Thickness of Skirt in Vessel Calculator

✖Maximum Wind Moment is calculated based on a number of factors, including the wind speed and direction, the size and shape of the building or structure, the materials used in construction.ⓘ Maximum Wind Moment [M_w]			+10% -10%
✖Mean Diameter of Skirt in a vessel will depend on the size and design of the vessel.ⓘ Mean Diameter of Skirt [D_sk]			+10% -10%
✖Axial Bending Stress at Base of Vessel refers to the stress that occurs when wind exerts a force on the vessel, causing it to bend or deform.ⓘ Axial Bending Stress at Base of Vessel [f_wb]			+10% -10%

✖Thickness of Skirt in Vessel is typically determined by calculating the maximum stress that the skirt is likely to experience and their must be sufficient to resist the weight of the vessel.ⓘ Thickness of Skirt in Vessel [t_skirt]

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Thickness of Skirt in Vessel Solution

STEP 0: Pre-Calculation Summary

Formula Used

Thickness of Skirt in Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Axial Bending Stress at Base of Vessel)
t_skirt = (4*M_w)/(pi*(D_sk)^(2)*f_wb)
This formula uses 1 Constants, 4 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Thickness of Skirt in Vessel - (Measured in Meter) - Thickness of Skirt in Vessel is typically determined by calculating the maximum stress that the skirt is likely to experience and their must be sufficient to resist the weight of the vessel.
Maximum Wind Moment - (Measured in Newton Meter) - Maximum Wind Moment is calculated based on a number of factors, including the wind speed and direction, the size and shape of the building or structure, the materials used in construction.
Mean Diameter of Skirt - (Measured in Meter) - Mean Diameter of Skirt in a vessel will depend on the size and design of the vessel.
Axial Bending Stress at Base of Vessel - (Measured in Pascal) - Axial Bending Stress at Base of Vessel refers to the stress that occurs when wind exerts a force on the vessel, causing it to bend or deform.

STEP 1: Convert Input(s) to Base Unit

Maximum Wind Moment: 370440000 Newton Millimeter --> 370440 Newton Meter (Check conversion here)
Mean Diameter of Skirt: 19893.55 Millimeter --> 19.89355 Meter (Check conversion here)
Axial Bending Stress at Base of Vessel: 1.01 Newton per Square Millimeter --> 1010000 Pascal (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

t_skirt = (4*M_w)/(pi*(D_sk)^(2)*f_wb) --> (4*370440)/(pi*(19.89355)^(2)*1010000)

Evaluating ... ...

t_skirt = 0.00118000009093532

STEP 3: Convert Result to Output's Unit

0.00118000009093532 Meter -->1.18000009093532 Millimeter (Check conversion here)

FINAL ANSWER

1.18000009093532 ≈ 1.18 Millimeter <-- Thickness of Skirt in Vessel

(Calculation completed in 00.004 seconds)

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Thadomal Shahani Engineering College (Tsec), Mumbai

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National University of Judicial Science (NUJS), Kolkata

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< Design Thickness of Skirt Calculators

Wind Load acting on Lower Part of Vessel

LaTeX Go Wind Load acting on Lower Part of Vessel = Coefficient depending on Shape Factor*Coefficient Period of One Cycle of Vibration*Wind Pressure acting on Lower Part of Vessel*Height of Lower Part of Vessel*Outside Diameter of Vessel

Wind Load acting on Upper Part of Vessel

LaTeX Go Wind Load acting on Upper Part of Vessel = Coefficient depending on Shape Factor*Coefficient Period of One Cycle of Vibration*Wind Pressure acting on Upper Part of Vessel*Height of Upper Part of Vessel*Outside Diameter of Vessel

Axial Bending Stress due to Wind Load at Base of Vessel

LaTeX Go Axial Bending Stress at Base of Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Thickness of Skirt)

Maximum Bending Stress in Base Ring Plate

LaTeX Go Maximum Bending Stress in Base Ring Plate = (6*Maximum Bending Moment)/(Circumferential Length of Bearing Plate*Thickness of Base Bearing Plate^(2))

Thickness of Skirt in Vessel Formula

LaTeX Go

Thickness of Skirt in Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Axial Bending Stress at Base of Vessel)
t_skirt = (4*M_w)/(pi*(D_sk)^(2)*f_wb)

What is Vessel Support in Process Equipment Design?

In equipment design, vessel support refers to the structural support provided to vessels or tanks used in various industrial processes. Vessels or tanks are used to store or transport various types of materials such as liquids, gases, and solids in industries such as chemical, petrochemical, pharmaceutical, and food processing.The design of vessel support in equipment design must comply with various standards and codes, such as the American Petroleum Institute (API) standards, American Society of Mechanical Engineers (ASME) codes, and other international standards. The vessel support design must also be approved by regulatory bodies, such as local or national authorities, before construction or installation can begin.Overall, vessel support in equipment design is a critical aspect of industrial processes involving the use of vessels or tanks.

What is Design Thickness?

Design thickness refers to the calculated minimum thickness required for a component, such as a pipe, vessel, or plate, to safely withstand its operating conditions and loads. The design thickness is based on various factors, including the material properties, operating temperature and pressure, corrosion allowances, and safety factors. It is an essential consideration in engineering design to ensure the structural integrity and safety of a component under all expected conditions of use.

How to Calculate Thickness of Skirt in Vessel?

Thickness of Skirt in Vessel calculator uses Thickness of Skirt in Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Axial Bending Stress at Base of Vessel) to calculate the Thickness of Skirt in Vessel, The Thickness of Skirt in Vessel formula depends on various factors such as the diameter of the vessel, the height of the skirt, the load on the vessel, and the material used for the skirt. Thickness of Skirt in Vessel is denoted by t_skirt symbol.

How to calculate Thickness of Skirt in Vessel using this online calculator? To use this online calculator for Thickness of Skirt in Vessel, enter Maximum Wind Moment (M_w), Mean Diameter of Skirt (D_sk) & Axial Bending Stress at Base of Vessel (f_wb) and hit the calculate button. Here is how the Thickness of Skirt in Vessel calculation can be explained with given input values -> 1180 = (4*370440)/(pi*(19.89355)^(2)*1010000).

FAQ

What is Thickness of Skirt in Vessel?

The Thickness of Skirt in Vessel formula depends on various factors such as the diameter of the vessel, the height of the skirt, the load on the vessel, and the material used for the skirt and is represented as t_skirt = (4*M_w)/(pi*(D_sk)^(2)*f_wb) or Thickness of Skirt in Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Axial Bending Stress at Base of Vessel). Maximum Wind Moment is calculated based on a number of factors, including the wind speed and direction, the size and shape of the building or structure, the materials used in construction, Mean Diameter of Skirt in a vessel will depend on the size and design of the vessel & Axial Bending Stress at Base of Vessel refers to the stress that occurs when wind exerts a force on the vessel, causing it to bend or deform.

How to calculate Thickness of Skirt in Vessel?

The Thickness of Skirt in Vessel formula depends on various factors such as the diameter of the vessel, the height of the skirt, the load on the vessel, and the material used for the skirt is calculated using Thickness of Skirt in Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Axial Bending Stress at Base of Vessel). To calculate Thickness of Skirt in Vessel, you need Maximum Wind Moment (M_w), Mean Diameter of Skirt (D_sk) & Axial Bending Stress at Base of Vessel (f_wb). With our tool, you need to enter the respective value for Maximum Wind Moment, Mean Diameter of Skirt & Axial Bending Stress at Base of Vessel 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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