Energy Delivered by Hydraulic Ram Solution

STEP 0: Pre-Calculation Summary
Formula Used
Energy Delivered by Hydraulic Ram = Weight of Water Raised per Second*Height through which Water Raised
Ed = wr*Hr
This formula uses 3 Variables
Variables Used
Energy Delivered by Hydraulic Ram - (Measured in Joule) - Energy Delivered by hydraulic ram is defined as the energy given by the ram to the fluid to raise it to a certain height.
Weight of Water Raised per Second - (Measured in Newton) - Weight of Water Raised per Second in hydraulic ram is the weight of the water that is raised by the hydraulic ram per second.
Height through which Water Raised - (Measured in Meter) - Height through which Water Raised is defined as the column or section in the hydraulic ram in which the level of supply water raised up to vertain height.
STEP 1: Convert Input(s) to Base Unit
Weight of Water Raised per Second: 8740 Newton --> 8740 Newton No Conversion Required
Height through which Water Raised: 0.5 Meter --> 0.5 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ed = wr*Hr --> 8740*0.5
Evaluating ... ...
Ed = 4370
STEP 3: Convert Result to Output's Unit
4370 Joule --> No Conversion Required
FINAL ANSWER
4370 Joule <-- Energy Delivered by Hydraulic Ram
(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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National Institute Of Technology (NIT), Hamirpur
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13 Hydraulic Ram Calculators

Total Time for One Cycle of Hydraulic Ram
Go Total Time for One Cycle of Ram = Length of Supply Pipe of Hydraulic Ram*Maximum Velocity in Supply Pipe of Ram/[g]*(1/Height of Water in Supply tank+1/(Height of Water in Delivery Tank-Height of Water in Supply tank))
Rankine's Efficiency of Hydraulic Ram
Go Rankine's Efficiency = (Discharge from Valve Box*(Height of Water in Delivery Tank-Height of Water in Supply tank))/(Height of Water in Supply tank*(Discharge from Supply Tank-Discharge from Valve Box))
Rate of Discharge of Water Flowing Past Waste Valve
Go Discharge of Water Flowing Past Waste Valve = pi/4*Diameter of Supply Pipe in Ram^2*Maximum Velocity in Supply Pipe of Ram/2*Time to Build Maximum Velocity in Supply Pipe/Total Time for One Cycle of Ram
Time during which Waste Valve Remains Closed-Hydraulic Ram
Go Time during Closure of Waste Valve of Ram = Length of Supply Pipe of Hydraulic Ram*Maximum Velocity in Supply Pipe of Ram/[g]*(1/(Height of Water in Delivery Tank-Height of Water in Supply tank))
Rate of Discharge of Water Actually Lifted by Ram
Go Discharge of Water Lifted by Ram = pi/4*Diameter of Supply Pipe in Ram^2*Maximum Velocity in Supply Pipe of Ram/2*Time during Closure of Waste Valve of Ram/Total Time for One Cycle of Ram
Time during which Velocity in Supply Pipe Builds up from Zero to Vmax-Hydraulic Ram
Go Time to Build Maximum Velocity in Supply Pipe = (Length of Supply Pipe of Hydraulic Ram*Maximum Velocity in Supply Pipe of Ram)/(Height of Water in Supply tank*[g])
Efficiency of Hydraulic Ram given Weight and Height
Go D’ Aubuisson’s Efficiency = (Weight of Water Raised per Second*Height through which Water Raised)/(Weight of Water Flowing per Second*Height of Water in Supply tank)
Aubuisson's Efficiency of Hydraulic Ram
Go D’ Aubuisson’s Efficiency = (Discharge from Valve Box*Height of Water in Delivery Tank)/(Discharge from Supply Tank*Height of Water in Supply tank)
Dynamic Pressure Head of Hydraulic Ram
Go Dynamic Pressure Head on Waste Valve = (4*Weight of Waste Valve)/(Specific Weight of Water*pi*Diameter of Waste Valve^2)
Maximum Velocity Past Waste Valve Just before Closure
Go Maximum Velocity in Supply Pipe of Ram = sqrt(2*Acceleration due to Gravity*Dynamic Pressure Head on Waste Valve)
Energy Delivered by Hydraulic Ram
Go Energy Delivered by Hydraulic Ram = Weight of Water Raised per Second*Height through which Water Raised
Energy Supplied by Supply Tank to Hydraulic Ram
Go Energy Supplied to Hydraulic Ram = Weight of Water Flowing per Second*Height of Water in Supply tank
Efficiency of Hydraulic Ram
Go D’ Aubuisson’s Efficiency = Energy Delivered by Hydraulic Ram/Energy Supplied to Hydraulic Ram

Energy Delivered by Hydraulic Ram Formula

Energy Delivered by Hydraulic Ram = Weight of Water Raised per Second*Height through which Water Raised
Ed = wr*Hr

What does a hydraulic ram do?

A hydraulic ram is a cyclic water pump powered by hydropower. It takes in water at one "hydraulic head" (pressure) and flow rate, and outputs water at a higher hydraulic head and lower flow rate.

What is energy of flowing liquid?

Total energy of a liquid : A liquid in motion possesses pressure energy, kinetic energy and potential energy. A liquid in motion possesses pressure energy, kinetic energy and potential energy. It is the energy possessed by a liquid by virtue of its pressure.

How to Calculate Energy Delivered by Hydraulic Ram?

Energy Delivered by Hydraulic Ram calculator uses Energy Delivered by Hydraulic Ram = Weight of Water Raised per Second*Height through which Water Raised to calculate the Energy Delivered by Hydraulic Ram, The Energy delivered by hydraulic ram formula is defined as the product of weight of water raised to the height of water raised. Energy Delivered by Hydraulic Ram is denoted by Ed symbol.

How to calculate Energy Delivered by Hydraulic Ram using this online calculator? To use this online calculator for Energy Delivered by Hydraulic Ram, enter Weight of Water Raised per Second (wr) & Height through which Water Raised (Hr) and hit the calculate button. Here is how the Energy Delivered by Hydraulic Ram calculation can be explained with given input values -> 4370 = 8740*0.5.

FAQ

What is Energy Delivered by Hydraulic Ram?
The Energy delivered by hydraulic ram formula is defined as the product of weight of water raised to the height of water raised and is represented as Ed = wr*Hr or Energy Delivered by Hydraulic Ram = Weight of Water Raised per Second*Height through which Water Raised. Weight of Water Raised per Second in hydraulic ram is the weight of the water that is raised by the hydraulic ram per second & Height through which Water Raised is defined as the column or section in the hydraulic ram in which the level of supply water raised up to vertain height.
How to calculate Energy Delivered by Hydraulic Ram?
The Energy delivered by hydraulic ram formula is defined as the product of weight of water raised to the height of water raised is calculated using Energy Delivered by Hydraulic Ram = Weight of Water Raised per Second*Height through which Water Raised. To calculate Energy Delivered by Hydraulic Ram, you need Weight of Water Raised per Second (wr) & Height through which Water Raised (Hr). With our tool, you need to enter the respective value for Weight of Water Raised per Second & Height through which Water Raised 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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