Time during which Waste Valve Remains Closed-Hydraulic Ram Calculator

✖Length of Supply Pipe of Hydraulic Ram is the distance of the pipe that supplies fluid to the hydraulic ram in a hydraulic system.ⓘ Length of Supply Pipe of Hydraulic Ram [l_s]			+10% -10%
✖Maximum Velocity in Supply Pipe of Ram is the highest speed of fluid flowing through the supply pipe of a hydraulic ram during its operation.ⓘ Maximum Velocity in Supply Pipe of Ram [V_max]			+10% -10%
✖Height of Water in Delivery Tank is the vertical distance of water from the bottom of the tank in a hydraulic ram system.ⓘ Height of Water in Delivery Tank [H]			+10% -10%
✖Height of Water in Supply tank is the vertical distance of water level in the supply tank of a hydraulic ram system.ⓘ Height of Water in Supply tank [h]			+10% -10%

✖Time during Closure of Waste Valve of Ram is the duration for which the waste valve of a hydraulic ram remains closed during its operation.ⓘ Time during which Waste Valve Remains Closed-Hydraulic Ram [t₂]

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Time during which Waste Valve Remains Closed-Hydraulic Ram Solution

STEP 0: Pre-Calculation Summary

Formula Used

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))
t₂ = l_s*V_max/[g]*(1/(H-h))
This formula uses 1 Constants, 5 Variables

Constants Used

[g] - Gravitational acceleration on Earth Value Taken As 9.80665

Variables Used

Time during Closure of Waste Valve of Ram - (Measured in Second) - Time during Closure of Waste Valve of Ram is the duration for which the waste valve of a hydraulic ram remains closed during its operation.
Length of Supply Pipe of Hydraulic Ram - (Measured in Meter) - Length of Supply Pipe of Hydraulic Ram is the distance of the pipe that supplies fluid to the hydraulic ram in a hydraulic system.
Maximum Velocity in Supply Pipe of Ram - (Measured in Meter per Second) - Maximum Velocity in Supply Pipe of Ram is the highest speed of fluid flowing through the supply pipe of a hydraulic ram during its operation.
Height of Water in Delivery Tank - (Measured in Meter) - Height of Water in Delivery Tank is the vertical distance of water from the bottom of the tank in a hydraulic ram system.
Height of Water in Supply tank - (Measured in Meter) - Height of Water in Supply tank is the vertical distance of water level in the supply tank of a hydraulic ram system.

STEP 1: Convert Input(s) to Base Unit

Length of Supply Pipe of Hydraulic Ram: 25.7 Meter --> 25.7 Meter No Conversion Required
Maximum Velocity in Supply Pipe of Ram: 1.555488 Meter per Second --> 1.555488 Meter per Second No Conversion Required
Height of Water in Delivery Tank: 21.5 Meter --> 21.5 Meter No Conversion Required
Height of Water in Supply tank: 3.3 Meter --> 3.3 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

t₂ = l_s*V_max/[g]*(1/(H-h)) --> 25.7*1.555488/[g]*(1/(21.5-3.3))

Evaluating ... ...

t₂ = 0.223979218407693

STEP 3: Convert Result to Output's Unit

0.223979218407693 Second --> No Conversion Required

FINAL ANSWER

0.223979218407693 ≈ 0.223979 Second <-- Time during Closure of Waste Valve of 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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National Institute of Technology (NIT), Tiruchirapalli

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< Hydraulic Ram Calculators

Rankine's Efficiency of Hydraulic Ram

LaTeX 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

LaTeX 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

Rate of Discharge of Water Actually Lifted by Ram

LaTeX 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

Aubuisson's Efficiency of Hydraulic Ram

LaTeX 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)

Time during which Waste Valve Remains Closed-Hydraulic Ram Formula

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What is Waste Valve?

A waste valve is a critical component of a hydraulic ram that controls the flow of water within the system. It opens to allow water to enter the ram, and when the water reaches a certain speed, the valve closes suddenly. This closure creates a pressure surge (water hammer effect), which is essential for lifting a portion of the incoming water to a higher elevation. The waste valve then reopens, allowing the cycle to repeat. By regulating the flow and pressure, the waste valve enables the hydraulic ram to function effectively, making it essential for the pumping process.

How to Calculate Time during which Waste Valve Remains Closed-Hydraulic Ram?

Time during which Waste Valve Remains Closed-Hydraulic Ram calculator uses 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)) to calculate the Time during Closure of Waste Valve of Ram, Time during which Waste Valve Remains Closed-Hydraulic Ram formula is defined as the duration for which the waste valve remains closed in a hydraulic ram system, which is critical in hydraulic actuators and motors, as it affects the overall system's performance and efficiency. Time during Closure of Waste Valve of Ram is denoted by t₂ symbol.

How to calculate Time during which Waste Valve Remains Closed-Hydraulic Ram using this online calculator? To use this online calculator for Time during which Waste Valve Remains Closed-Hydraulic Ram, enter Length of Supply Pipe of Hydraulic Ram (l_s), Maximum Velocity in Supply Pipe of Ram (V_max), Height of Water in Delivery Tank (H) & Height of Water in Supply tank (h) and hit the calculate button. Here is how the Time during which Waste Valve Remains Closed-Hydraulic Ram calculation can be explained with given input values -> 0.223979 = 25.7*1.555488/[g]*(1/(21.5-3.3)).

FAQ

What is Time during which Waste Valve Remains Closed-Hydraulic Ram?

Time during which Waste Valve Remains Closed-Hydraulic Ram formula is defined as the duration for which the waste valve remains closed in a hydraulic ram system, which is critical in hydraulic actuators and motors, as it affects the overall system's performance and efficiency and is represented as t₂ = l_s*V_max/[g]*(1/(H-h)) or 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)). Length of Supply Pipe of Hydraulic Ram is the distance of the pipe that supplies fluid to the hydraulic ram in a hydraulic system, Maximum Velocity in Supply Pipe of Ram is the highest speed of fluid flowing through the supply pipe of a hydraulic ram during its operation, Height of Water in Delivery Tank is the vertical distance of water from the bottom of the tank in a hydraulic ram system & Height of Water in Supply tank is the vertical distance of water level in the supply tank of a hydraulic ram system.

How to calculate Time during which Waste Valve Remains Closed-Hydraulic Ram?

Time during which Waste Valve Remains Closed-Hydraulic Ram formula is defined as the duration for which the waste valve remains closed in a hydraulic ram system, which is critical in hydraulic actuators and motors, as it affects the overall system's performance and efficiency is calculated using 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)). To calculate Time during which Waste Valve Remains Closed-Hydraulic Ram, you need Length of Supply Pipe of Hydraulic Ram (l_s), Maximum Velocity in Supply Pipe of Ram (V_max), Height of Water in Delivery Tank (H) & Height of Water in Supply tank (h). With our tool, you need to enter the respective value for Length of Supply Pipe of Hydraulic Ram, Maximum Velocity in Supply Pipe of Ram, Height of Water in Delivery Tank & Height of Water in Supply tank 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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