Required Thickness for Jacket Closer Member with Jacket Width Calculator

✖Jacket Width is the measurement or extent of something from side to side.ⓘ Jacket Width [w_j]			+10% -10%
✖Design Jacket Pressure refers to a type of pressure vessel designed to withstand high pressures and temperatures, typically used for containing gases or liquids under extreme conditions.ⓘ Design Jacket Pressure [p_j]			+10% -10%
✖Allowable Stress for Jacket Material at Design Temperature is defined as the material failure stress divided by a factor of safety greater than one.ⓘ Allowable Stress for Jacket Material [f_j]			+10% -10%

✖Required Thickness for Jacket Closer Member will be determined by the maximum allowable stress in the material, the design pressure and temperature.ⓘ Required Thickness for Jacket Closer Member with Jacket Width [t_rc]

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Required Thickness for Jacket Closer Member with Jacket Width

Formula

`"t"_{"rc"} = 0.886*"w"_{"j"}*sqrt("p"_{"j"}/"f"_{"j"})`

Example

`"1.310412mm"=0.886*"50mm"*sqrt("0.105N/mm²"/"120N/mm²")`

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Required Thickness for Jacket Closer Member with Jacket Width Solution

STEP 0: Pre-Calculation Summary

Formula Used

Required Thickness for Jacket Closer Member = 0.886*Jacket Width*sqrt(Design Jacket Pressure/Allowable Stress for Jacket Material)
t_rc = 0.886*w_j*sqrt(p_j/f_j)
This formula uses 1 Functions, 4 Variables

Functions Used

sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)

Variables Used

Required Thickness for Jacket Closer Member - (Measured in Millimeter) - Required Thickness for Jacket Closer Member will be determined by the maximum allowable stress in the material, the design pressure and temperature.
Jacket Width - (Measured in Millimeter) - Jacket Width is the measurement or extent of something from side to side.
Design Jacket Pressure - (Measured in Newton per Square Millimeter) - Design Jacket Pressure refers to a type of pressure vessel designed to withstand high pressures and temperatures, typically used for containing gases or liquids under extreme conditions.
Allowable Stress for Jacket Material - (Measured in Newton per Square Millimeter) - Allowable Stress for Jacket Material at Design Temperature is defined as the material failure stress divided by a factor of safety greater than one.

STEP 1: Convert Input(s) to Base Unit

Jacket Width: 50 Millimeter --> 50 Millimeter No Conversion Required
Design Jacket Pressure: 0.105 Newton per Square Millimeter --> 0.105 Newton per Square Millimeter No Conversion Required
Allowable Stress for Jacket Material: 120 Newton per Square Millimeter --> 120 Newton per Square Millimeter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

t_rc = 0.886*w_j*sqrt(p_j/f_j) --> 0.886*50*sqrt(0.105/120)

Evaluating ... ...

t_rc = 1.31041167195656

STEP 3: Convert Result to Output's Unit

0.00131041167195656 Meter -->1.31041167195656 Millimeter (Check conversion here)

FINAL ANSWER

1.31041167195656 ≈ 1.310412 Millimeter <-- Required Thickness for Jacket Closer Member

(Calculation completed in 00.020 seconds)

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< 21 Jacketed Reaction Vessel Calculators

Total Axial Stress in Vessel Shell

Go Total Axial Stress = ((Internal Pressure in Vessel*Internal Diameter of Shell)/(4*Shell Thickness*Joint Efficiency for Shell))+((Design Jacket Pressure*Internal Diameter of Half Coil)/(2*Shell Thickness*Joint Efficiency for Shell))+(2*Maximum difference between Coil and Shell Pressure*(Outer Diameter of Half Coil)^(2))/(3*Shell Thickness^(2))

Maximum Equivalent Stress at Junction with Shell

Go Maximum Equivalent Stress at Junction with Shell = (sqrt((Total Axial Stress)^(2)+(Total Hoop Stress)^(2)+(Maximum Hoop Stress in Coil at Junction with Shell)^(2)-((Total Axial Stress*Total Hoop Stress)+(Total Axial Stress*Maximum Hoop Stress in Coil at Junction with Shell)+(Maximum Hoop Stress in Coil at Junction with Shell*Total Hoop Stress))))

Total Hoop Stress in Shell

Go Total Hoop Stress = (Design Pressure Shell*Internal Diameter of Shell)/(2*Shell Thickness*Joint Efficiency for Shell)+(Design Jacket Pressure*Internal Diameter of Half Coil)/((4*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)+(2.5*Shell Thickness*Joint Efficiency for Shell))

Combined Moment of Inertia of Shell and Stiffener per Unit Length

Go Combined Moment of Inertia of Shell and Stiffener = (Vessel Shell Outer Diameter^(2)*Effective Length Between Stiffeners*(Shell Thickness for Jackted Reaction Vessel+Cross Sectional Area of Stiffening Ring/Effective Length Between Stiffeners)*Allowable Stress for Jacket Material)/(12*Modulus of Elasticity Jacketed Reaction Vessel)

Shell Thickness for Critical External Pressure

Go Critical External Pressure = (2.42*Modulus of Elasticity Jacketed Reaction Vessel)/(1-(Poisson Ratio)^(2))^(3/4)*((Vessel Thickness/Vessel Shell Outer Diameter)^(5/2)/((Length of Shell/Vessel Shell Outer Diameter)-0.45*(Vessel Thickness/Vessel Shell Outer Diameter)^(1/2)))

Depth of Torisperical Head

Go Depth of Head = Crown Radius for Jacketed Reaction Vessel-sqrt((Crown Radius for Jacketed Reaction Vessel-Vessel Shell Outer Diameter/2)*(Crown Radius for Jacketed Reaction Vessel+Vessel Shell Outer Diameter/2-2*Knuckle Radius))

Design of Shell Thickness Subjected to Internal Pressure

Go Shell Thickness for Jackted Reaction Vessel = (Internal Pressure in Vessel*Internal Diameter of Shell)/((2*Allowable Stress for Jacket Material*Joint Efficiency for Shell)-(Internal Pressure in Vessel))+Corrosion Allowance

Maximum Axial Stress in Coil at Junction with Shell

Go Maximum Axial Stress in Coil at Junction = (Design Jacket Pressure*Internal Diameter of Half Coil)/((4*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)+(2.5*Shell Thickness*Joint Efficiency for Shell))

Dished Head Thickness

Go Dished Head Thickness = ((Internal Pressure in Vessel*Crown Radius for Jacketed Reaction Vessel*Stress Intensification Factor)/(2*Allowable Stress for Jacket Material*Joint Efficiency for Shell))+Corrosion Allowance

Thickness of Bottom Head subjected to Pressure

Go Head Thickness = 4.4*Crown Radius for Jacketed Reaction Vessel*(3*(1-(Poisson Ratio)^(2)))^(1/4)*sqrt(Internal Pressure in Vessel/(2*Modulus of Elasticity Jacketed Reaction Vessel))

Thickness of Half Coil Jacket

Go Thickness of Half Coil Jacket = (Design Jacket Pressure*Internal Diameter of Half Coil)/((2*Allowable Stress for Jacket Material*Joint Efficiency for Shell))+Corrosion Allowance

Thickness of Jacket Shell for Internal Pressure

Go Required Thickness of Jacket = (Design Jacket Pressure*Internal Diameter of Shell)/((2*Allowable Stress for Jacket Material*Joint Efficiency for Shell)-Design Jacket Pressure)

Channel Jacket Thickness

Go Channel Wall Thickness = Design Length of Channel Section*(sqrt((0.12*Design Jacket Pressure)/(Allowable Stress for Jacket Material)))+Corrosion Allowance

Maximum Hoop Stress in Coil at Junction with Shell

Go Maximum Hoop Stress in Coil at Junction with Shell = (Design Jacket Pressure*Internal Diameter of Half Coil)/(2*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)

Vessel Wall Thickness for Channel Type Jacket

Go Vessel Thickness = Design Length of Channel Section*sqrt((0.167*Design Jacket Pressure)/(Allowable Stress for Jacket Material))+Corrosion Allowance

Required Plate Thickness for Dimple Jacket

Go Required Thickness of Dimple Jacket = Maximum Pitch between Steam Weld Centre Lines*sqrt(Design Jacket Pressure/(3*Allowable Stress for Jacket Material))

Required Thickness for Jacket Closer Member with Jacket Width

Go Required Thickness for Jacket Closer Member = 0.886*Jacket Width*sqrt(Design Jacket Pressure/Allowable Stress for Jacket Material)

Length of Shell under Combined Moment of Inertia

Go Length of Shell = 1.1*sqrt(Vessel Shell Outer Diameter*Vessel Thickness)

Cross Sectional Area of Stiffening Ring

Go Cross Sectional Area of Stiffening Ring = Width of Stiffener*Thickness of Stiffener

Length of Shell for Jacket

Go Length of Shell for Jacket = Length of Straight Side Jacket+1/3*Depth of Head

Jacket Width

Go Jacket Width = (Inside Diameter of Jacket-Outer Diameter of Vessel)/2

Required Thickness for Jacket Closer Member with Jacket Width Formula

Required Thickness for Jacket Closer Member = 0.886*Jacket Width*sqrt(Design Jacket Pressure/Allowable Stress for Jacket Material)
t_rc = 0.886*w_j*sqrt(p_j/f_j)

What is Design Thickness?

Thickness is the one used for the stiffness analysis while the Design Thickness is the one used for reinforcement design. Generally you would use the same value for both. However if there is a situation where you would want the analysis to be based on a certain thickness but the reinforcement calculated based on a different thickness, you could use different values for these. For example you may have some areas in the mat which may be thicker and you may want to consider that additional thickness for the stiffness analysis but when designing the reinforcement, you may choose to use a uniform value for the entire mat.

How to Calculate Required Thickness for Jacket Closer Member with Jacket Width?

Required Thickness for Jacket Closer Member with Jacket Width calculator uses Required Thickness for Jacket Closer Member = 0.886*Jacket Width*sqrt(Design Jacket Pressure/Allowable Stress for Jacket Material) to calculate the Required Thickness for Jacket Closer Member, The Required Thickness for Jacket Closer Member with Jacket Width formula is defined minimum thickness without corrosion allowance for each element of a pressure vessel based on the appropriate design code calculations and code allowable stress that consider pressure, mechanical, and structural loadings. Required Thickness for Jacket Closer Member is denoted by t_rc symbol.

How to calculate Required Thickness for Jacket Closer Member with Jacket Width using this online calculator? To use this online calculator for Required Thickness for Jacket Closer Member with Jacket Width, enter Jacket Width (w_j), Design Jacket Pressure (p_j) & Allowable Stress for Jacket Material (f_j) and hit the calculate button. Here is how the Required Thickness for Jacket Closer Member with Jacket Width calculation can be explained with given input values -> 1310.412 = 0.886*0.05*sqrt(105000/120000000).

FAQ

What is Required Thickness for Jacket Closer Member with Jacket Width?

The Required Thickness for Jacket Closer Member with Jacket Width formula is defined minimum thickness without corrosion allowance for each element of a pressure vessel based on the appropriate design code calculations and code allowable stress that consider pressure, mechanical, and structural loadings and is represented as t_rc = 0.886*w_j*sqrt(p_j/f_j) or Required Thickness for Jacket Closer Member = 0.886*Jacket Width*sqrt(Design Jacket Pressure/Allowable Stress for Jacket Material). Jacket Width is the measurement or extent of something from side to side, Design Jacket Pressure refers to a type of pressure vessel designed to withstand high pressures and temperatures, typically used for containing gases or liquids under extreme conditions & Allowable Stress for Jacket Material at Design Temperature is defined as the material failure stress divided by a factor of safety greater than one.

How to calculate Required Thickness for Jacket Closer Member with Jacket Width?

The Required Thickness for Jacket Closer Member with Jacket Width formula is defined minimum thickness without corrosion allowance for each element of a pressure vessel based on the appropriate design code calculations and code allowable stress that consider pressure, mechanical, and structural loadings is calculated using Required Thickness for Jacket Closer Member = 0.886*Jacket Width*sqrt(Design Jacket Pressure/Allowable Stress for Jacket Material). To calculate Required Thickness for Jacket Closer Member with Jacket Width, you need Jacket Width (w_j), Design Jacket Pressure (p_j) & Allowable Stress for Jacket Material (f_j). With our tool, you need to enter the respective value for Jacket Width, Design Jacket Pressure & Allowable Stress for Jacket Material 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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