leakage Calculations (Y/N) N