Work Done in Lifting Ram of Hydraulic Accumulator Calculator

✖Pressure Intensity in Hydraulic Accumulator is the force exerted per unit area by a fluid in a hydraulic accumulator, affecting the system's overall performance.ⓘ Pressure Intensity in Hydraulic Accumulator [P_ha]			+10% -10%
✖Area of Ram of Hydraulic Accumulator is the surface area of the ram in a hydraulic accumulator, which affects the overall performance and efficiency of the system.ⓘ Area of Ram of Hydraulic Accumulator [A_rha]			+10% -10%
✖Stroke or Lift of Hydraulic Ram is the vertical distance by which the ram moves up and down in a hydraulic system to transfer energy.ⓘ Stroke or Lift of Hydraulic Ram [L]			+10% -10%

✖Work Done in Lifting Ram is the energy transferred to an object when a force is applied to lift a ram in a hydraulic system.ⓘ Work Done in Lifting Ram of Hydraulic Accumulator [W]

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Work Done in Lifting Ram of Hydraulic Accumulator Solution

STEP 0: Pre-Calculation Summary

Formula Used

Work Done in Lifting Ram = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
W = P_ha*A_rha*L
This formula uses 4 Variables

Variables Used

Work Done in Lifting Ram - (Measured in Joule) - Work Done in Lifting Ram is the energy transferred to an object when a force is applied to lift a ram in a hydraulic system.
Pressure Intensity in Hydraulic Accumulator - (Measured in Pascal) - Pressure Intensity in Hydraulic Accumulator is the force exerted per unit area by a fluid in a hydraulic accumulator, affecting the system's overall performance.
Area of Ram of Hydraulic Accumulator - (Measured in Square Meter) - Area of Ram of Hydraulic Accumulator is the surface area of the ram in a hydraulic accumulator, which affects the overall performance and efficiency of the system.
Stroke or Lift of Hydraulic Ram - (Measured in Meter) - Stroke or Lift of Hydraulic Ram is the vertical distance by which the ram moves up and down in a hydraulic system to transfer energy.

STEP 1: Convert Input(s) to Base Unit

Pressure Intensity in Hydraulic Accumulator: 420000 Newton per Square Meter --> 420000 Pascal (Check conversion here)
Area of Ram of Hydraulic Accumulator: 0.0154 Square Meter --> 0.0154 Square Meter 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

W = P_ha*A_rha*L --> 420000*0.0154*5.85

Evaluating ... ...

W = 37837.8

STEP 3: Convert Result to Output's Unit

37837.8 Joule -->0.0105105 Kilowatt-Hour (Check conversion here)

FINAL ANSWER

0.0105105 ≈ 0.01051 Kilowatt-Hour <-- Work Done in Lifting Ram

(Calculation completed in 00.004 seconds)

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Created by Sagar S Kulkarni

Dayananda Sagar College of Engineering (DSCE), Bengaluru

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< Hydraulic Accumulator Calculators

Capacity of Hydraulic Accumulator

LaTeX 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

LaTeX Go Work Done in Lifting Ram = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram

Annular Area of Differential Hydraulic Accumulator

LaTeX Go Annular Area of Differential Hydraulic Accumulator = pi/4*(External Diameter of Bush^2-Diameter of Ram^2)

Total Weight of Ram of Hydraulic Accumulator

LaTeX Go Total Weight on Hydraulic Accumulator = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator

Work Done in Lifting Ram of Hydraulic Accumulator Formula

LaTeX Go

Work Done in Lifting Ram = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram
W = P_ha*A_rha*L

How do Hydraulic Ram Work?

A hydraulic ram operates by harnessing the kinetic energy of flowing water to pump a portion of that water to a higher elevation without requiring external power. Initially, water flows into the ram through a drive pipe, gaining velocity as it approaches the device. Once the water reaches a specific speed, the waste valve closes suddenly, creating a pressure surge due to the water hammer effect. This surge forces a portion of the incoming water into the delivery pipe, lifting it to a higher elevation. After the pressure equalizes, the waste valve reopens, allowing more water to enter, and the cycle repeats. This efficient process enables the hydraulic ram to continuously pump water, making it suitable for applications like irrigation and remote water supply systems.

How to Calculate Work Done in Lifting Ram of Hydraulic Accumulator?

Work Done in Lifting Ram of Hydraulic Accumulator calculator uses Work Done in Lifting Ram = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram to calculate the Work Done in Lifting Ram, Work Done in Lifting Ram of Hydraulic Accumulator formula is defined as the energy transferred in lifting the ram of a hydraulic accumulator, which is a critical component in hydraulic systems, and is essential in understanding the overall performance and efficiency of the system. Work Done in Lifting Ram is denoted by W symbol.

How to calculate Work Done in Lifting Ram of Hydraulic Accumulator using this online calculator? To use this online calculator for Work Done in Lifting Ram of Hydraulic Accumulator, enter Pressure Intensity in Hydraulic Accumulator (P_ha), Area of Ram of Hydraulic Accumulator (A_rha) & Stroke or Lift of Hydraulic Ram (L) and hit the calculate button. Here is how the Work Done in Lifting Ram of Hydraulic Accumulator calculation can be explained with given input values -> 2.9E-9 = 420000*0.0154*5.85.

FAQ

What is Work Done in Lifting Ram of Hydraulic Accumulator?

Work Done in Lifting Ram of Hydraulic Accumulator formula is defined as the energy transferred in lifting the ram of a hydraulic accumulator, which is a critical component in hydraulic systems, and is essential in understanding the overall performance and efficiency of the system and is represented as W = P_ha*A_rha*L or Work Done in Lifting Ram = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram. Pressure Intensity in Hydraulic Accumulator is the force exerted per unit area by a fluid in a hydraulic accumulator, affecting the system's overall performance, Area of Ram of Hydraulic Accumulator is the surface area of the ram in a hydraulic accumulator, which affects the overall performance and efficiency of the system & Stroke or Lift of Hydraulic Ram is the vertical distance by which the ram moves up and down in a hydraulic system to transfer energy.

How to calculate Work Done in Lifting Ram of Hydraulic Accumulator?

Work Done in Lifting Ram of Hydraulic Accumulator formula is defined as the energy transferred in lifting the ram of a hydraulic accumulator, which is a critical component in hydraulic systems, and is essential in understanding the overall performance and efficiency of the system is calculated using Work Done in Lifting Ram = Pressure Intensity in Hydraulic Accumulator*Area of Ram of Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram. To calculate Work Done in Lifting Ram of Hydraulic Accumulator, you need Pressure Intensity in Hydraulic Accumulator (P_ha), Area of Ram of Hydraulic Accumulator (A_rha) & Stroke or Lift of Hydraulic Ram (L). With our tool, you need to enter the respective value for Pressure Intensity in Hydraulic Accumulator, Area of Ram of 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.

How many ways are there to calculate Work Done in Lifting Ram?

In this formula, Work Done in Lifting Ram uses Pressure Intensity in Hydraulic Accumulator, Area of Ram of Hydraulic Accumulator & Stroke or Lift of Hydraulic Ram. We can use 1 other way(s) to calculate the same, which is/are as follows -

Work Done in Lifting Ram = Total Weight on Hydraulic Accumulator*Stroke or Lift of Hydraulic Ram

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