- #1
Inda House
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I am in the process of designing a renewable energy generator, but am having difficulty with some of the math’s, so if anyone could help me out, it would be appreciated. I have never studied advanced math’s or physics before, so please describe your explanation in layman’s terms. One of the problems I have come across is as follows:
The Problem
Look at Figure 1 (Attached)
It is pivoted at C1 and C2
It is 11m long and has a radius of 1 meter
The weight of the empty semi-cylinder is 4 tonnes
The semi-cylinder is full of fine sand
The density of the fine sand is 2.0 tonnes / meter³
The angle y is 20°
How much power would it take to twist the semi-cylinder 20° in 3.5 seconds
(Assume semi-cylinder is at sea level on planet earth)
Relevant Equations
Weight of Cylinder = pie.radius²(length.density)
Force = Weight.Gravity
Work = Force.Distance
Power = Work / Time
Acceleration = Distance / time²
Force = mass.acceleration
Torque = r(Force)
Work = Angle.Torque
Power = Work / time
The Attempt
Ok here is my calculation, but I don’t know if I’m right!
I think there are three stages to this calculation
Firstly: calculate the weight of the semi cylinder
Secondly: calculate the potential energy
Thirdly: calculate the inertia energy
Semi Cylinder Filled with Fine Sand
Density Fine Sand = 2.0 tonnes / meter³
Radius = 1.00 meter
Length = 11.00 meters
Weight (Contents) = ½ π radius²(length x density)
= 0.5 x 3.14 x 1 x 11 x 2
= 34 tonnes (34000 kilograms)
Weight (empty) = 4 tonnes (4000 kilograms)
Weight (full) = 38t (38000kg)
Potential Energy Calculation
Weight displaced = Weight(y / 180)
= 38000 x 20 /180
= 4222 kg
Force = Weight x Gravity
= 4222 x 9.8
= 41376 Newtons
Distance of ‘Centre of Force’ from centre = r
= 0.7 meters (assumed)
Distance Centre of Gravity moves = pie.diameter (y / 360)r
= 3.14 x 2 x (20 / 360) x 0.7
= 0.244 meters
Work = Force x Distance
= 41376 x 0.244
= 10096 joules
Power = Work / Time
= 10096 / 3.5
= 2885 Watts
= 2.885 Kilowatts
Inertia Energy Calculation
Distance Centre of Gravity moves = pie.diameter (y / 360)r
= 3.14 x 2 x (20 / 360) x 0.7
= 0.244 meters
Acceleration = Distance / time²
= 0.244 / 3.5²
= 0.02 m/s²
Force = mass x acceleration
= 38000 x 0.02
= 760 Newtons
Dist of ‘Centre of Force’ from centre = r
= 0.7 (assumed)
Torque = r(Force)
= 0.7 x 760
= 532 NewtonMeters
= y / 57.3
= 20 / 57.3 radians
= 0.349 radians
Work = Angle(Torque)
= 0.349 x 532
= 186 joules
Power = Work / time
= 186 / 3.5
= 53 watts
= 0.053 kilowatts
Total Power = Potential + Inertia
= 2.885 + 0.053 (kW)
= 2.938 kilowatts
Any help appreciated
The Problem
Look at Figure 1 (Attached)
It is pivoted at C1 and C2
It is 11m long and has a radius of 1 meter
The weight of the empty semi-cylinder is 4 tonnes
The semi-cylinder is full of fine sand
The density of the fine sand is 2.0 tonnes / meter³
The angle y is 20°
How much power would it take to twist the semi-cylinder 20° in 3.5 seconds
(Assume semi-cylinder is at sea level on planet earth)
Relevant Equations
Weight of Cylinder = pie.radius²(length.density)
Force = Weight.Gravity
Work = Force.Distance
Power = Work / Time
Acceleration = Distance / time²
Force = mass.acceleration
Torque = r(Force)
Work = Angle.Torque
Power = Work / time
The Attempt
Ok here is my calculation, but I don’t know if I’m right!
I think there are three stages to this calculation
Firstly: calculate the weight of the semi cylinder
Secondly: calculate the potential energy
Thirdly: calculate the inertia energy
Semi Cylinder Filled with Fine Sand
Density Fine Sand = 2.0 tonnes / meter³
Radius = 1.00 meter
Length = 11.00 meters
Weight (Contents) = ½ π radius²(length x density)
= 0.5 x 3.14 x 1 x 11 x 2
= 34 tonnes (34000 kilograms)
Weight (empty) = 4 tonnes (4000 kilograms)
Weight (full) = 38t (38000kg)
Potential Energy Calculation
Weight displaced = Weight(y / 180)
= 38000 x 20 /180
= 4222 kg
Force = Weight x Gravity
= 4222 x 9.8
= 41376 Newtons
Distance of ‘Centre of Force’ from centre = r
= 0.7 meters (assumed)
Distance Centre of Gravity moves = pie.diameter (y / 360)r
= 3.14 x 2 x (20 / 360) x 0.7
= 0.244 meters
Work = Force x Distance
= 41376 x 0.244
= 10096 joules
Power = Work / Time
= 10096 / 3.5
= 2885 Watts
= 2.885 Kilowatts
Inertia Energy Calculation
Distance Centre of Gravity moves = pie.diameter (y / 360)r
= 3.14 x 2 x (20 / 360) x 0.7
= 0.244 meters
Acceleration = Distance / time²
= 0.244 / 3.5²
= 0.02 m/s²
Force = mass x acceleration
= 38000 x 0.02
= 760 Newtons
Dist of ‘Centre of Force’ from centre = r
= 0.7 (assumed)
Torque = r(Force)
= 0.7 x 760
= 532 NewtonMeters
= y / 57.3
= 20 / 57.3 radians
= 0.349 radians
Work = Angle(Torque)
= 0.349 x 532
= 186 joules
Power = Work / time
= 186 / 3.5
= 53 watts
= 0.053 kilowatts
Total Power = Potential + Inertia
= 2.885 + 0.053 (kW)
= 2.938 kilowatts
Any help appreciated
