Mean Torque of Flywheel for Four Stroke Engine Calculator

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✖Work Done per Cycle for Engine is the total amount of work that is done by the engine.ⓘ Work Done per Cycle for Engine [W]

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✖Mean torque for Flywheel is defined as the average torque output given by the flywheel.ⓘ Mean Torque of Flywheel for Four Stroke Engine [T_m]

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Formula

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Mean Torque of Flywheel for Four Stroke Engine

Formula

`"T"_{"m"} = "W"/(4*pi)`

Example

`"32626.76N*mm"="410J"/(4*pi)`

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Mean Torque of Flywheel for Four Stroke Engine Solution

STEP 0: Pre-Calculation Summary

Formula Used

Mean Torque for Flywheel = Work Done per Cycle for Engine/(4*pi)
T_m = W/(4*pi)
This formula uses 1 Constants, 2 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Mean Torque for Flywheel - (Measured in Newton Meter) - Mean torque for Flywheel is defined as the average torque output given by the flywheel.
Work Done per Cycle for Engine - (Measured in Joule) - Work Done per Cycle for Engine is the total amount of work that is done by the engine.

STEP 1: Convert Input(s) to Base Unit

Work Done per Cycle for Engine: 410 Joule --> 410 Joule No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T_m = W/(4*pi) --> 410/(4*pi)

Evaluating ... ...

T_m = 32.6267633338385

STEP 3: Convert Result to Output's Unit

32.6267633338385 Newton Meter -->32626.7633338385 Newton Millimeter (Check conversion here)

FINAL ANSWER

32626.7633338385 ≈ 32626.76 Newton Millimeter <-- Mean Torque for Flywheel

(Calculation completed in 00.004 seconds)

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Created by Vaibhav Malani

National Institute of Technology (NIT), Tiruchirapalli

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University Institute of Technology RGPV (UIT - RGPV), Bhopal

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< 21 Design of Flywheel Calculators

Tangential Stress in Rotating Flywheel at given Radius

Go Tangential Stress in Flywheel = Mass Density of Flywheel*Peripheral Speed of Flywheel^2*(Poisson Ratio for Flywheel+3)/8*(1-((3*Poisson Ratio for Flywheel+1)/(Poisson Ratio for Flywheel+3))*(Distance from Flywheel Centre/Outer Radius of Flywheel)^2)

Tensile Stress in Spokes of Rimmed Flywheel

Go Tensile Stress in Spokes of Flywheel = Tensile Force in Flywheel Rim/(Width of Rim of Flywheel*Thickness of Rim of Flywheel)+(6*Bending moment in flywheel spokes)/(Width of Rim of Flywheel*Thickness of Rim of Flywheel^2)

Radial Stress in Rotating Flywheel at given Radius

Go Radial Stress in Flywheel = Mass Density of Flywheel*Peripheral Speed of Flywheel^2*((3+Poisson Ratio for Flywheel)/8)*(1-(Distance from Flywheel Centre/Outer Radius of Flywheel)^2)

Coefficient of Fluctuation of Flywheel Speed given Min and Max Speed

Go Coefficient of Fluctuation of Flywheel Speed = 2*(Maximum Angular Speed of Flywheel-Minimum Angular Speed of Flywheel)/(Maximum Angular Speed of Flywheel+Minimum Angular Speed of Flywheel)

Outer Radius of Flywheel Disk

Go Outer Radius of Flywheel = ((2*Moment of Inertia of Flywheel)/(pi*Thickness of Flywheel*Mass Density of Flywheel))^(1/4)

Coefficient of Fluctuation of Flywheel Speed given Mean Speed

Go Coefficient of Fluctuation of Flywheel Speed = (Maximum Angular Speed of Flywheel-Minimum Angular Speed of Flywheel)/Mean Angular Speed of Flywheel

Mass Density of Flywheel Disk

Go Mass Density of Flywheel = (2*Moment of Inertia of Flywheel)/(pi*Thickness of Flywheel*Outer Radius of Flywheel^4)

Thickness of Flywheel Disk

Go Thickness of Flywheel = (2*Moment of Inertia of Flywheel)/(pi*Mass Density of Flywheel*Outer Radius of Flywheel^4)

Moment of Inertia of Flywheel Disk

Go Moment of Inertia of Flywheel = pi/2*Mass Density of Flywheel*Outer Radius of Flywheel^4*Thickness of Flywheel

Coefficient of Steadiness of Flywheel given Mean Speed

Go Coefficient of Steadiness for Flywheel = Mean Angular Speed of Flywheel/(Maximum Angular Speed of Flywheel-Minimum Angular Speed of Flywheel)

Energy Output from Flywheel

Go Energy Output From Flywheel = Moment of Inertia of Flywheel*Mean Angular Speed of Flywheel^2*Coefficient of Fluctuation of Flywheel Speed

Maximum Radial or Tensile Stress in Flywheel

Go Maximum Radial Tensile Stress in Flywheel = Mass Density of Flywheel*Peripheral Speed of Flywheel^2*((3+Poisson Ratio for Flywheel)/8)

Moment of Inertia of Flywheel

Go Moment of Inertia of Flywheel = (Driving Input Torque of Flywheel-Load Output Torque of Flywheel)/Angular Acceleration of Flywheel

Coefficient of Fluctuation of Flywheel Energy given Maximum Fluctuation of Flywheel Energy

Go Coefficient of Fluctuation of Flywheel Energy = Maximum Fluctuation of Energy for Flywheel/Work Done per Cycle for Engine

Maximum Fluctuation of Flywheel Energy given Coefficient of Fluctuation of Enaergy

Go Maximum Fluctuation of Energy for Flywheel = Coefficient of Fluctuation of Flywheel Energy*Work Done per Cycle for Engine

Work Done per Cycle for Engine connected to Flywheel

Go Work Done per Cycle for Engine = Maximum Fluctuation of Energy for Flywheel/Coefficient of Fluctuation of Flywheel Energy

Mean Angular Velocity of Flywheel

Go Mean Angular Speed of Flywheel = (Maximum Angular Speed of Flywheel+Minimum Angular Speed of Flywheel)/2

Mean Torque of Flywheel for Four Stroke Engine

Go Mean Torque for Flywheel = Work Done per Cycle for Engine/(4*pi)

Mean Torque of Flywheel for Two Stroke Engine

Go Mean Torque for Flywheel = Work Done per Cycle for Engine/(2*pi)

Work Done per Cycle for Four Stroke Engine connected to Flywheel

Go Work Done per Cycle for Engine = 4*pi*Mean Torque for Flywheel

Work Done per Cycle for Two Stroke Engine connected to Flywheel

Go Work Done per Cycle for Engine = 2*pi*Mean Torque for Flywheel

Mean Torque of Flywheel for Four Stroke Engine Formula

Mean Torque for Flywheel = Work Done per Cycle for Engine/(4*pi)
T_m = W/(4*pi)

What is a flywheel?

A flywheel is a heavy rotating body that acts as a reservoir of energy. The energy is stored in the flywheel in the form of kinetic energy. The flywheel acts as an energy bank between the source of power and the driven machinery.

How to Calculate Mean Torque of Flywheel for Four Stroke Engine?

Mean Torque of Flywheel for Four Stroke Engine calculator uses Mean Torque for Flywheel = Work Done per Cycle for Engine/(4*pi) to calculate the Mean Torque for Flywheel, Mean Torque of Flywheel for Four Stroke Engine is defined as the average value of torque provided by the flywheel. Mean Torque for Flywheel is denoted by T_m symbol.

How to calculate Mean Torque of Flywheel for Four Stroke Engine using this online calculator? To use this online calculator for Mean Torque of Flywheel for Four Stroke Engine, enter Work Done per Cycle for Engine (W) and hit the calculate button. Here is how the Mean Torque of Flywheel for Four Stroke Engine calculation can be explained with given input values -> 3.3E+7 = 410/(4*pi).

FAQ

What is Mean Torque of Flywheel for Four Stroke Engine?

Mean Torque of Flywheel for Four Stroke Engine is defined as the average value of torque provided by the flywheel and is represented as T_m = W/(4*pi) or Mean Torque for Flywheel = Work Done per Cycle for Engine/(4*pi). Work Done per Cycle for Engine is the total amount of work that is done by the engine.

How to calculate Mean Torque of Flywheel for Four Stroke Engine?

Mean Torque of Flywheel for Four Stroke Engine is defined as the average value of torque provided by the flywheel is calculated using Mean Torque for Flywheel = Work Done per Cycle for Engine/(4*pi). To calculate Mean Torque of Flywheel for Four Stroke Engine, you need Work Done per Cycle for Engine (W). With our tool, you need to enter the respective value for Work Done per Cycle for Engine 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 Mean Torque for Flywheel?

In this formula, Mean Torque for Flywheel uses Work Done per Cycle for Engine. We can use 1 other way(s) to calculate the same, which is/are as follows -

Mean Torque for Flywheel = Work Done per Cycle for Engine/(2*pi)

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