Discharge from Two Wells with Base 10 Solution

STEP 0: Pre-Calculation Summary
Formula Used
Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Well 1),10))
Q = (1.36*KWH*(h2^2-h1^2))/(log((r2/r1'),10))
This formula uses 1 Functions, 6 Variables
Functions Used
log - Logarithmic function is an inverse function to exponentiation., log(Base, Number)
Variables Used
Discharge - (Measured in Cubic Meter per Second) - Discharge is the rate of flow of a liquid.
Coefficient of Permeability in Well Hydraulics - (Measured in Meter per Second) - Coefficient of Permeability in Well Hydraulics of soil in well hydraulics describes how easily a liquid will move through the soil.
Depth of Water 2 - (Measured in Meter) - Depth of water 2 means the depth of the water in 2nd well.
Depth of Water 1 - (Measured in Meter) - Depth of water 1 is the depth of water in the 1st considered well.
Radial Distance at Observation Well 2 - (Measured in Meter) - Radial Distance at Observation Well 2 is the value of radial distance from well 2 when we have prior information of other parameters used.
Radial Distance at Well 1 - (Measured in Meter) - Radial Distance at Well 1 is the value of radial distance from well 1 when we have prior information of other parameters used.
STEP 1: Convert Input(s) to Base Unit
Coefficient of Permeability in Well Hydraulics: 10 Centimeter per Second --> 0.1 Meter per Second (Check conversion here)
Depth of Water 2: 17.8644 Meter --> 17.8644 Meter No Conversion Required
Depth of Water 1: 17.85 Meter --> 17.85 Meter No Conversion Required
Radial Distance at Observation Well 2: 10 Meter --> 10 Meter No Conversion Required
Radial Distance at Well 1: 1E-09 Meter --> 1E-09 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Q = (1.36*KWH*(h2^2-h1^2))/(log((r2/r1'),10)) --> (1.36*0.1*(17.8644^2-17.85^2))/(log((10/1E-09),10))
Evaluating ... ...
Q = 0.69943080959988
STEP 3: Convert Result to Output's Unit
0.69943080959988 Cubic Meter per Second --> No Conversion Required
FINAL ANSWER
0.69943080959988 0.699431 Cubic Meter per Second <-- Discharge
(Calculation completed in 00.004 seconds)

Credits

Created by Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
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Meerut Institute of Engineering and Technology (MIET), Meerut
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7 Aquifer Discharge Calculators

Discharge when Two Observation Well is Taken
Go Discharge = (pi*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Observation Well 1),e))
Discharge given Length of Strainer
Go Discharge = (2.72*Coefficient of Permeability in Well Hydraulics*Total Drawdown in Well*(Length of strainer+(Total Drawdown in Well/2)))/(log((Radius of Influence/Radius of Well in Well Hydraulics),10))
Discharge in Unconfined Aquifer
Go Discharge = (pi*Coefficient of Permeability in Well Hydraulics*(Thickness of Unconfined Aquifer^2-Depth of Water^2))/(log((Radius of Influence/Radius of well),e))
Discharge from Two Wells with Base 10
Go Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Well 1),10))
Discharge in Unconfined Aquifer with Base 10
Go Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Thickness of Unconfined Aquifer^2-Depth of Water^2))/(log((Radius of Influence/Radius of well),10))
Rate of Flow given Coefficient of Permeability
Go Rate of Flow = Coefficient of Permeability in Well Hydraulics*Hydraulic Gradient*Area of Cross Section in Enviro. Engin.
Rate of Flow given Flow Velocity
Go Rate of Flow = (Flow Velocity*Area of Cross Section in Enviro. Engin.)

Discharge from Two Wells with Base 10 Formula

Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Well 1),10))
Q = (1.36*KWH*(h2^2-h1^2))/(log((r2/r1'),10))

What is Discharge?

The amount of fluid passing a section of a stream in unit time is called the discharge. If v is the mean velocity and A is the cross sectional area, the discharge Q is defined by Q = Av which is known as volume flow rate.

How to Calculate Discharge from Two Wells with Base 10?

Discharge from Two Wells with Base 10 calculator uses Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Well 1),10)) to calculate the Discharge, The Discharge from Two Wells with Base 10 is defined as the value of discharge when we have prior information of other parameters used. Discharge is denoted by Q symbol.

How to calculate Discharge from Two Wells with Base 10 using this online calculator? To use this online calculator for Discharge from Two Wells with Base 10, enter Coefficient of Permeability in Well Hydraulics (KWH), Depth of Water 2 (h2), Depth of Water 1 (h1), Radial Distance at Observation Well 2 (r2) & Radial Distance at Well 1 (r1') and hit the calculate button. Here is how the Discharge from Two Wells with Base 10 calculation can be explained with given input values -> 0.699431 = (1.36*0.1*(17.8644^2-17.85^2))/(log((10/1E-09),10)).

FAQ

What is Discharge from Two Wells with Base 10?
The Discharge from Two Wells with Base 10 is defined as the value of discharge when we have prior information of other parameters used and is represented as Q = (1.36*KWH*(h2^2-h1^2))/(log((r2/r1'),10)) or Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Well 1),10)). Coefficient of Permeability in Well Hydraulics of soil in well hydraulics describes how easily a liquid will move through the soil, Depth of water 2 means the depth of the water in 2nd well, Depth of water 1 is the depth of water in the 1st considered well, Radial Distance at Observation Well 2 is the value of radial distance from well 2 when we have prior information of other parameters used & Radial Distance at Well 1 is the value of radial distance from well 1 when we have prior information of other parameters used.
How to calculate Discharge from Two Wells with Base 10?
The Discharge from Two Wells with Base 10 is defined as the value of discharge when we have prior information of other parameters used is calculated using Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Well 1),10)). To calculate Discharge from Two Wells with Base 10, you need Coefficient of Permeability in Well Hydraulics (KWH), Depth of Water 2 (h2), Depth of Water 1 (h1), Radial Distance at Observation Well 2 (r2) & Radial Distance at Well 1 (r1'). With our tool, you need to enter the respective value for Coefficient of Permeability in Well Hydraulics, Depth of Water 2, Depth of Water 1, Radial Distance at Observation Well 2 & Radial Distance at Well 1 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 Discharge?
In this formula, Discharge uses Coefficient of Permeability in Well Hydraulics, Depth of Water 2, Depth of Water 1, Radial Distance at Observation Well 2 & Radial Distance at Well 1. We can use 4 other way(s) to calculate the same, which is/are as follows -
  • Discharge = (pi*Coefficient of Permeability in Well Hydraulics*(Thickness of Unconfined Aquifer^2-Depth of Water^2))/(log((Radius of Influence/Radius of well),e))
  • Discharge = (1.36*Coefficient of Permeability in Well Hydraulics*(Thickness of Unconfined Aquifer^2-Depth of Water^2))/(log((Radius of Influence/Radius of well),10))
  • Discharge = (pi*Coefficient of Permeability in Well Hydraulics*(Depth of Water 2^2-Depth of Water 1^2))/(log((Radial Distance at Observation Well 2/Radial Distance at Observation Well 1),e))
  • Discharge = (2.72*Coefficient of Permeability in Well Hydraulics*Total Drawdown in Well*(Length of strainer+(Total Drawdown in Well/2)))/(log((Radius of Influence/Radius of Well in Well Hydraulics),10))
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