Total Energy Stored in Differential Hydraulic Accumulator Solution

STEP 0: Pre-Calculation Summary
Formula Used
Total Energy in Hydraulic Accumulator = Total Weight on Differential Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
Etotal = Wt*L
This formula uses 3 Variables
Variables Used
Total Energy in Hydraulic Accumulator - (Measured in Joule) - Total Energy in Hydraulic Accumulator is the total amount of the energy stored in a differential hydraulic accumulator.
Total Weight on Differential Hydraulic Accumulator - (Measured in Newton) - Total Weight on Differential Hydraulic Accumulator is the total weight placed on the moving cylinder including the weight of the cylinder.
Stroke or Lift of Hydraulic Ram - (Measured in Meter) - Stroke or Lift of Hydraulic Ram is the range of movement of the piston or the ram of a hydraulic accumulator.
STEP 1: Convert Input(s) to Base Unit
Total Weight on Differential Hydraulic Accumulator: 960 Newton --> 960 Newton No Conversion Required
Stroke or Lift of Hydraulic Ram: 5.85 Meter --> 5.85 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Etotal = Wt*L --> 960*5.85
Evaluating ... ...
Etotal = 5616
STEP 3: Convert Result to Output's Unit
5616 Joule -->0.00156 Kilowatt-Hour (Check conversion here)
FINAL ANSWER
0.00156 Kilowatt-Hour <-- Total Energy in Hydraulic Accumulator
(Calculation completed in 00.004 seconds)

Credits

Created by Shareef Alex
velagapudi ramakrishna siddhartha engineering college (vr siddhartha engineering college), vijayawada
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13 Hydraulic Accumulator Calculators

Capacity of Hydraulic Accumulator
Go Capacity of Hydraulic Accumulator = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
Work Done in Lifting Ram of Hydraulic Accumulator
Go Work Done in Lifting Ram = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
Pressure Head of Water Supplied in Hydraulic Accumulator
Go Pressure Head in Hydraulic Accumulator = Pressure Intensity in Hydraulic Accumulator/(Water Density*Acceleration Due to Gravity)
Total Weight Placed on Differentail Hydraulic Ram Including Weight of Hydraulic Ram
Go Total Weight on Differential Hydraulic Accumulator = Pressure Intensity in Hydraulic Accumulator*Annular Area of Differential Hydraulic Accumulator
Annular Area of Differential Hydraulic Accumulator
Go Annular Area of Differential Hydraulic Accumulator = pi/4*(External Diameter of Bush^2-Diameter of Ram^2)
Length of Stroke given Diameter of Plunger
Go Stroke or Lift of Hydraulic Ram = (4*Volume of Hydraulic Accumulator)/(pi*Diameter of Ram^2)
Total Energy Stored in Differential Hydraulic Accumulator
Go Total Energy in Hydraulic Accumulator = Total Weight on Differential Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
Total Weight of Ram of Hydraulic Accumulator
Go Total Weight on Hydraulic Accumulator = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator
Capacity of Hydraulic Accumulator given Volume
Go Capacity of Hydraulic Accumulator = Pressure Intensity in Hydraulic Accumulator*Volume of Hydraulic Accumulator
Distance Moved by Hydraulic Ram per Second
Go Distance Moved by Ram per Second = Stroke or Lift of Hydraulic Ram/Time Taken by Hydraulic Ram for One Stroke
Length of Stroke in Hydraulic Accumulator
Go Stroke or Lift of Hydraulic Ram = Volume of Hydraulic Accumulator/Area of Ram of Hydraulic Accumulator
Volume of Hydraulic Accumulator
Go Volume of Hydraulic Accumulator = Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
Work Supplied by Hydraulic Accumulator
Go Work Done in Lifting Ram = Total Weight on Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram

Total Energy Stored in Differential Hydraulic Accumulator Formula

Total Energy in Hydraulic Accumulator = Total Weight on Differential Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
Etotal = Wt*L

What is differential hydraulic accumulator ?

This device consists of a fixed vertical cylinder (also called the plunger) provided with a central vertical cavity of small diameter. The fixed plunger is encased by a brass bush or sleeve. The sleeve is encased by a sliding inverted cylinder which can be loaded.

What is the purpose of a hydraulic accumulator?

A hydraulic accumulator is a pressure vessel that performs many tasks in a hydraulic system. They are used to maintain pressure, store and recapture energy, reduce pressure peaks, power chassis suspensions, and dampen shock, vibration and pulsations.

How to Calculate Total Energy Stored in Differential Hydraulic Accumulator?

Total Energy Stored in Differential Hydraulic Accumulator calculator uses Total Energy in Hydraulic Accumulator = Total Weight on Differential Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram to calculate the Total Energy in Hydraulic Accumulator, The Total energy stored in differential hydraulic accumulator formula is defined as the product of total energy and vertical lift of ram. Total Energy in Hydraulic Accumulator is denoted by Etotal symbol.

How to calculate Total Energy Stored in Differential Hydraulic Accumulator using this online calculator? To use this online calculator for Total Energy Stored in Differential Hydraulic Accumulator, enter Total Weight on Differential Hydraulic Accumulator (Wt) & Stroke or Lift of Hydraulic Ram (L) and hit the calculate button. Here is how the Total Energy Stored in Differential Hydraulic Accumulator calculation can be explained with given input values -> 4.3E-10 = 960*5.85.

FAQ

What is Total Energy Stored in Differential Hydraulic Accumulator?
The Total energy stored in differential hydraulic accumulator formula is defined as the product of total energy and vertical lift of ram and is represented as Etotal = Wt*L or Total Energy in Hydraulic Accumulator = Total Weight on Differential Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram. Total Weight on Differential Hydraulic Accumulator is the total weight placed on the moving cylinder including the weight of the cylinder & Stroke or Lift of Hydraulic Ram is the range of movement of the piston or the ram of a hydraulic accumulator.
How to calculate Total Energy Stored in Differential Hydraulic Accumulator?
The Total energy stored in differential hydraulic accumulator formula is defined as the product of total energy and vertical lift of ram is calculated using Total Energy in Hydraulic Accumulator = Total Weight on Differential Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram. To calculate Total Energy Stored in Differential Hydraulic Accumulator, you need Total Weight on Differential Hydraulic Accumulator (Wt) & Stroke or Lift of Hydraulic Ram (L). With our tool, you need to enter the respective value for Total Weight on Differential Hydraulic Accumulator & Stroke or Lift of Hydraulic Ram 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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