Catchment Area when Peak Discharge is given in Jarvis formula Calculator

Category	Engineering ↺
Engineering	Civil ↺
Civil	Hydrology and Irrigation ↺
Hydrology-And-Irrigation	Water budget equation for a catchment ↺
Water-Budget-Equation-For-A-Catchment

✖Peak Discharge is the maximum volume flow rate passing a particular location during a storm event.ⓘ Peak Discharge [Q_p]			+10% -10%
✖Coefficient C varies between 1˙77 as minimum and 177 as maximum. Limiting or 100 percent chance floods are given by the value of C of 177.ⓘ Coefficient [C]			+10% -10%

✖Catchment Area is an area of land where all water flows to a single stream, river, lake or even oceanⓘ Catchment Area when Peak Discharge is given in Jarvis formula [A]

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Mithila Muthamma PA

Coorg Institute of Technology (CIT), Coorg

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Chandana P Dev

NSS College of Engineering (NSSCE), Palakkad

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< 11 Other formulas that you can solve using the same Inputs

Drainage Area when Peak Discharge given in Field Application

Drainage Area=Peak Discharge/(1/3.6)*Coefficient of Runoff*Mean Intensity of Precipitation GO

Mixed Liquor Suspended Solids in Aeration Tank when Maximum Solids is Given

mlss=(Maximum solids/((Peak Discharge+Return activated sludge)*8.34)) GO

Return Activated Sludge Flow Rate when Maximum Solids Entering the Clarifier is Given

Return activated sludge=(Maximum solids/(mlss*8.34))-Peak Discharge GO

Maximum Solids Entering the Clarifier

Maximum solids=(Peak Discharge+Return activated sludge)*mlss*8.34 GO

Catchment Area when maximum Flood Discharge is known in Ryve’s formula

Catchment Area=(Peak Discharge/Ryves Coefficient)^1/0.66 GO

Catchment Area when maximum Flood Discharge is known in Dickens Formula

Catchment Area=(Peak Discharge/Dickens Constant)^1/0.75 GO

Design Surface Loading Rate when Surface Area of Circular Settling Tank is Given

Surface loading rate=(Peak Discharge/Surface Area) GO

Average Daily Load when Peak Discharge in Circular Settling Tanks is Given

Average daily load=(Peak Discharge/Peaking factor) GO

Peaking Factor when Peak Discharge in Circular Settling Tanks is Given

Peaking factor=(Peak Discharge/Average daily load) GO

Surface Area of Circular Settling Tank

Surface Area=(Peak Discharge/Surface loading rate) GO

Jarvis formula for Peak Discharge

Peak Discharge=Coefficient*sqrt(Catchment Area) GO

< 4 Other formulas that calculate the same Output

Catchment Area when Drainage density is known

Catchment Area=Length of all Streams of the Catchment/Drainage Density GO

Catchment Area when maximum Flood Discharge is known in Ryve’s formula

Catchment Area=(Peak Discharge/Ryves Coefficient)^1/0.66 GO

Catchment Area when maximum Flood Discharge is known in Dickens Formula

Catchment Area=(Peak Discharge/Dickens Constant)^1/0.75 GO

Catchment Area when Stream Density is known

Catchment Area=No. of Streams/Stream Density GO

Catchment Area when Peak Discharge is given in Jarvis formula Formula

Catchment Area=(Peak Discharge/Coefficient)^2
A=(Q<sub>p</sub>/C)^2

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Mass outflow when Change in mass storage given GO

Water Budget Equation for a catchment considering time interval GO

Storage of water in a catchment GO

Surface water storage when Storage of water in catchment is given GO

Soil Moisture Storage when Storage of water given GO

Ground Water Storage when Storage of water in a catchment is given GO

Change in Storage of Water in a Catchment GO

Rainfall-runoff Relationship GO

Precipitation in Rainfall-runoff relationship GO

Runoff losses in rainfall-runoff relationship GO

Daily Precipitation from Water-Budget Continuity Equation GO

What is Catchment Area in Hydrology?

A Catchment Area is a hydrological unit. Each drop of precipitation that falls into a catchment area eventually ends up in the same river going to the sea if it doesn't evaporate. However, it can take a very long time. Catchment areas are separated from each other by watersheds.

How to Calculate Catchment Area when Peak Discharge is given in Jarvis formula?

Catchment Area when Peak Discharge is given in Jarvis formula calculator uses Catchment Area=(Peak Discharge/Coefficient)^2 to calculate the Catchment Area, Catchment Area when Peak Discharge is given in Jarvis formula is defined by the parameters of Peak Discharge Qp over the Catchment area A. Catchment Area and is denoted by A symbol.

How to calculate Catchment Area when Peak Discharge is given in Jarvis formula using this online calculator? To use this online calculator for Catchment Area when Peak Discharge is given in Jarvis formula, enter Peak Discharge (Q_p) and Coefficient (C) and hit the calculate button. Here is how the Catchment Area when Peak Discharge is given in Jarvis formula calculation can be explained with given input values -> 0.003192 = (10/177)^2.

FAQ

What is Catchment Area when Peak Discharge is given in Jarvis formula?

Catchment Area when Peak Discharge is given in Jarvis formula is defined by the parameters of Peak Discharge Qp over the Catchment area A and is represented as A=(Q_p/C)^2 or Catchment Area=(Peak Discharge/Coefficient)^2. Peak Discharge is the maximum volume flow rate passing a particular location during a storm event and Coefficient C varies between 1˙77 as minimum and 177 as maximum. Limiting or 100 percent chance floods are given by the value of C of 177.

How to calculate Catchment Area when Peak Discharge is given in Jarvis formula?

Catchment Area when Peak Discharge is given in Jarvis formula is defined by the parameters of Peak Discharge Qp over the Catchment area A is calculated using Catchment Area=(Peak Discharge/Coefficient)^2. To calculate Catchment Area when Peak Discharge is given in Jarvis formula, you need Peak Discharge (Q_p) and Coefficient (C). With our tool, you need to enter the respective value for Peak Discharge and Coefficient 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 Catchment Area?

In this formula, Catchment Area uses Peak Discharge and Coefficient. We can use 4 other way(s) to calculate the same, which is/are as follows -

Catchment Area=(Peak Discharge/Dickens Constant)^1/0.75
Catchment Area=(Peak Discharge/Ryves Coefficient)^1/0.66
Catchment Area=Length of all Streams of the Catchment/Drainage Density
Catchment Area=No. of Streams/Stream Density

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