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Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Formula

GoTube Side Mass Flowrate of Liquid Given Number of Tubes and Fluid Velocity Formula

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Mass Flowrate is the mass of a substance that passes per unit of time. Check FAQs

M flow = \frac{P p \cdot ρ fluid}{ΔP Tube Side}

M_flow - Mass Flowrate?P_p - Pumping Power?ρ_fluid - Fluid Density?ΔP_{Tube Side} - Tube Side Pressure Drop?

Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Example

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Here is how the Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop equation looks like with Values.

Here is how the Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop equation looks like with Units.

Here is how the Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop equation looks like.

14 = \frac{2629.11 \cdot 995}{186854.6}

14kg/s = \frac{2629.11W \cdot 995kg/m³}{186854.6Pa}

14 = \frac{2629.11 \cdot 995}{186854.6}

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Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Solution

Follow our step by step solution on how to calculate Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop?

FIRST Step Consider the formula

M flow = \frac{P p \cdot ρ fluid}{ΔP Tube Side}

Next Step Substitute values of Variables

∴

M flow = \frac{2629.11W \cdot 995kg/m³}{186854.6Pa}

Next Step Prepare to Evaluate

∴

M flow = \frac{2629.11 \cdot 995}{186854.6}

Next Step Evaluate

∴

M flow = 14.0000002675877kg/s

LAST Step Rounding Answer

∴

M flow = 14kg/s

Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Formula Elements

Variables

Mass Flowrate

Mass Flowrate is the mass of a substance that passes per unit of time.

Symbol: M_flow

Measurement: Mass Flow RateUnit: kg/s

Note: Value should be greater than 0.

Formulas to find Mass Flowrate

Pumping Power

Pumping Power in a heat exchanger refers to the energy required to circulate the heat transfer fluid (typically a liquid) through the exchanger.

Symbol: P_p

Measurement: PowerUnit: W

Note: Value should be greater than 0.

Formulas to find Pumping Power

Fluid Density

Fluid Density is defined as the ratio of mass of given fluid with respect to the volume that it occupies.

Symbol: ρ_fluid

Measurement: DensityUnit: kg/m³

Note: Value should be greater than 0.

Formulas to find Fluid Density

Tube Side Pressure Drop

Tube Side Pressure Drop is the difference between inlet and outlet pressure of the tube side fluid in a shell and tube heat exchanger.

Symbol: ΔP_{Tube Side}

Measurement: PressureUnit: Pa

Note: Value should be greater than 0.

Formulas to find Tube Side Pressure Drop

Other Formulas to find Mass Flowrate

Go Tube Side Mass Flowrate of Liquid Given Number of Tubes and Fluid Velocity

M flow = \frac{N Tubes \cdot ρ fluid \cdot V f \cdot π \cdot {(D inner)}^{2}}{4}

Other formulas in Basic Formulas of Heat Exchanger Designs category

Go Equivalent Diameter for Square Pitch in Heat Exchanger

D e = (\frac{1.27}{D Outer}) \cdot (({P Tube}^{2}) - 0.785 \cdot ({D Outer}^{2}))

Go Equivalent Diameter for Triangular Pitch in Heat Exchanger

D e = (\frac{1.10}{D Outer}) \cdot (({P Tube}^{2}) - 0.917 \cdot ({D Outer}^{2}))

Go Number of Baffles in Shell and Tube Heat Exchanger

N Baffles = (\frac{L Tube}{L Baffle}) - 1

Go Number of Tubes in Center Row Given Bundle Diameter and Tube Pitch

N r = \frac{D B}{P Tube}

How to Evaluate Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop?

Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop evaluator uses Mass Flowrate = (Pumping Power*Fluid Density)/Tube Side Pressure Drop to evaluate the Mass Flowrate, The Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop formula is defined as the amount of fluid in terms of mass that flows through the tubes of the heat exchanger per unit of time. Mass Flowrate is denoted by M_flow symbol.

How to evaluate Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop using this online evaluator? To use this online evaluator for Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop, enter Pumping Power (P_p), Fluid Density (ρ_fluid) & Tube Side Pressure Drop (ΔP_{Tube Side}) and hit the calculate button.

FAQs on Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop

What is the formula to find Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop?

The formula of Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop is expressed as Mass Flowrate = (Pumping Power*Fluid Density)/Tube Side Pressure Drop. Here is an example- 14 = (2629.11*995)/186854.6.

How to calculate Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop?

With Pumping Power (P_p), Fluid Density (ρ_fluid) & Tube Side Pressure Drop (ΔP_{Tube Side}) we can find Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop using the formula - Mass Flowrate = (Pumping Power*Fluid Density)/Tube Side Pressure Drop.

What are the other ways to Calculate Mass Flowrate?

Here are the different ways to Calculate Mass Flowrate-

Mass Flowrate=(Number of Tubes*Fluid Density*Fluid Velocity*pi*(Pipe Inner Diameter)^2)/4

Can the Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop be negative?

No, the Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop, measured in Mass Flow Rate cannot be negative.

Which unit is used to measure Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop?

Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop is usually measured using the Kilogram per Second[kg/s] for Mass Flow Rate. Gram per Second[kg/s], Gram per Hour[kg/s], Milligram per Minute[kg/s] are the few other units in which Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop can be measured.

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Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Formula

​GoTube Side Mass Flowrate of Liquid Given Number of Tubes and Fluid Velocity Formula

Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Example

Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Solution

Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop Formula Elements

Other Formulas to find Mass Flowrate

Other formulas in Basic Formulas of Heat Exchanger Designs category

How to Evaluate Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop?

FAQs on Tube Side Mass Flowrate Given Pumping Power and Tube Side Pressure Drop

Variable Name

GoTube Side Mass Flowrate of Liquid Given Number of Tubes and Fluid Velocity Formula