Equation for Recharge from Irrigation in Area Solution

STEP 0: Pre-Calculation Summary
Formula Used
Recharge from Irrigation = Possible Recharge-Recharge from Rainfall-Recharge from Conservation Structures-Recharge from Tanks and Ponds
Rgw = R-Rrf-Rwt-Rt
This formula uses 5 Variables
Variables Used
Recharge from Irrigation - (Measured in Cubic Meter per Second) - Recharge from Irrigationl over a catchment under study.
Possible Recharge - (Measured in Cubic Meter per Second) - Possible Recharge is defined as the gross recharge minus the natural recharge of the area.
Recharge from Rainfall - (Measured in Cubic Meter per Second) - Recharge from Rainfall over a catchment under study.
Recharge from Conservation Structures - (Measured in Cubic Meter per Second) - Recharge from Conservation Structures over a catchment under study.
Recharge from Tanks and Ponds - (Measured in Cubic Meter per Second) - Recharge from Tanks and Ponds over a catchment under study.
STEP 1: Convert Input(s) to Base Unit
Possible Recharge: 70 Cubic Meter per Second --> 70 Cubic Meter per Second No Conversion Required
Recharge from Rainfall: 16 Cubic Meter per Second --> 16 Cubic Meter per Second No Conversion Required
Recharge from Conservation Structures: 21 Cubic Meter per Second --> 21 Cubic Meter per Second No Conversion Required
Recharge from Tanks and Ponds: 14 Cubic Meter per Second --> 14 Cubic Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Rgw = R-Rrf-Rwt-Rt --> 70-16-21-14
Evaluating ... ...
Rgw = 19
STEP 3: Convert Result to Output's Unit
19 Cubic Meter per Second --> No Conversion Required
FINAL ANSWER
19 Cubic Meter per Second <-- Recharge from Irrigation
(Calculation completed in 00.004 seconds)

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21 Groundwater Level Fluctuation and Specific Yield Method Calculators

Equation for Watershed Area about Specific Yield and Water Level Fluctuation
Go Watershed Area = (Gross Recharge due to Rainfall-Gross Water Draft-Base Flow into the Stream from the Area+Recharge of Ground Water Body+Net Ground Water Flowing Outside Catchment)/(Specific Yield*Water Level Fluctuation)
Equation for Water Level Fluctuation
Go Water Level Fluctuation = (Gross Recharge due to Rainfall-Gross Water Draft-Base Flow into the Stream from the Area+Recharge of Ground Water Body+Net Ground Water Flowing Outside Catchment)/(Watershed Area*Specific Yield)
Equation for Specific Yield
Go Specific Yield = (Gross Recharge due to Rainfall-Gross Water Draft-Base Flow into the Stream from the Area+Recharge of Ground Water Body+Net Ground Water Flowing Outside Catchment)/(Watershed Area*Water Level Fluctuation)
Equation for Gross Recharge due to Rainfall and other Sources
Go Gross Recharge due to Rainfall = (Water Level Fluctuation*Specific Yield*Watershed Area)+Gross Water Draft+Base Flow into the Stream from the Area-Recharge of Ground Water Body-Net Ground Water Flowing Outside Catchment
Equation for Net Ground Water Flow into Area across Boundary
Go Net Ground Water Flowing Outside Catchment = (Water Level Fluctuation*Specific Yield*Watershed Area)-Gross Recharge due to Rainfall+Gross Water Draft+Base Flow into the Stream from the Area-Recharge of Ground Water Body
Equation for Recharge from Stream into Ground water Body
Go Recharge of Ground Water Body = (Water Level Fluctuation*Watershed Area*Specific Yield)-Gross Recharge due to Rainfall+Gross Water Draft+Base Flow into the Stream from the Area-Net Ground Water Flowing Outside Catchment
Equation for Base Flow into Stream from Area
Go Base Flow into the Stream from the Area = Gross Recharge due to Rainfall-Gross Water Draft+Recharge of Ground Water Body+Net Ground Water Flowing Outside Catchment-(Water Level Fluctuation*Specific Yield*Watershed Area)
Equation for Gross Water Draft
Go Gross Water Draft = Gross Recharge due to Rainfall-Base Flow into the Stream from the Area+Recharge of Ground Water Body+Net Ground Water Flowing Outside Catchment-(Water Level Fluctuation*Specific Yield*Watershed Area)
Recharge from Stream into Ground water Body given Possible Recharge
Go Recharge of Ground Water Body = Possible Recharge-Gross Recharge due to Rainfall+Base Flow into the Stream from the Area-Net Ground Water Flowing Outside Catchment
Possible Recharge given Gross Recharge due to Rainfall
Go Possible Recharge = Gross Recharge due to Rainfall-Base Flow into the Stream from the Area+Net Ground Water Flowing Outside Catchment+Recharge of Ground Water Body
Base flow when Possible Recharge is Considered
Go Base Flow into the Stream from the Area = Gross Recharge due to Rainfall-Possible Recharge+Net Ground Water Flowing Outside Catchment+Recharge of Ground Water Body
Net Ground Water Flow given Possible Recharge
Go Net Ground Water Flowing Outside Catchment = Possible Recharge-Gross Recharge due to Rainfall+Base Flow into the Stream from the Area-Recharge of Ground Water Body
Equation for Recharge from Water Conservation Structures
Go Recharge from Conservation Structures = Possible Recharge-Recharge from Rainfall-Recharge from Irrigation-Recharge from Tanks and Ponds
Possible Recharge given other Recharge Factors
Go Possible Recharge = Recharge from Rainfall+Recharge from Irrigation+Recharge from Conservation Structures+Recharge from Tanks and Ponds
Equation for Recharge from Irrigation in Area
Go Recharge from Irrigation = Possible Recharge-Recharge from Rainfall-Recharge from Conservation Structures-Recharge from Tanks and Ponds
Equation for Recharge from Tanks and Ponds
Go Recharge from Tanks and Ponds = Possible Recharge-Recharge from Rainfall-Recharge from Irrigation-Recharge from Conservation Structures
Equation for Recharge from Rainfall
Go Recharge from Rainfall = Possible Recharge-Recharge from Irrigation-Recharge from Conservation Structures-Recharge from Tanks and Ponds
Water Level Fluctuation when Possible Recharge and Gross Water Draft is considered
Go Water Level Fluctuation = (Possible Recharge+Gross Water Draft)/(Specific Yield*Watershed Area)
Specific Yield when Possible Recharge and Gross Water Draft is considered
Go Specific Yield = (Possible Recharge+Gross Water Draft)/(Water Level Fluctuation*Watershed Area)
Catchment Area usually Watershed Area when Possible Recharge is considered
Go Watershed Area = (Possible Recharge+Gross Water Draft)/Water Level Fluctuation*Specific Yield
Equation for Recharge when Gross Water Draft is considered
Go Possible Recharge = (Water Level Fluctuation*Specific Yield*Watershed Area)-Gross Water Draft

Equation for Recharge from Irrigation in Area Formula

Recharge from Irrigation = Possible Recharge-Recharge from Rainfall-Recharge from Conservation Structures-Recharge from Tanks and Ponds
Rgw = R-Rrf-Rwt-Rt

What is Groundwater Flow?

Groundwater flow is defined as the part of streamflow that has infiltrated the ground, entered the phreatic zone, and has been discharged into a stream channel or springs; and seepage water.

How to Calculate Equation for Recharge from Irrigation in Area?

Equation for Recharge from Irrigation in Area calculator uses Recharge from Irrigation = Possible Recharge-Recharge from Rainfall-Recharge from Conservation Structures-Recharge from Tanks and Ponds to calculate the Recharge from Irrigation, Equation for Recharge from Irrigation in Area includes both surface and groundwater sources and is defined as hydrologic process, where water moves downward from surface water to groundwater. Recharge is primary method through which water enters aquifer. Recharge from Irrigation is denoted by Rgw symbol.

How to calculate Equation for Recharge from Irrigation in Area using this online calculator? To use this online calculator for Equation for Recharge from Irrigation in Area, enter Possible Recharge (R), Recharge from Rainfall (Rrf), Recharge from Conservation Structures (Rwt) & Recharge from Tanks and Ponds (Rt) and hit the calculate button. Here is how the Equation for Recharge from Irrigation in Area calculation can be explained with given input values -> 19 = 70-16-21-14.

FAQ

What is Equation for Recharge from Irrigation in Area?
Equation for Recharge from Irrigation in Area includes both surface and groundwater sources and is defined as hydrologic process, where water moves downward from surface water to groundwater. Recharge is primary method through which water enters aquifer and is represented as Rgw = R-Rrf-Rwt-Rt or Recharge from Irrigation = Possible Recharge-Recharge from Rainfall-Recharge from Conservation Structures-Recharge from Tanks and Ponds. Possible Recharge is defined as the gross recharge minus the natural recharge of the area, Recharge from Rainfall over a catchment under study, Recharge from Conservation Structures over a catchment under study & Recharge from Tanks and Ponds over a catchment under study.
How to calculate Equation for Recharge from Irrigation in Area?
Equation for Recharge from Irrigation in Area includes both surface and groundwater sources and is defined as hydrologic process, where water moves downward from surface water to groundwater. Recharge is primary method through which water enters aquifer is calculated using Recharge from Irrigation = Possible Recharge-Recharge from Rainfall-Recharge from Conservation Structures-Recharge from Tanks and Ponds. To calculate Equation for Recharge from Irrigation in Area, you need Possible Recharge (R), Recharge from Rainfall (Rrf), Recharge from Conservation Structures (Rwt) & Recharge from Tanks and Ponds (Rt). With our tool, you need to enter the respective value for Possible Recharge, Recharge from Rainfall, Recharge from Conservation Structures & Recharge from Tanks and Ponds 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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