Entrance Loss Coefficient given Velocity of Flow Fields Solution

STEP 0: Pre-Calculation Summary
Formula Used
Entrance Loss Coefficient = 1-((Head Loss of Friction-(((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333))/(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g])))
Ke = 1-((Hf-(((vm*n)^2)*l)/(2.21*rh^1.33333))/(vm*vm/(2*[g])))
This formula uses 1 Constants, 6 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Variables Used
Entrance Loss Coefficient - Entrance Loss Coefficient is defined as the amount of head lost at entrance.
Head Loss of Friction - (Measured in Meter) - Head Loss of Friction is a measure of the reduction in the total head (sum of elevation head, velocity head and pressure head) of the fluid as it moves through a fluid system.
Mean Velocity of Culverts - (Measured in Meter per Second) - Mean Velocity of Culverts is defined as the average velocity of a fluid at a point and over an arbitrary time T.
Manning’s Roughness Coefficient - Manning’s Roughness Coefficient represents the roughness or friction applied to the flow by the channel.
Length of Culverts - (Measured in Meter) - Length of Culverts is the measurement or extent of culverts from end to end.
Hydraulic Radius of Channel - (Measured in Meter) - Hydraulic Radius of Channel is the ratio of the cross-sectional area of a channel or pipe in which a fluid is flowing to the wet perimeter of the conduit.
STEP 1: Convert Input(s) to Base Unit
Head Loss of Friction: 0.8027 Meter --> 0.8027 Meter No Conversion Required
Mean Velocity of Culverts: 10 Meter per Second --> 10 Meter per Second No Conversion Required
Manning’s Roughness Coefficient: 0.012 --> No Conversion Required
Length of Culverts: 3 Meter --> 3 Meter No Conversion Required
Hydraulic Radius of Channel: 0.609 Meter --> 0.609 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ke = 1-((Hf-(((vm*n)^2)*l)/(2.21*rh^1.33333))/(vm*vm/(2*[g]))) --> 1-((0.8027-(((10*0.012)^2)*3)/(2.21*0.609^1.33333))/(10*10/(2*[g])))
Evaluating ... ...
Ke = 0.849991125477853
STEP 3: Convert Result to Output's Unit
0.849991125477853 --> No Conversion Required
FINAL ANSWER
0.849991125477853 0.849991 <-- Entrance Loss Coefficient
(Calculation completed in 00.020 seconds)

Credits

Creator Image
Created by Rithik Agrawal
National Institute of Technology Karnataka (NITK), Surathkal
Rithik Agrawal has created this Calculator and 1300+ more calculators!
Verifier Image
Verified by Chandana P Dev
NSS College of Engineering (NSSCE), Palakkad
Chandana P Dev has verified this Calculator and 1700+ more calculators!

Entrance and Exit Submerged Calculators

Length of Culvert given Velocity of Flow Fields
​ LaTeX ​ Go Length of Culverts = (Head Loss of Friction-(1-Entrance Loss Coefficient)*(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g])))/((((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2))/(2.21*Hydraulic Radius of Channel^1.33333))
Entrance Loss Coefficient given Velocity of Flow Fields
​ LaTeX ​ Go Entrance Loss Coefficient = 1-((Head Loss of Friction-(((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333))/(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g])))
Head Loss in Flow
​ LaTeX ​ Go Head Loss of Friction = (1-Entrance Loss Coefficient)*(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g]))+(((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333)
Velocity of Flow Fields
​ LaTeX ​ Go Mean Velocity of Culverts = sqrt(Head Loss of Friction/((1-Entrance Loss Coefficient)/((2*[g]))+(((Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333)))

Entrance Loss Coefficient given Velocity of Flow Fields Formula

​LaTeX ​Go
Entrance Loss Coefficient = 1-((Head Loss of Friction-(((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333))/(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g])))
Ke = 1-((Hf-(((vm*n)^2)*l)/(2.21*rh^1.33333))/(vm*vm/(2*[g])))

What are Culverts?

A culvert is a structure that allows water to flow under a road, railroad, trail, or similar obstruction from one side to the other. Typically embedded so as to be surrounded by soil, a culvert may be made from a pipe, reinforced concrete or other material.

How to Calculate Entrance Loss Coefficient given Velocity of Flow Fields?

Entrance Loss Coefficient given Velocity of Flow Fields calculator uses Entrance Loss Coefficient = 1-((Head Loss of Friction-(((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333))/(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g]))) to calculate the Entrance Loss Coefficient, Entrance Loss Coefficient given Velocity of Flow Fields is defined as loss of head from entrance to exit. Entrance Loss Coefficient is denoted by Ke symbol.

How to calculate Entrance Loss Coefficient given Velocity of Flow Fields using this online calculator? To use this online calculator for Entrance Loss Coefficient given Velocity of Flow Fields, enter Head Loss of Friction (Hf), Mean Velocity of Culverts (vm), Manning’s Roughness Coefficient (n), Length of Culverts (l) & Hydraulic Radius of Channel (rh) and hit the calculate button. Here is how the Entrance Loss Coefficient given Velocity of Flow Fields calculation can be explained with given input values -> 0.849991 = 1-((0.8027-(((10*0.012)^2)*3)/(2.21*0.609^1.33333))/(10*10/(2*[g]))).

FAQ

What is Entrance Loss Coefficient given Velocity of Flow Fields?
Entrance Loss Coefficient given Velocity of Flow Fields is defined as loss of head from entrance to exit and is represented as Ke = 1-((Hf-(((vm*n)^2)*l)/(2.21*rh^1.33333))/(vm*vm/(2*[g]))) or Entrance Loss Coefficient = 1-((Head Loss of Friction-(((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333))/(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g]))). Head Loss of Friction is a measure of the reduction in the total head (sum of elevation head, velocity head and pressure head) of the fluid as it moves through a fluid system, Mean Velocity of Culverts is defined as the average velocity of a fluid at a point and over an arbitrary time T, Manning’s Roughness Coefficient represents the roughness or friction applied to the flow by the channel, Length of Culverts is the measurement or extent of culverts from end to end & Hydraulic Radius of Channel is the ratio of the cross-sectional area of a channel or pipe in which a fluid is flowing to the wet perimeter of the conduit.
How to calculate Entrance Loss Coefficient given Velocity of Flow Fields?
Entrance Loss Coefficient given Velocity of Flow Fields is defined as loss of head from entrance to exit is calculated using Entrance Loss Coefficient = 1-((Head Loss of Friction-(((Mean Velocity of Culverts*Manning’s Roughness Coefficient)^2)*Length of Culverts)/(2.21*Hydraulic Radius of Channel^1.33333))/(Mean Velocity of Culverts*Mean Velocity of Culverts/(2*[g]))). To calculate Entrance Loss Coefficient given Velocity of Flow Fields, you need Head Loss of Friction (Hf), Mean Velocity of Culverts (vm), Manning’s Roughness Coefficient (n), Length of Culverts (l) & Hydraulic Radius of Channel (rh). With our tool, you need to enter the respective value for Head Loss of Friction, Mean Velocity of Culverts, Manning’s Roughness Coefficient, Length of Culverts & Hydraulic Radius of Channel and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!