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Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump Calculator

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Vacuum at the Pump entrance expressed as Head of water.Vacuum at the Pump entrance [p*]
+10%
-10%
Depth of the Suction Pipe Entrance whose function of suction piping is to supply an evenly distributed flow of water to the pump suction.Depth of the Suction Pipe Entrance [Zs]
+10%
-10%
Specific Weight of Water is the weight per unit volume of water.Specific Weight of Water [yw]
+10%
-10%
Specific Weight of the Mixture in the Suction Pipe.Specific Weight of the Mixture [γm]
+10%
-10%
Depth of Submergence of the Pump, A submersible pump pushes water to the surface by converting rotary energy into kinetic energy into pressure energy.Depth of Submergence of the Pump [Zp]
+10%
-10%
Flow Velocity in the Suction Pipe is a measure of speed of the flow through a suction pipe.Flow Velocity in the Suction Pipe [Vs]
+10%
-10%
Hydraulic Loss Coefficient from Suction Pipe entrance to pump.Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump [f]
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Formula

Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump

Formula
`"f" = ((("p"_{"*"}+"Zs")*"y"_{"w"}/"γ"_{"m"})-"Zs"+"Z"_{"p"})/("Vs"^2/2*"[g]")`

Example
`"0.02126"=((("2.1m"+"6m")*"9.807kN/m³"/"10kN/m³")-"6m"+"6.5m")/(("9m/s")^2/2*"[g]")`

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Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump Solution

STEP 0: Pre-Calculation Summary
Formula Used
Hydraulic Loss Coefficient = (((Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/Specific Weight of the Mixture)-Depth of the Suction Pipe Entrance+Depth of Submergence of the Pump)/(Flow Velocity in the Suction Pipe^2/2*[g])
f = (((p*+Zs)*yw/γm)-Zs+Zp)/(Vs^2/2*[g])
This formula uses 1 Constants, 7 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Variables Used
Hydraulic Loss Coefficient - Hydraulic Loss Coefficient from Suction Pipe entrance to pump.
Vacuum at the Pump entrance - (Measured in Meter) - Vacuum at the Pump entrance expressed as Head of water.
Depth of the Suction Pipe Entrance - (Measured in Meter) - Depth of the Suction Pipe Entrance whose function of suction piping is to supply an evenly distributed flow of water to the pump suction.
Specific Weight of Water - (Measured in Newton per Cubic Meter) - Specific Weight of Water is the weight per unit volume of water.
Specific Weight of the Mixture - (Measured in Newton per Cubic Meter) - Specific Weight of the Mixture in the Suction Pipe.
Depth of Submergence of the Pump - (Measured in Meter) - Depth of Submergence of the Pump, A submersible pump pushes water to the surface by converting rotary energy into kinetic energy into pressure energy.
Flow Velocity in the Suction Pipe - (Measured in Meter per Second) - Flow Velocity in the Suction Pipe is a measure of speed of the flow through a suction pipe.
STEP 1: Convert Input(s) to Base Unit
Vacuum at the Pump entrance: 2.1 Meter --> 2.1 Meter No Conversion Required
Depth of the Suction Pipe Entrance: 6 Meter --> 6 Meter No Conversion Required
Specific Weight of Water: 9.807 Kilonewton per Cubic Meter --> 9807 Newton per Cubic Meter (Check conversion here)
Specific Weight of the Mixture: 10 Kilonewton per Cubic Meter --> 10000 Newton per Cubic Meter (Check conversion here)
Depth of Submergence of the Pump: 6.5 Meter --> 6.5 Meter No Conversion Required
Flow Velocity in the Suction Pipe: 9 Meter per Second --> 9 Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
f = (((p*+Zs)*ywm)-Zs+Zp)/(Vs^2/2*[g]) --> (((2.1+6)*9807/10000)-6+6.5)/(9^2/2*[g])
Evaluating ... ...
f = 0.0212596227062601
STEP 3: Convert Result to Output's Unit
0.0212596227062601 --> No Conversion Required
FINAL ANSWER
0.0212596227062601 0.02126 <-- Hydraulic Loss Coefficient
(Calculation completed in 00.020 seconds)
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Home » Engineering » Civil » Coastal and Ocean Engineering » Dredging Equipment » Plain Suction Dredge » Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump

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Created by Mithila Muthamma PA
Coorg Institute of Technology (CIT), Coorg
Mithila Muthamma PA has created this Calculator and 2000+ more calculators!
Verified by M Naveen
National Institute of Technology (NIT), Warangal
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9 Plain Suction Dredge Calculators

Flow Velocity in Suction Pipe
Go Flow Velocity in the Suction Pipe = sqrt((((Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/Specific Weight of the Mixture)-Depth of the Suction Pipe Entrance+Depth of Submergence of the Pump)*(2*[g])/Fetch Length)
Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump
Go Hydraulic Loss Coefficient = (((Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/Specific Weight of the Mixture)-Depth of the Suction Pipe Entrance+Depth of Submergence of the Pump)/(Flow Velocity in the Suction Pipe^2/2*[g])
Specific Weight of Water in Suction Pipe
Go Specific Weight of Water = ((Depth of the Suction Pipe Entrance-Depth of Submergence of the Pump+(Hydraulic Loss Coefficient*Flow Velocity in the Suction Pipe^2/2*[g]))*Specific Weight of the Mixture)/(Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)
Vacuum at Pump Entrance Expressed as Head of Water
Go Vacuum at the Pump entrance = ((Depth of the Suction Pipe Entrance-Depth of Submergence of the Pump+(Hydraulic Loss Coefficient*Flow Velocity in the Suction Pipe^2/2*[g])*Specific Weight of the Mixture)/Specific Weight of Water)-Depth of the Suction Pipe Entrance
Specific Weight of Mixture in Suction Pipe
Go Specific Weight of the Mixture = (Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/(Depth of the Suction Pipe Entrance-Depth of Submergence of the Pump+(Hydraulic Loss Coefficient*Flow Velocity in the Suction Pipe^2/2*[g]))
Specific Weight of Mixture in Suction Pipe for Concentration of Soil in Volumetric Basis
Go Specific Weight of the Mixture = Concentration of Soil in the Mixture*Specific Weight of Dry Sand Grains+(1-Concentration of Soil in the Mixture)*Specific Weight of Water
Specific Weight of Dry Sand Grains for Concentration of Soil in Volumetric Basis
Go Specific Weight of Dry Sand Grains = ((Specific Weight of the Mixture-Specific Weight of Water)/Concentration of Soil in the Mixture)+Specific Weight of Water
Concentration of Soil in Volumetric Basis
Go Concentration of Soil in the Mixture = (Specific Weight of the Mixture-Specific Weight of Water)/(Specific Weight of Dry Sand Grains-Specific Weight of Water)
Specific Weight of Mixture for Concentration of Soil in Volumetric Basis
Go Specific Weight of the Mixture = Concentration of Soil in the Mixture*(Specific Weight of Dry Sand Grains-Specific Weight of Water)+Specific Weight of Water

Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump Formula

Hydraulic Loss Coefficient = (((Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/Specific Weight of the Mixture)-Depth of the Suction Pipe Entrance+Depth of Submergence of the Pump)/(Flow Velocity in the Suction Pipe^2/2*[g])
f = (((p*+Zs)*yw/γm)-Zs+Zp)/(Vs^2/2*[g])

What is Suction Dredger?

A Suction Dredger is a stationary dredger normally used for mining sand. The suction pipe of this dredger is inserted into the sand deposit and water jets are used to bring the sand up from the excavation site.

What is the difference between Volumetric and Gravimetric Water Content?

Gravimetric water content is the weight of soil water contained in a unit weight of soil (kg water/kg dry soil).
Likewise, volumetric water content is a volume fraction (m3 water/m3 soil).

How to Calculate Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump?

Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump calculator uses Hydraulic Loss Coefficient = (((Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/Specific Weight of the Mixture)-Depth of the Suction Pipe Entrance+Depth of Submergence of the Pump)/(Flow Velocity in the Suction Pipe^2/2*[g]) to calculate the Hydraulic Loss Coefficient, The Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump formula is defined as a dimensionless number (characteristic coefficient) to calculate the head loss (HL) (see Pressure loss): v Characteristic flow velocity in the relevant hydraulic component (usually the flow velocity in the. cross-section of the connection downstream of the component). Hydraulic Loss Coefficient is denoted by f symbol.

How to calculate Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump using this online calculator? To use this online calculator for Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump, enter Vacuum at the Pump entrance (p*), Depth of the Suction Pipe Entrance (Zs), Specific Weight of Water (yw), Specific Weight of the Mixture m), Depth of Submergence of the Pump (Zp) & Flow Velocity in the Suction Pipe (Vs) and hit the calculate button. Here is how the Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump calculation can be explained with given input values -> 0.02126 = (((2.1+6)*9807/10000)-6+6.5)/(9^2/2*[g]).

FAQ

What is Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump?
The Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump formula is defined as a dimensionless number (characteristic coefficient) to calculate the head loss (HL) (see Pressure loss): v Characteristic flow velocity in the relevant hydraulic component (usually the flow velocity in the. cross-section of the connection downstream of the component) and is represented as f = (((p*+Zs)*ywm)-Zs+Zp)/(Vs^2/2*[g]) or Hydraulic Loss Coefficient = (((Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/Specific Weight of the Mixture)-Depth of the Suction Pipe Entrance+Depth of Submergence of the Pump)/(Flow Velocity in the Suction Pipe^2/2*[g]). Vacuum at the Pump entrance expressed as Head of water, Depth of the Suction Pipe Entrance whose function of suction piping is to supply an evenly distributed flow of water to the pump suction, Specific Weight of Water is the weight per unit volume of water, Specific Weight of the Mixture in the Suction Pipe, Depth of Submergence of the Pump, A submersible pump pushes water to the surface by converting rotary energy into kinetic energy into pressure energy & Flow Velocity in the Suction Pipe is a measure of speed of the flow through a suction pipe.
How to calculate Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump?
The Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump formula is defined as a dimensionless number (characteristic coefficient) to calculate the head loss (HL) (see Pressure loss): v Characteristic flow velocity in the relevant hydraulic component (usually the flow velocity in the. cross-section of the connection downstream of the component) is calculated using Hydraulic Loss Coefficient = (((Vacuum at the Pump entrance+Depth of the Suction Pipe Entrance)*Specific Weight of Water/Specific Weight of the Mixture)-Depth of the Suction Pipe Entrance+Depth of Submergence of the Pump)/(Flow Velocity in the Suction Pipe^2/2*[g]). To calculate Hydraulic Loss Coefficient from Suction Pipe Entrance to Pump, you need Vacuum at the Pump entrance (p*), Depth of the Suction Pipe Entrance (Zs), Specific Weight of Water (yw), Specific Weight of the Mixture m), Depth of Submergence of the Pump (Zp) & Flow Velocity in the Suction Pipe (Vs). With our tool, you need to enter the respective value for Vacuum at the Pump entrance, Depth of the Suction Pipe Entrance, Specific Weight of Water, Specific Weight of the Mixture, Depth of Submergence of the Pump & Flow Velocity in the Suction Pipe 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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