Fire Demand given Total Storage Capacity Calculator

✖Total Storage Capacity refers to the maximum volume or amount of water that a reservoir, basin, or any water storage system can hold under normal operating conditions.ⓘ Total Storage Capacity [T]			+10% -10%
✖Numerical Coefficient a is a constant multiplier of the variables in a term used in determining total storage capacity.ⓘ Numerical Coefficient a [a]			+10% -10%
✖Numerical Coefficient b is a constant multiplier of the variables in a term used in determining total storage capacity.ⓘ Numerical Coefficient b [b]			+10% -10%
✖Average Domestic Demand refers to the average amount of water or other resources used by households within a specific area over a certain period, usually measured in gallons per day or liters per day.ⓘ Average Domestic Demand [D]			+10% -10%
✖Capacity of Pump refers to the volume of fluid (such as water, sewage, or other liquids) that the pump is capable of moving within a given amount of time.ⓘ Capacity of Pump [P]			+10% -10%

✖Fire Demand is the amount of water required to extinguish fire.ⓘ Fire Demand given Total Storage Capacity [F]

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Fire Demand given Total Storage Capacity Solution

STEP 0: Pre-Calculation Summary

Formula Used

Fire Demand = (Total Storage Capacity-((Numerical Coefficient a+Numerical Coefficient b+(10/24))*Average Domestic Demand)+((10/24)*Capacity of Pump))/(10/24)
F = (T-((a+b+(10/24))*D)+((10/24)*P))/(10/24)
This formula uses 6 Variables

Variables Used

Fire Demand - (Measured in Cubic Meter per Second) - Fire Demand is the amount of water required to extinguish fire.
Total Storage Capacity - (Measured in Cubic Meter per Second) - Total Storage Capacity refers to the maximum volume or amount of water that a reservoir, basin, or any water storage system can hold under normal operating conditions.
Numerical Coefficient a - Numerical Coefficient a is a constant multiplier of the variables in a term used in determining total storage capacity.
Numerical Coefficient b - Numerical Coefficient b is a constant multiplier of the variables in a term used in determining total storage capacity.
Average Domestic Demand - (Measured in Cubic Meter per Second) - Average Domestic Demand refers to the average amount of water or other resources used by households within a specific area over a certain period, usually measured in gallons per day or liters per day.
Capacity of Pump - (Measured in Cubic Meter per Second) - Capacity of Pump refers to the volume of fluid (such as water, sewage, or other liquids) that the pump is capable of moving within a given amount of time.

STEP 1: Convert Input(s) to Base Unit

Total Storage Capacity: 505.08 Liter per day --> 5.84583333333333E-06 Cubic Meter per Second (Check conversion here)
Numerical Coefficient a: 0.2 --> No Conversion Required
Numerical Coefficient b: 0.1 --> No Conversion Required
Average Domestic Demand: 135 Liter per day --> 1.5625E-06 Cubic Meter per Second (Check conversion here)
Capacity of Pump: 120 Liter per day --> 1.38888888888889E-06 Cubic Meter per Second (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

F = (T-((a+b+(10/24))*D)+((10/24)*P))/(10/24) --> (5.84583333333333E-06-((0.2+0.1+(10/24))*1.5625E-06)+((10/24)*1.38888888888889E-06))/(10/24)

Evaluating ... ...

F = 1.27313888888889E-05

STEP 3: Convert Result to Output's Unit

1.27313888888889E-05 Cubic Meter per Second -->1099.992 Liter per day (Check conversion here)

FINAL ANSWER

1099.992 Liter per day <-- Fire Demand

(Calculation completed in 00.020 seconds)

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Birsa Institute of Technology (BIT), Sindri

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< Capacity of Distribution Reservoir Calculators

Reserve Fire Pumping Capacity given Reserve Storage

LaTeX Go Capacity of Pump = Fire Demand-(Reserve Storage/Duration of Fire)

Fire Duration given Reserve Storage

LaTeX Go Duration of Fire = Reserve Storage/(Fire Demand-Capacity of Pump)

Fire Demand given Reserve Storage

LaTeX Go Fire Demand = (Reserve Storage/Duration of Fire)+Capacity of Pump

Reserve Storage

LaTeX Go Reserve Storage = (Fire Demand-Capacity of Pump)*Duration of Fire

Fire Demand given Total Storage Capacity Formula

LaTeX Go

What is Fire Demand ?

Fire Demand is the amount of water required to extinguish fire. Or. The water required for fire fighting in a given area. Although the actual amount of water used in a year is small for fire fighting.

How to Calculate Fire Demand given Total Storage Capacity?

Fire Demand given Total Storage Capacity calculator uses Fire Demand = (Total Storage Capacity-((Numerical Coefficient a+Numerical Coefficient b+(10/24))*Average Domestic Demand)+((10/24)*Capacity of Pump))/(10/24) to calculate the Fire Demand, The Fire Demand given Total Storage Capacity is defined as the amount of water required to extinguish a fire in a particular area. when we have prior information of total storage capacity. Fire Demand is denoted by F symbol.

How to calculate Fire Demand given Total Storage Capacity using this online calculator? To use this online calculator for Fire Demand given Total Storage Capacity, enter Total Storage Capacity (T), Numerical Coefficient a (a), Numerical Coefficient b (b), Average Domestic Demand (D) & Capacity of Pump (P) and hit the calculate button. Here is how the Fire Demand given Total Storage Capacity calculation can be explained with given input values -> 9.5E+10 = (5.84583333333333E-06-((0.2+0.1+(10/24))*1.5625E-06)+((10/24)*1.38888888888889E-06))/(10/24).

FAQ

What is Fire Demand given Total Storage Capacity?

The Fire Demand given Total Storage Capacity is defined as the amount of water required to extinguish a fire in a particular area. when we have prior information of total storage capacity and is represented as F = (T-((a+b+(10/24))*D)+((10/24)*P))/(10/24) or Fire Demand = (Total Storage Capacity-((Numerical Coefficient a+Numerical Coefficient b+(10/24))*Average Domestic Demand)+((10/24)*Capacity of Pump))/(10/24). Total Storage Capacity refers to the maximum volume or amount of water that a reservoir, basin, or any water storage system can hold under normal operating conditions, Numerical Coefficient a is a constant multiplier of the variables in a term used in determining total storage capacity, Numerical Coefficient b is a constant multiplier of the variables in a term used in determining total storage capacity, Average Domestic Demand refers to the average amount of water or other resources used by households within a specific area over a certain period, usually measured in gallons per day or liters per day & Capacity of Pump refers to the volume of fluid (such as water, sewage, or other liquids) that the pump is capable of moving within a given amount of time.

How to calculate Fire Demand given Total Storage Capacity?

The Fire Demand given Total Storage Capacity is defined as the amount of water required to extinguish a fire in a particular area. when we have prior information of total storage capacity is calculated using Fire Demand = (Total Storage Capacity-((Numerical Coefficient a+Numerical Coefficient b+(10/24))*Average Domestic Demand)+((10/24)*Capacity of Pump))/(10/24). To calculate Fire Demand given Total Storage Capacity, you need Total Storage Capacity (T), Numerical Coefficient a (a), Numerical Coefficient b (b), Average Domestic Demand (D) & Capacity of Pump (P). With our tool, you need to enter the respective value for Total Storage Capacity, Numerical Coefficient a, Numerical Coefficient b, Average Domestic Demand & Capacity of Pump 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 Fire Demand?

In this formula, Fire Demand uses Total Storage Capacity, Numerical Coefficient a, Numerical Coefficient b, Average Domestic Demand & Capacity of Pump. We can use 2 other way(s) to calculate the same, which is/are as follows -

Fire Demand = (Reserve Storage/Duration of Fire)+Capacity of Pump
Fire Demand = (Total Storage Capacity-((0.2+0.1+(10/24))*Average Domestic Demand)+((10/24)*Capacity of Pump))/(10/24)

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