Daily Precipitation from Water Budget Continuity Equation Solution

STEP 0: Pre-Calculation Summary
Formula Used
Precipitation = Daily Surface Outflow+Daily Seepage Outflow+Daily Lake Evaporation+Increase in Lake Storage in a Day+Daily Transpiration Loss-Daily Surface Inflow-Daily Groundwater Inflow
P = Vos+Vog+EL+ΔSL+TL-Vis-Vig
This formula uses 8 Variables
Variables Used
Precipitation - (Measured in Meter) - Precipitation is the primary water input to the hydrologic cycle and is evaluated for all water budget calculations.
Daily Surface Outflow - (Measured in Cubic Meter per Second) - Daily Surface Outflow is the source of the water within the body of water.
Daily Seepage Outflow - (Measured in Cubic Meter per Second) - Daily Seepage Outflow is the source of the water within the body of water.
Daily Lake Evaporation - (Measured in Meter) - Daily Lake Evaporation is the process by which water changes from a liquid to a gas or vapor.
Increase in Lake Storage in a Day - (Measured in Meter) - Increase in Lake Storage in a Day of the water within the body of water.
Daily Transpiration Loss - Daily Transpiration Loss contributes to the loss of moisture in the upper soil zone, which can have an effect on vegetation and food-crop fields.
Daily Surface Inflow - (Measured in Cubic Meter per Second) - Daily Surface Inflow of a waterbody is the source of the water within the body of water.
Daily Groundwater Inflow - (Measured in Cubic Meter per Second) - Daily Groundwater Inflow is the source of the water within the body of water.
STEP 1: Convert Input(s) to Base Unit
Daily Surface Outflow: 12 Cubic Meter per Second --> 12 Cubic Meter per Second No Conversion Required
Daily Seepage Outflow: 13 Cubic Meter per Second --> 13 Cubic Meter per Second No Conversion Required
Daily Lake Evaporation: 56 Millimeter --> 0.056 Meter (Check conversion here)
Increase in Lake Storage in a Day: 7 Meter --> 7 Meter No Conversion Required
Daily Transpiration Loss: 22 --> No Conversion Required
Daily Surface Inflow: 31 Cubic Meter per Second --> 31 Cubic Meter per Second No Conversion Required
Daily Groundwater Inflow: 25 Cubic Meter per Second --> 25 Cubic Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P = Vos+Vog+EL+ΔSL+TL-Vis-Vig --> 12+13+0.056+7+22-31-25
Evaluating ... ...
P = -1.944
STEP 3: Convert Result to Output's Unit
-1.944 Meter --> No Conversion Required
FINAL ANSWER
-1.944 Meter <-- Precipitation
(Calculation completed in 00.004 seconds)

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15 Water budget equation for a catchment Calculators

Daily Precipitation from Water Budget Continuity Equation
Go Precipitation = Daily Surface Outflow+Daily Seepage Outflow+Daily Lake Evaporation+Increase in Lake Storage in a Day+Daily Transpiration Loss-Daily Surface Inflow-Daily Groundwater Inflow
Mean annual flood proposed by natural environment research council
Go Mean Annual Flood = Constant C*Area^(0.94)*Stream Frequency^(0.27)*Slope of the Catchment^(0.16)*Soil Type Index^(1.23)*RSMD^(1.03)*(1+Area of Lakes or Reservoirs)^-0.85
Water Budget Equation for Catchment given Time Interval
Go Change in Mass Storage = Precipitation-Surface Runoff-Net Ground Water Flowing Outside Catchment-Evaporation from Water Body-Transpiration
Change in Storage of Water in Catchment
Go Change in Storage Volumes = Change in Groundwater Storage+Change in Soil Moisture Storage+Change in Groundwater Storage
Surface water storage given Storage of water in catchment
Go Change in Surface Water Storage = Storage of Water-Change in Soil Moisture Storage-Change in Groundwater Storage
Ground Water Storage given Storage of water in catchment
Go Change in Groundwater Storage = Storage of Water-Change in Surface Water Storage-Change in Soil Moisture Storage
Soil Moisture Storage given Storage of water
Go Change in Soil Moisture Storage = Storage of Water-Change in Surface Water Storage-Change in Groundwater Storage
Storage of Water in Catchment
Go Storage of Water = Change in Surface Water Storage+Change in Soil Moisture Storage+Change in Groundwater Storage
Mass outflow given Change in mass storage
Go Mass Outflow = Outflow Rate-Change in Mass Storage
Mass in flow given Change in mass storage
Go Outflow Rate = Change in Mass Storage+Mass Outflow
Continuity equation for water balance
Go Change in Mass Storage = Outflow Rate-Mass Outflow
Catchment Area given Peak Discharge in Jarvis formula
Go Catchment Area = (Peak Discharge/Coefficient)^2
Precipitation in Rainfall runoff relationship
Go Precipitation = Surface Runoff+Runoff Losses
Runoff losses in rainfall runoff relationship
Go Runoff Losses = Precipitation-Surface Runoff
Rainfall runoff relationship
Go Surface Runoff = Precipitation-Runoff Losses

Daily Precipitation from Water Budget Continuity Equation Formula

Precipitation = Daily Surface Outflow+Daily Seepage Outflow+Daily Lake Evaporation+Increase in Lake Storage in a Day+Daily Transpiration Loss-Daily Surface Inflow-Daily Groundwater Inflow
P = Vos+Vog+EL+ΔSL+TL-Vis-Vig

What is Water-Budget Continuity Equation?

In hydrology, a water budget or balance equation can be used to describe the flow of water in and out of a system. A water budget is an accounting of all the water that flows into and out of a project area. This area can be a wetland, a lake, or any other point of interest.

How to Calculate Daily Precipitation from Water Budget Continuity Equation?

Daily Precipitation from Water Budget Continuity Equation calculator uses Precipitation = Daily Surface Outflow+Daily Seepage Outflow+Daily Lake Evaporation+Increase in Lake Storage in a Day+Daily Transpiration Loss-Daily Surface Inflow-Daily Groundwater Inflow to calculate the Precipitation, The Daily Precipitation from Water Budget Continuity Equation is a form of water from the atmosphere. These form by condensation from atmospheric water vapor, and fall under gravity. Precipitation is denoted by P symbol.

How to calculate Daily Precipitation from Water Budget Continuity Equation using this online calculator? To use this online calculator for Daily Precipitation from Water Budget Continuity Equation, enter Daily Surface Outflow (Vos), Daily Seepage Outflow (Vog), Daily Lake Evaporation (EL), Increase in Lake Storage in a Day (ΔSL), Daily Transpiration Loss (TL), Daily Surface Inflow (Vis) & Daily Groundwater Inflow (Vig) and hit the calculate button. Here is how the Daily Precipitation from Water Budget Continuity Equation calculation can be explained with given input values -> -1.944 = 12+13+0.056+7+22-31-25.

FAQ

What is Daily Precipitation from Water Budget Continuity Equation?
The Daily Precipitation from Water Budget Continuity Equation is a form of water from the atmosphere. These form by condensation from atmospheric water vapor, and fall under gravity and is represented as P = Vos+Vog+EL+ΔSL+TL-Vis-Vig or Precipitation = Daily Surface Outflow+Daily Seepage Outflow+Daily Lake Evaporation+Increase in Lake Storage in a Day+Daily Transpiration Loss-Daily Surface Inflow-Daily Groundwater Inflow. Daily Surface Outflow is the source of the water within the body of water, Daily Seepage Outflow is the source of the water within the body of water, Daily Lake Evaporation is the process by which water changes from a liquid to a gas or vapor, Increase in Lake Storage in a Day of the water within the body of water, Daily Transpiration Loss contributes to the loss of moisture in the upper soil zone, which can have an effect on vegetation and food-crop fields, Daily Surface Inflow of a waterbody is the source of the water within the body of water & Daily Groundwater Inflow is the source of the water within the body of water.
How to calculate Daily Precipitation from Water Budget Continuity Equation?
The Daily Precipitation from Water Budget Continuity Equation is a form of water from the atmosphere. These form by condensation from atmospheric water vapor, and fall under gravity is calculated using Precipitation = Daily Surface Outflow+Daily Seepage Outflow+Daily Lake Evaporation+Increase in Lake Storage in a Day+Daily Transpiration Loss-Daily Surface Inflow-Daily Groundwater Inflow. To calculate Daily Precipitation from Water Budget Continuity Equation, you need Daily Surface Outflow (Vos), Daily Seepage Outflow (Vog), Daily Lake Evaporation (EL), Increase in Lake Storage in a Day (ΔSL), Daily Transpiration Loss (TL), Daily Surface Inflow (Vis) & Daily Groundwater Inflow (Vig). With our tool, you need to enter the respective value for Daily Surface Outflow, Daily Seepage Outflow, Daily Lake Evaporation, Increase in Lake Storage in a Day, Daily Transpiration Loss, Daily Surface Inflow & Daily Groundwater Inflow 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 Precipitation?
In this formula, Precipitation uses Daily Surface Outflow, Daily Seepage Outflow, Daily Lake Evaporation, Increase in Lake Storage in a Day, Daily Transpiration Loss, Daily Surface Inflow & Daily Groundwater Inflow. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Precipitation = Surface Runoff+Runoff Losses
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