Maximum Wind Moment for Vessel with Total Height Less than 20m Solution

STEP 0: Pre-Calculation Summary
Formula Used
Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Total Height of Vessel/2)
Mw = Plw*(H/2)
This formula uses 3 Variables
Variables Used
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.
Wind Load acting on Lower Part of Vessel - (Measured in Newton) - Wind Load acting on Lower Part of Vessel refers to the forces and stresses that are generated by wind acting on the surface area of the vessel below its center of gravity.
Total Height of Vessel - (Measured in Millimeter) - Total Height of Vessel can vary widely depending on its design and size.
STEP 1: Convert Input(s) to Base Unit
Wind Load acting on Lower Part of Vessel: 67 Newton --> 67 Newton No Conversion Required
Total Height of Vessel: 15 Meter --> 15000 Millimeter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Mw = Plw*(H/2) --> 67*(15000/2)
Evaluating ... ...
Mw = 502500
STEP 3: Convert Result to Output's Unit
502500 Newton Meter -->502500000 Newton Millimeter (Check conversion ​here)
FINAL ANSWER
502500000 5E+8 Newton Millimeter <-- Maximum Wind Moment
(Calculation completed in 00.004 seconds)

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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))

Maximum Wind Moment for Vessel with Total Height Less than 20m Formula

​LaTeX ​Go
Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Total Height of Vessel/2)
Mw = Plw*(H/2)

What is Design Height?

Design height refers to the effective height of a structural member or column that has been designed to resist compressive loads. In structural engineering, the effective height is defined as the length of a column or member between its points of zero bending moment, or the length at which the column or member buckles under compressive loads. The design height is an important consideration in the design of structural members, as it affects their ability to resist buckling and collapse under compressive loads. Structural engineers and designers use a range of analytical methods and computer simulations to determine the appropriate design height for different types of structural members, depending on the material properties, loading conditions, and other factors that may affect their performance.

How to Calculate Maximum Wind Moment for Vessel with Total Height Less than 20m?

Maximum Wind Moment for Vessel with Total Height Less than 20m calculator uses Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Total Height of Vessel/2) to calculate the Maximum Wind Moment, Maximum Wind Moment for Vessel with Total Height Less than 20m refers to the maximum bending moment that is generated by wind forces acting on a vessel structure. Maximum Wind Moment is denoted by Mw symbol.

How to calculate Maximum Wind Moment for Vessel with Total Height Less than 20m using this online calculator? To use this online calculator for Maximum Wind Moment for Vessel with Total Height Less than 20m, enter Wind Load acting on Lower Part of Vessel (Plw) & Total Height of Vessel (H) and hit the calculate button. Here is how the Maximum Wind Moment for Vessel with Total Height Less than 20m calculation can be explained with given input values -> 5E+11 = 67*(15/2).

FAQ

What is Maximum Wind Moment for Vessel with Total Height Less than 20m?
Maximum Wind Moment for Vessel with Total Height Less than 20m refers to the maximum bending moment that is generated by wind forces acting on a vessel structure and is represented as Mw = Plw*(H/2) or Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Total Height of Vessel/2). Wind Load acting on Lower Part of Vessel refers to the forces and stresses that are generated by wind acting on the surface area of the vessel below its center of gravity & Total Height of Vessel can vary widely depending on its design and size.
How to calculate Maximum Wind Moment for Vessel with Total Height Less than 20m?
Maximum Wind Moment for Vessel with Total Height Less than 20m refers to the maximum bending moment that is generated by wind forces acting on a vessel structure is calculated using Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Total Height of Vessel/2). To calculate Maximum Wind Moment for Vessel with Total Height Less than 20m, you need Wind Load acting on Lower Part of Vessel (Plw) & Total Height of Vessel (H). With our tool, you need to enter the respective value for Wind Load acting on Lower Part of Vessel & Total Height of Vessel and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Maximum Wind Moment?
In this formula, Maximum Wind Moment uses Wind Load acting on Lower Part of Vessel & Total Height of Vessel. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Height of Lower Part of Vessel/2)+Wind Load acting on Upper Part of Vessel*(Height of Lower Part of Vessel+(Height of Upper Part of Vessel/2))
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