Inner Diameter of Boiler given Thickness of Welded Boiler Shell Solution

STEP 0: Pre-Calculation Summary
Formula Used
Inner diameter of boiler = Thickness of Boiler Wall*2*Tensile Stress in Boiler Butt Weld/Internal pressure in boiler
Di = t*2*σt boiler/Pi
This formula uses 4 Variables
Variables Used
Inner diameter of boiler - (Measured in Meter) - Inner diameter of boiler is the diameter of the inside surface of the boiler.
Thickness of Boiler Wall - (Measured in Meter) - The Thickness of Boiler Wall is the measure of the thickness of the sheet of which a boiler shell is manufactured.
Tensile Stress in Boiler Butt Weld - (Measured in Pascal) - Tensile Stress in Boiler Butt Weld is the stress that are developed in the boiler shell due to service loads.
Internal pressure in boiler - (Measured in Pascal) - Internal pressure in boiler is the pressure inside the boiler due to attraction between molecules. of the fluid.
STEP 1: Convert Input(s) to Base Unit
Thickness of Boiler Wall: 30 Millimeter --> 0.03 Meter (Check conversion here)
Tensile Stress in Boiler Butt Weld: 105 Newton per Square Millimeter --> 105000000 Pascal (Check conversion here)
Internal pressure in boiler: 4.5 Megapascal --> 4500000 Pascal (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Di = t*2*σt boiler/Pi --> 0.03*2*105000000/4500000
Evaluating ... ...
Di = 1.4
STEP 3: Convert Result to Output's Unit
1.4 Meter -->1400 Millimeter (Check conversion here)
FINAL ANSWER
1400 Millimeter <-- Inner diameter of boiler
(Calculation completed in 00.004 seconds)

Credits

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Osmania University (OU), Hyderabad
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16 Butt Welds Calculators

Permissible Tensile Stress in Butt Weld given Efficiency of Welded joint
Go Tensile Stress in Weld = Tensile Force on Welded Plates/(Welded Base Plate Thickness*Length of Weld*Efficiency of Welded Joints)
Thickness of Plate given Efficiency of Butt Welded Joint
Go Welded Base Plate Thickness = Tensile Force on Welded Plates/(Tensile Stress in Weld*Length of Weld*Efficiency of Welded Joints)
Length of Butt Weld given Efficiency of Welded Joint
Go Length of Weld = Tensile Force on Welded Plates/(Tensile Stress in Weld*Welded Base Plate Thickness*Efficiency of Welded Joints)
Efficiency of Butt Welded Joint
Go Efficiency of Welded Joints = Tensile Force on Welded Plates/(Tensile Stress in Weld*Welded Base Plate Thickness*Length of Weld)
Tensile Force on Plates given Efficiency of Butt Welded Joint
Go Tensile Force on Welded Plates = Tensile Stress in Weld*Welded Base Plate Thickness*Length of Weld*Efficiency of Welded Joints
Tensile Stress in Boiler Butt Weld given Thickness of Boiler Shell
Go Tensile Stress in Boiler Butt Weld = Internal pressure in boiler*Inner diameter of boiler/(2*Thickness of Boiler Wall)
Thickness of Welded Boiler Shell given Stress in Weld
Go Thickness of Boiler Wall = Internal pressure in boiler*Inner diameter of boiler/(2*Tensile Stress in Boiler Butt Weld)
Internal Pressure in Boiler given Thickness of Welded Boiler Shell
Go Internal pressure in boiler = Thickness of Boiler Wall*2*Tensile Stress in Boiler Butt Weld/Inner diameter of boiler
Inner Diameter of Boiler given Thickness of Welded Boiler Shell
Go Inner diameter of boiler = Thickness of Boiler Wall*2*Tensile Stress in Boiler Butt Weld/Internal pressure in boiler
Strength of Butt Welded Joint
Go Tensile Stress in Butt Weld = Tensile Force on Welded Plates/(Throat Thickness of Weld*Length of Butt Weld)
Permissible Tensile Stress in Butt Weld
Go Tensile Stress in Weld = Tensile Force on Welded Plates/(Length of Weld*Welded Base Plate Thickness)
Length of Butt Weld given Average Tensile Stress in Weld
Go Length of Weld = Tensile Force on Welded Plates/(Tensile Stress in Weld*Throat Thickness of Weld)
Throat of Butt Weld given Average Tensile Stress
Go Throat Thickness of Weld = Tensile Force on Welded Plates/(Length of Weld*Tensile Stress in Weld)
Average Tensile Stress in Butt Weld
Go Tensile Stress in Weld = Tensile Force on Welded Plates/(Length of Weld*Throat Thickness of Weld)
Tensile Force on Plates given Average Tensile Stress in Butt Weld
Go Tensile Force on Welded Plates = Tensile Stress in Weld*Throat Thickness of Weld*Length of Weld
Tensile Force on Butt Welded Plates given Thickness of Plate
Go Tensile Force on Welded Plates = Tensile Stress in Weld*Length of Weld*Throat Thickness of Weld

Inner Diameter of Boiler given Thickness of Welded Boiler Shell Formula

Inner diameter of boiler = Thickness of Boiler Wall*2*Tensile Stress in Boiler Butt Weld/Internal pressure in boiler
Di = t*2*σt boiler/Pi

Define Boiler ?

A boiler is defined as a closed vessel which is used to heat liquid usually water or to generate vapour or steam or any of such combination under pressure for external use by combustion of fossil fuels.

How to Calculate Inner Diameter of Boiler given Thickness of Welded Boiler Shell?

Inner Diameter of Boiler given Thickness of Welded Boiler Shell calculator uses Inner diameter of boiler = Thickness of Boiler Wall*2*Tensile Stress in Boiler Butt Weld/Internal pressure in boiler to calculate the Inner diameter of boiler, Inner Diameter of Boiler given Thickness of Welded Boiler Shell is defined as the diameter of the circular cross-section of the boiler perpendicular to the length (or height) is the portion bounded by two concentric circles. Inner diameter of boiler is denoted by Di symbol.

How to calculate Inner Diameter of Boiler given Thickness of Welded Boiler Shell using this online calculator? To use this online calculator for Inner Diameter of Boiler given Thickness of Welded Boiler Shell, enter Thickness of Boiler Wall (t), Tensile Stress in Boiler Butt Weld t boiler) & Internal pressure in boiler (Pi) and hit the calculate button. Here is how the Inner Diameter of Boiler given Thickness of Welded Boiler Shell calculation can be explained with given input values -> 1.4E+6 = 0.03*2*105000000/4500000.

FAQ

What is Inner Diameter of Boiler given Thickness of Welded Boiler Shell?
Inner Diameter of Boiler given Thickness of Welded Boiler Shell is defined as the diameter of the circular cross-section of the boiler perpendicular to the length (or height) is the portion bounded by two concentric circles and is represented as Di = t*2*σt boiler/Pi or Inner diameter of boiler = Thickness of Boiler Wall*2*Tensile Stress in Boiler Butt Weld/Internal pressure in boiler. The Thickness of Boiler Wall is the measure of the thickness of the sheet of which a boiler shell is manufactured, Tensile Stress in Boiler Butt Weld is the stress that are developed in the boiler shell due to service loads & Internal pressure in boiler is the pressure inside the boiler due to attraction between molecules. of the fluid.
How to calculate Inner Diameter of Boiler given Thickness of Welded Boiler Shell?
Inner Diameter of Boiler given Thickness of Welded Boiler Shell is defined as the diameter of the circular cross-section of the boiler perpendicular to the length (or height) is the portion bounded by two concentric circles is calculated using Inner diameter of boiler = Thickness of Boiler Wall*2*Tensile Stress in Boiler Butt Weld/Internal pressure in boiler. To calculate Inner Diameter of Boiler given Thickness of Welded Boiler Shell, you need Thickness of Boiler Wall (t), Tensile Stress in Boiler Butt Weld t boiler) & Internal pressure in boiler (Pi). With our tool, you need to enter the respective value for Thickness of Boiler Wall, Tensile Stress in Boiler Butt Weld & Internal pressure in boiler and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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