Energy Consumption at Axle of Train Solution

STEP 0: Pre-Calculation Summary
Formula Used
Energy Consumption at Axle of Train = 0.01072*(Crest Speed^2/Distance Travelled by Train)*(Accelerating Weight of Train/Weight of Train)+0.2778*Specific Resistance Train*(Diameter of Pinion 1/Distance Travelled by Train)
EA = 0.01072*(Vm^2/D)*(We/W)+0.2778*Rsp*(d1/D)
This formula uses 7 Variables
Variables Used
Energy Consumption at Axle of Train - (Measured in Joule) - The energy consumption at axle of train refers to the amount of energy required to power the locomotive and move the train forward through the rotation of its wheels.
Crest Speed - (Measured in Meter per Second) - Crest Speed is the maximum speed attained by the train during the run.
Distance Travelled by Train - (Measured in Meter) - Distance Travelled by Train is the total length or distance covered by the train during travel in km.
Accelerating Weight of Train - (Measured in Kilogram) - Accelerating Weight of Train is the effective weight of train that has angular acceleration due to the rotational inertia including the dead weight of the train.
Weight of Train - (Measured in Kilogram) - Weight of Train is total weight of the train in tonns.
Specific Resistance Train - Specific Resistance Train is defined in terms of force required to encounter resistance arising due to vehicle, track, grade, curve, acceleration, wind at different time and place etc.
Diameter of Pinion 1 - (Measured in Meter) - The Diameter of Pinion 1 is known as when two gears run together, the one with the smaller number of teeth is called the pinion and its diameter is pinion diameter.
STEP 1: Convert Input(s) to Base Unit
Crest Speed: 98.35 Kilometer per Hour --> 27.3194444444444 Meter per Second (Check conversion ​here)
Distance Travelled by Train: 258 Kilometer --> 258000 Meter (Check conversion ​here)
Accelerating Weight of Train: 33000 Ton (Assay) (US) --> 962.500110009752 Kilogram (Check conversion ​here)
Weight of Train: 30000 Ton (Assay) (US) --> 875.000100008866 Kilogram (Check conversion ​here)
Specific Resistance Train: 9.2 --> No Conversion Required
Diameter of Pinion 1: 0.125 Meter --> 0.125 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
EA = 0.01072*(Vm^2/D)*(We/W)+0.2778*Rsp*(d1/D) --> 0.01072*(27.3194444444444^2/258000)*(962.500110009752/875.000100008866)+0.2778*9.2*(0.125/258000)
Evaluating ... ...
EA = 3.53505942315053E-05
STEP 3: Convert Result to Output's Unit
3.53505942315053E-05 Joule -->9.81960950875147E-09 Watt-Hour (Check conversion ​here)
FINAL ANSWER
9.81960950875147E-09 9.8E-9 Watt-Hour <-- Energy Consumption at Axle of Train
(Calculation completed in 00.020 seconds)

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Created by Prahalad Singh
Jaipur Engineering College and Research Centre (JECRC), Jaipur
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Power and Energy Calculators

Energy Consumption at Axle of Train
​ LaTeX ​ Go Energy Consumption at Axle of Train = 0.01072*(Crest Speed^2/Distance Travelled by Train)*(Accelerating Weight of Train/Weight of Train)+0.2778*Specific Resistance Train*(Diameter of Pinion 1/Distance Travelled by Train)
Energy Available during Regeneration
​ LaTeX ​ Go Energy Consumption during Regeneration = 0.01072*(Accelerating Weight of Train/Weight of Train)*(Final Velocity^2-Initial Velocity^2)
Specific Energy Consumption
​ LaTeX ​ Go Specific Energy Consumption = Energy required by Train/(Weight of Train*Distance Travelled by Train)
Power Output of Motor using Efficiency of Gear Transmission
​ LaTeX ​ Go Power Output Train = (Tractive Effort*Velocity)/(3600*Gear Efficiency)

Energy Consumption at Axle of Train Formula

​LaTeX ​Go
Energy Consumption at Axle of Train = 0.01072*(Crest Speed^2/Distance Travelled by Train)*(Accelerating Weight of Train/Weight of Train)+0.2778*Specific Resistance Train*(Diameter of Pinion 1/Distance Travelled by Train)
EA = 0.01072*(Vm^2/D)*(We/W)+0.2778*Rsp*(d1/D)

What is axle?

n axle or axletree is a central shaft for a rotating wheel or gear. On wheeled vehicles, the axle may be fixed to the wheels, rotating with them, or fixed to the vehicle, with the wheels rotating around the axle. In the former case, bearings or bushings are provided at the mounting points where the axle is supported.

How to Calculate Energy Consumption at Axle of Train?

Energy Consumption at Axle of Train calculator uses Energy Consumption at Axle of Train = 0.01072*(Crest Speed^2/Distance Travelled by Train)*(Accelerating Weight of Train/Weight of Train)+0.2778*Specific Resistance Train*(Diameter of Pinion 1/Distance Travelled by Train) to calculate the Energy Consumption at Axle of Train, The energy consumption at axle of train is the amount of energy in kW hour which is consumed during traveling by the axle of the wheel of the train. Energy Consumption at Axle of Train is denoted by EA symbol.

How to calculate Energy Consumption at Axle of Train using this online calculator? To use this online calculator for Energy Consumption at Axle of Train, enter Crest Speed (Vm), Distance Travelled by Train (D), Accelerating Weight of Train (We), Weight of Train (W), Specific Resistance Train (Rsp) & Diameter of Pinion 1 (d1) and hit the calculate button. Here is how the Energy Consumption at Axle of Train calculation can be explained with given input values -> 2.7E-12 = 0.01072*(27.3194444444444^2/258000)*(962.500110009752/875.000100008866)+0.2778*9.2*(0.125/258000).

FAQ

What is Energy Consumption at Axle of Train?
The energy consumption at axle of train is the amount of energy in kW hour which is consumed during traveling by the axle of the wheel of the train and is represented as EA = 0.01072*(Vm^2/D)*(We/W)+0.2778*Rsp*(d1/D) or Energy Consumption at Axle of Train = 0.01072*(Crest Speed^2/Distance Travelled by Train)*(Accelerating Weight of Train/Weight of Train)+0.2778*Specific Resistance Train*(Diameter of Pinion 1/Distance Travelled by Train). Crest Speed is the maximum speed attained by the train during the run, Distance Travelled by Train is the total length or distance covered by the train during travel in km, Accelerating Weight of Train is the effective weight of train that has angular acceleration due to the rotational inertia including the dead weight of the train, Weight of Train is total weight of the train in tonns, Specific Resistance Train is defined in terms of force required to encounter resistance arising due to vehicle, track, grade, curve, acceleration, wind at different time and place etc & The Diameter of Pinion 1 is known as when two gears run together, the one with the smaller number of teeth is called the pinion and its diameter is pinion diameter.
How to calculate Energy Consumption at Axle of Train?
The energy consumption at axle of train is the amount of energy in kW hour which is consumed during traveling by the axle of the wheel of the train is calculated using Energy Consumption at Axle of Train = 0.01072*(Crest Speed^2/Distance Travelled by Train)*(Accelerating Weight of Train/Weight of Train)+0.2778*Specific Resistance Train*(Diameter of Pinion 1/Distance Travelled by Train). To calculate Energy Consumption at Axle of Train, you need Crest Speed (Vm), Distance Travelled by Train (D), Accelerating Weight of Train (We), Weight of Train (W), Specific Resistance Train (Rsp) & Diameter of Pinion 1 (d1). With our tool, you need to enter the respective value for Crest Speed, Distance Travelled by Train, Accelerating Weight of Train, Weight of Train, Specific Resistance Train & Diameter of Pinion 1 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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