Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop Calculator

✖Plate Pressure Drop refers to the loss of fluid pressure as the fluid flows through the channels formed by the plates.ⓘ Plate Pressure Drop [ΔP_p]			+10% -10%
✖Equivalent diameter represents a single characteristic length that takes into account the cross-sectional shape and flow path of a non-circular or irregularly shaped channel or duct.ⓘ Equivalent Diameter [D_e]			+10% -10%
✖Friction Factor is a dimensionless quantity used to characterize the amount of resistance encountered by a fluid as it flows through a pipe or conduit.ⓘ Friction Factor [J_f]			+10% -10%
✖Fluid Density is defined as the ratio of mass of given fluid with respect to the volume that it occupies.ⓘ Fluid Density [ρ_fluid]			+10% -10%
✖Channel Velocity refers to the average velocity of the fluid flowing through the channels formed by adjacent plates.ⓘ Channel Velocity [u_p]			+10% -10%

✖Path Length refers to the distance that the fluid travels between the plates. It represents the length of the flow path within the heat exchanger channels formed by adjacent plates.ⓘ Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop [L_p]

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Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop Solution

STEP 0: Pre-Calculation Summary

Formula Used

Path Length = Plate Pressure Drop*Equivalent Diameter/(8*Friction Factor*(Fluid Density*(Channel Velocity^2))/2)
L_p = ΔP_p*D_e/(8*J_f*(ρ_fluid*(u_p^2))/2)
This formula uses 6 Variables

Variables Used

Path Length - (Measured in Meter) - Path Length refers to the distance that the fluid travels between the plates. It represents the length of the flow path within the heat exchanger channels formed by adjacent plates.
Plate Pressure Drop - (Measured in Pascal) - Plate Pressure Drop refers to the loss of fluid pressure as the fluid flows through the channels formed by the plates.
Equivalent Diameter - (Measured in Meter) - Equivalent diameter represents a single characteristic length that takes into account the cross-sectional shape and flow path of a non-circular or irregularly shaped channel or duct.
Friction Factor - Friction Factor is a dimensionless quantity used to characterize the amount of resistance encountered by a fluid as it flows through a pipe or conduit.
Fluid Density - (Measured in Kilogram per Cubic Meter) - Fluid Density is defined as the ratio of mass of given fluid with respect to the volume that it occupies.
Channel Velocity - (Measured in Meter per Second) - Channel Velocity refers to the average velocity of the fluid flowing through the channels formed by adjacent plates.

STEP 1: Convert Input(s) to Base Unit

Plate Pressure Drop: 2070.467 Pascal --> 2070.467 Pascal No Conversion Required
Equivalent Diameter: 16.528 Millimeter --> 0.016528 Meter (Check conversion here)
Friction Factor: 0.004 --> No Conversion Required
Fluid Density: 995 Kilogram per Cubic Meter --> 995 Kilogram per Cubic Meter No Conversion Required
Channel Velocity: 1.845 Meter per Second --> 1.845 Meter per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

L_p = ΔP_p*D_e/(8*J_f*(ρ_fluid*(u_p^2))/2) --> 2070.467*0.016528/(8*0.004*(995*(1.845^2))/2)

Evaluating ... ...

L_p = 0.631470130671129

STEP 3: Convert Result to Output's Unit

0.631470130671129 Meter -->631.470130671129 Millimeter (Check conversion here)

FINAL ANSWER

631.470130671129 ≈ 631.4701 Millimeter <-- Path Length

(Calculation completed in 00.004 seconds)

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Home » Engineering » Chemical Engineering » Process Equipment Design » Heat Exchangers » Basic Formulas of Heat Exchanger Designs » Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop

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Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop Formula

LaTeX Go

Path Length = Plate Pressure Drop*Equivalent Diameter/(8*Friction Factor*(Fluid Density*(Channel Velocity^2))/2)
L_p = ΔP_p*D_e/(8*J_f*(ρ_fluid*(u_p^2))/2)

What is the Significance of Plate Pressure Drop in Plate Type Heat Exchanger?

Plate pressure drop in a plate-type heat exchanger refers to the loss of fluid pressure as the fluid flows through the channels formed by the plates. It is a measure of the resistance encountered by the fluid as it moves through the narrow passages between the plates. Plate pressure drop is a critical consideration in the design and operation of plate heat exchangers. Several factors contribute to plate pressure drop, including the fluid velocity, viscosity, flow rate, and the geometric configuration of the plates (such as plate spacing and pattern). Higher fluid velocities and more complex plate arrangements tend to increase pressure drop.

How to Calculate Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop?

Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop calculator uses Path Length = Plate Pressure Drop*Equivalent Diameter/(8*Friction Factor*(Fluid Density*(Channel Velocity^2))/2) to calculate the Path Length, The Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop formula is defined as the distance that the fluid travels between the plates. It represents the length of the flow path within the heat exchanger channels formed by adjacent plates. Path Length is denoted by L_p symbol.

How to calculate Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop using this online calculator? To use this online calculator for Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop, enter Plate Pressure Drop (ΔP_p), Equivalent Diameter (D_e), Friction Factor (J_f), Fluid Density (ρ_fluid) & Channel Velocity (u_p) and hit the calculate button. Here is how the Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop calculation can be explained with given input values -> 631470.1 = 2070.467*0.016528/(8*0.004*(995*(1.845^2))/2).

FAQ

What is Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop?

The Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop formula is defined as the distance that the fluid travels between the plates. It represents the length of the flow path within the heat exchanger channels formed by adjacent plates and is represented as L_p = ΔP_p*D_e/(8*J_f*(ρ_fluid*(u_p^2))/2) or Path Length = Plate Pressure Drop*Equivalent Diameter/(8*Friction Factor*(Fluid Density*(Channel Velocity^2))/2). Plate Pressure Drop refers to the loss of fluid pressure as the fluid flows through the channels formed by the plates, Equivalent diameter represents a single characteristic length that takes into account the cross-sectional shape and flow path of a non-circular or irregularly shaped channel or duct, Friction Factor is a dimensionless quantity used to characterize the amount of resistance encountered by a fluid as it flows through a pipe or conduit, Fluid Density is defined as the ratio of mass of given fluid with respect to the volume that it occupies & Channel Velocity refers to the average velocity of the fluid flowing through the channels formed by adjacent plates.

How to calculate Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop?

The Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop formula is defined as the distance that the fluid travels between the plates. It represents the length of the flow path within the heat exchanger channels formed by adjacent plates is calculated using Path Length = Plate Pressure Drop*Equivalent Diameter/(8*Friction Factor*(Fluid Density*(Channel Velocity^2))/2). To calculate Path Length of Fluid in Plate Heat Exchanger Given Channel Velocity and Plate Pressure Drop, you need Plate Pressure Drop (ΔP_p), Equivalent Diameter (D_e), Friction Factor (J_f), Fluid Density (ρ_fluid) & Channel Velocity (u_p). With our tool, you need to enter the respective value for Plate Pressure Drop, Equivalent Diameter, Friction Factor, Fluid Density & Channel Velocity 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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