Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
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Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
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11 Other formulas that you can solve using the same Inputs

Convective heat transfer coefficient of storage type heat exchanger
Convective heat transfer coefficient=(Location factor*Specific heat of fluid*Mass flowrate)/(Surface Area*Distance from Point to YY Axis) GO
Location factor at distance X of heat exchanger
Location factor=(Convective heat transfer coefficient*Surface Area*Distance from Point to YY Axis)/(Specific heat of fluid*Mass flowrate) GO
Heat gain through partition, floor, or ceiling
Heat gain=Heat transfer coefficient for interior structure*Surface Area*Temperature Difference GO
Edge length of truncated cube given surface area
Edge length=sqrt(Surface Area/(2*(6+(6*sqrt(2))+sqrt(3)))) GO
Major radius of torus given surface area and minor radius
Major radius=(Surface Area)/(4*(pi^2)*Minor radius) GO
Design Surface Loading Rate when Surface Area of Circular Settling Tank is Given
Surface loading rate=(Peak Discharge/Surface Area) GO
Surface Area of Circular Settling Tank
Surface Area=(Peak Discharge/Surface loading rate) GO
Surface tension
Surface Tension=(surface energy)/(Surface Area) GO
Edge length of cuboctahedron given surface area
Edge length=sqrt(Surface Area/(2*(3+sqrt(3)))) GO
Surface Energy When Surface Tension Is Given
surface energy=Surface Tension*Surface Area GO
Edge length of truncated tetrahedron given surface area
Side=sqrt(Surface Area/(7*sqrt(3))) GO

11 Other formulas that calculate the same Output

Peak Discharge equation based on field application
Peak Discharge=(1/3.6)*Coefficient of Runoff*(Mean Intensity of Precipitation)*Drainage Area GO
Fuller's formula for Maximum Flood Discharge
Peak Discharge=Coefficient*Catchment Area^0.8*(1+0.8*log10(Return Period)) GO
Rational Method of Peak Discharge
Peak Discharge=Coefficient of Runoff*Intensity of Rainfall*Catchment Area GO
Inglis Formula for areas between 160 to 1000 km^2
Peak Discharge=123.2*sqrt(Catchment Area-2.62*(Catchment Area-259)) GO
Inglis Formula for Larger Areas
Peak Discharge=123.2*Catchment Area/sqrt(Catchment Area+10.36) GO
Baird and Mcillwraith Formula for maximum flood discharge
Peak Discharge=3025*Catchment Area/(278+Catchment Area)^0.78 GO
Dredge or Burge formula
Peak Discharge=19.6*Catchment Area/(Length of Basin)^2/3 GO
Ryves Formula
Peak Discharge=Ryves Coefficient*Catchment Area^2/3 GO
Dicken's Formula
Peak Discharge=Dickens Constant*Catchment Area^3/4 GO
Jarvis formula for Peak Discharge
Peak Discharge=Coefficient*sqrt(Catchment Area) GO
Inglis Formula for Small Areas
Peak Discharge=123.2*sqrt(Catchment Area) GO

Peak Discharge when Surface Area of Circular Settling Tank is Given Formula

Peak Discharge=(Surface Area*Surface loading rate)
Q<sub>p</sub>=(SA*R)
More formulas
Peak Discharge in Circular Settling Tanks GO
Average Daily Load when Peak Discharge in Circular Settling Tanks is Given GO
Peaking Factor when Peak Discharge in Circular Settling Tanks is Given GO
Surface Area of Circular Settling Tank GO
Design Surface Loading Rate when Surface Area of Circular Settling Tank is Given GO
Return Activated Sludge Flow Rate GO
Influent Flow Rate when Return Activated Sludge Flow Rate is Given GO
Maximum Solids Entering the Clarifier GO
Peak Discharge when Maximum Solids Entering the Clarifier is Given GO
Return Activated Sludge Flow Rate when Maximum Solids Entering the Clarifier is Given GO
Mixed Liquor Suspended Solids in Aeration Tank when Maximum Solids is Given GO
Assumed Solid Loading Rate of Circular Settling Tanks GO
Maximum Solids when Solid Loading Rate is Given GO
Surface Area when Solid Loading Rate is Given GO
Actual Solid Loading Rate of Circular Settling Tanks GO
Solids Processed when Actual Solid Loading Rate is Given GO
Total Settling Tank Surface Area when Actual Solid Loading Rate is Given GO

What is peak discharge ?

Peak discharge is the maximum rate of flow for a given condition and is used in the design of tank.Peak discharge is also referred to as peak rate of discharge or peak rate of runoff. It is usually referred to in units of cubic feet per second.

How to Calculate Peak Discharge when Surface Area of Circular Settling Tank is Given?

Peak Discharge when Surface Area of Circular Settling Tank is Given calculator uses Peak Discharge=(Surface Area*Surface loading rate) to calculate the Peak Discharge, The Peak Discharge when Surface Area of Circular Settling Tank is Given is defined as the maximum rate of flow for a given condition and is used in the design of tank. Peak Discharge and is denoted by Qp symbol.

How to calculate Peak Discharge when Surface Area of Circular Settling Tank is Given using this online calculator? To use this online calculator for Peak Discharge when Surface Area of Circular Settling Tank is Given, enter Surface Area (SA) and Surface loading rate (R) and hit the calculate button. Here is how the Peak Discharge when Surface Area of Circular Settling Tank is Given calculation can be explained with given input values -> 250 = (50*5).

FAQ

What is Peak Discharge when Surface Area of Circular Settling Tank is Given?
The Peak Discharge when Surface Area of Circular Settling Tank is Given is defined as the maximum rate of flow for a given condition and is used in the design of tank and is represented as Qp=(SA*R) or Peak Discharge=(Surface Area*Surface loading rate). The surface area of a three-dimensional shape is the sum of all of the surface areas of each of the sides and Surface loading rate is the number of gallons of wastewater passing over 1 ft2 of tank per day. .
How to calculate Peak Discharge when Surface Area of Circular Settling Tank is Given?
The Peak Discharge when Surface Area of Circular Settling Tank is Given is defined as the maximum rate of flow for a given condition and is used in the design of tank is calculated using Peak Discharge=(Surface Area*Surface loading rate). To calculate Peak Discharge when Surface Area of Circular Settling Tank is Given, you need Surface Area (SA) and Surface loading rate (R). With our tool, you need to enter the respective value for Surface Area and Surface loading rate 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 Peak Discharge?
In this formula, Peak Discharge uses Surface Area and Surface loading rate. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Peak Discharge=19.6*Catchment Area/(Length of Basin)^2/3
  • Peak Discharge=(1/3.6)*Coefficient of Runoff*(Mean Intensity of Precipitation)*Drainage Area
  • Peak Discharge=Dickens Constant*Catchment Area^3/4
  • Peak Discharge=Ryves Coefficient*Catchment Area^2/3
  • Peak Discharge=123.2*sqrt(Catchment Area)
  • Peak Discharge=123.2*sqrt(Catchment Area-2.62*(Catchment Area-259))
  • Peak Discharge=Coefficient*Catchment Area^0.8*(1+0.8*log10(Return Period))
  • Peak Discharge=123.2*Catchment Area/sqrt(Catchment Area+10.36)
  • Peak Discharge=Coefficient of Runoff*Intensity of Rainfall*Catchment Area
  • Peak Discharge=3025*Catchment Area/(278+Catchment Area)^0.78
  • Peak Discharge=Coefficient*sqrt(Catchment Area)
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