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Fire Demand given Total Storage Capacity Formula

GoFire Demand given Reserve Storage Formula

GoFire Demand given Value of McDonald Coefficient Formula

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Fire Demand is the amount of water required to extinguish fire. Check FAQs

F = \frac{T - ((a + b + (\frac{10}{24})) \cdot D) + ((\frac{10}{24}) \cdot P)}{\frac{10}{24}}

F - Fire Demand?T - Total Storage Capacity?a - Numerical Coefficient a?b - Numerical Coefficient b?D - Average Domestic Demand?P - Capacity of Pump?

Fire Demand given Total Storage Capacity Example

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Here is how the Fire Demand given Total Storage Capacity equation looks like with Values.

Here is how the Fire Demand given Total Storage Capacity equation looks like with Units.

Here is how the Fire Demand given Total Storage Capacity equation looks like.

1099.992 = \frac{505.08 - ((0.2 + 0.1 + (\frac{10}{24})) \cdot 135) + ((\frac{10}{24}) \cdot 120)}{\frac{10}{24}}

1099.992L/d = \frac{505.08L/d - ((0.2 + 0.1 + (\frac{10}{24})) \cdot 135L/d) + ((\frac{10}{24}) \cdot 120L/d)}{\frac{10}{24}}

1099.992 = \frac{505.08 - ((0.2 + 0.1 + (\frac{10}{24})) \cdot 135) + ((\frac{10}{24}) \cdot 120)}{\frac{10}{24}}

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Fire Demand given Total Storage Capacity Solution

Follow our step by step solution on how to calculate Fire Demand given Total Storage Capacity?

FIRST Step Consider the formula

F = \frac{T - ((a + b + (\frac{10}{24})) \cdot D) + ((\frac{10}{24}) \cdot P)}{\frac{10}{24}}

Next Step Substitute values of Variables

∴

F = \frac{505.08L/d - ((0.2 + 0.1 + (\frac{10}{24})) \cdot 135L/d) + ((\frac{10}{24}) \cdot 120L/d)}{\frac{10}{24}}

Next Step Convert Units

∴

F = \frac{5.8E-6m³/s - ((0.2 + 0.1 + (\frac{10}{24})) \cdot 1.6E-6m³/s) + ((\frac{10}{24}) \cdot 1.4E-6m³/s)}{\frac{10}{24}}

Next Step Prepare to Evaluate

∴

F = \frac{5.8E-6 - ((0.2 + 0.1 + (\frac{10}{24})) \cdot 1.6E-6) + ((\frac{10}{24}) \cdot 1.4E-6)}{\frac{10}{24}}

Next Step Evaluate

∴

F = 1.27313888888889E-05m³/s

LAST Step Convert to Output's Unit

∴

F = 1099.992L/d

Fire Demand given Total Storage Capacity Formula Elements

Variables

Fire Demand

Fire Demand is the amount of water required to extinguish fire.

Symbol: F

Measurement: Volumetric Flow RateUnit: L/d

Note: Value should be greater than 0.

Formulas to find Fire Demand

Total Storage Capacity

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.

Symbol: T

Measurement: Volumetric Flow RateUnit: L/d

Note: Value should be greater than 0.

Formulas to find Total Storage Capacity

Numerical Coefficient a

Numerical Coefficient a is a constant multiplier of the variables in a term used in determining total storage capacity.

Symbol: a

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Numerical Coefficient a

Numerical Coefficient b

Numerical Coefficient b is a constant multiplier of the variables in a term used in determining total storage capacity.

Symbol: b

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Numerical Coefficient b

Average Domestic Demand

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.

Symbol: D

Measurement: Volumetric Flow RateUnit: L/d

Note: Value should be greater than 0.

Formulas to find Average Domestic Demand

Capacity of Pump

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.

Symbol: P

Measurement: Volumetric Flow RateUnit: L/d

Note: Value should be greater than 0.

Formulas to find Capacity of Pump

Other Formulas to find Fire Demand

Go Fire Demand given Reserve Storage

F = (\frac{V R}{t}) + P

Go Fire Demand given Value of McDonald Coefficient

F = \frac{T - ((0.2 + 0.1 + (\frac{10}{24})) \cdot D) + ((\frac{10}{24}) \cdot P)}{\frac{10}{24}}

Other formulas in Capacity of Distribution Reservoir category

Go Reserve Storage

V R = (F - P) \cdot t

Go Reserve Fire Pumping Capacity given Reserve Storage

P = F - (\frac{V R}{t})

Go Fire Duration given Reserve Storage

t = \frac{V R}{F - P}

Go Total Storage Capacity of Reservoir

T = (a + b + (\frac{10}{24})) \cdot D + (\frac{10}{24}) \cdot (F - P)

How to Evaluate Fire Demand given Total Storage Capacity?

Fire Demand given Total Storage Capacity evaluator 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 evaluate 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 evaluate Fire Demand given Total Storage Capacity using this online evaluator? To use this online evaluator 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.

FAQs on Fire Demand given Total Storage Capacity

What is the formula to find Fire Demand given Total Storage Capacity?

The formula of Fire Demand given Total Storage Capacity is expressed as Fire Demand = (Total Storage Capacity-((Numerical Coefficient a+Numerical Coefficient b+(10/24))*Average Domestic Demand)+((10/24)*Capacity of Pump))/(10/24). Here is an example- 9.5E+10 = (5.84583333333333E-06-((0.2+0.1+(10/24))*1.5625E-06)+((10/24)*1.38888888888889E-06))/(10/24).

How to calculate Fire Demand given Total Storage Capacity?

With Total Storage Capacity (T), Numerical Coefficient a (a), Numerical Coefficient b (b), Average Domestic Demand (D) & Capacity of Pump (P) we can find Fire Demand given Total Storage Capacity using the formula - Fire Demand = (Total Storage Capacity-((Numerical Coefficient a+Numerical Coefficient b+(10/24))*Average Domestic Demand)+((10/24)*Capacity of Pump))/(10/24).

What are the other ways to Calculate Fire Demand?

Here are the different ways to Calculate Fire Demand-

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)

Can the Fire Demand given Total Storage Capacity be negative?

No, the Fire Demand given Total Storage Capacity, measured in Volumetric Flow Rate cannot be negative.

Which unit is used to measure Fire Demand given Total Storage Capacity?

Fire Demand given Total Storage Capacity is usually measured using the Liter per day[L/d] for Volumetric Flow Rate. Cubic Meter per Second[L/d], Cubic Meter per Day[L/d], Cubic Meter per Hour[L/d] are the few other units in which Fire Demand given Total Storage Capacity can be measured.

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Fire Demand given Total Storage Capacity Formula

​GoFire Demand given Reserve Storage Formula

​GoFire Demand given Value of McDonald Coefficient Formula

Fire Demand given Total Storage Capacity Example

Fire Demand given Total Storage Capacity Solution

Fire Demand given Total Storage Capacity Formula Elements

Other Formulas to find Fire Demand

Other formulas in Capacity of Distribution Reservoir category

How to Evaluate Fire Demand given Total Storage Capacity?

FAQs on Fire Demand given Total Storage Capacity

Variable Name

GoFire Demand given Reserve Storage Formula

GoFire Demand given Value of McDonald Coefficient Formula