Vertical Tube Loading for Outside Condensation Calculator

✖Condensate Flow refers to the flowrate of the liquid condensate formed due to condensation of vapors in a condenser type heat exchanger.ⓘ Condensate Flow [W_c]			+10% -10%
✖Number of Tubes in Heat Exchanger refers to the count of individual tubes that form the heat transfer surface inside the heat exchanger.ⓘ Number of Tubes in Heat Exchanger [N_t]			+10% -10%
✖Pipe Outer Dia refers to the measurement of the outside or external diameter of a cylindrical pipe. It includes the pipe thickness into it.ⓘ Pipe Outer Dia [D_O]			+10% -10%

✖Outer Tube Loading refers to the thin film of the condensate which is formed during the condensation of vapors in a condenser type heat exchanger.ⓘ Vertical Tube Loading for Outside Condensation [Γ_{v Out}]

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Vertical Tube Loading for Outside Condensation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Outer Tube Loading = Condensate Flow/(Number of Tubes in Heat Exchanger*pi*Pipe Outer Dia)
Γ_{v Out} = W_c/(N_t*pi*D_O)
This formula uses 1 Constants, 4 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Outer Tube Loading - Outer Tube Loading refers to the thin film of the condensate which is formed during the condensation of vapors in a condenser type heat exchanger.
Condensate Flow - (Measured in Kilogram per Second) - Condensate Flow refers to the flowrate of the liquid condensate formed due to condensation of vapors in a condenser type heat exchanger.
Number of Tubes in Heat Exchanger - Number of Tubes in Heat Exchanger refers to the count of individual tubes that form the heat transfer surface inside the heat exchanger.
Pipe Outer Dia - (Measured in Meter) - Pipe Outer Dia refers to the measurement of the outside or external diameter of a cylindrical pipe. It includes the pipe thickness into it.

STEP 1: Convert Input(s) to Base Unit

Condensate Flow: 12.45 Kilogram per Second --> 12.45 Kilogram per Second No Conversion Required
Number of Tubes in Heat Exchanger: 360 --> No Conversion Required
Pipe Outer Dia: 19 Millimeter --> 0.019 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

Γ_{v Out} = W_c/(N_t*pi*D_O) --> 12.45/(360*pi*0.019)

Evaluating ... ...

Γ_{v Out} = 0.57937983669418

STEP 3: Convert Result to Output's Unit

0.57937983669418 --> No Conversion Required

FINAL ANSWER

0.57937983669418 ≈ 0.57938 <-- Outer Tube Loading

(Calculation completed in 00.020 seconds)

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Malviya National Institute Of Technology (MNIT JAIPUR ), JAIPUR

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< Heat Transfer Coefficient in Heat Exchangers Calculators

Heat Transfer Coefficient for Condensation Outside Horizontal Tubes

LaTeX Go Average Condensation Coefficient = 0.95*Thermal Conductivity in Heat Exchanger*((Fluid Density in Heat Transfer*(Fluid Density in Heat Transfer-Density of Vapor)*([g]/Fluid Viscosity at Average Temperature)*(Number of Tubes in Heat Exchanger*Length of Tube in Heat Exchanger/Mass Flowrate in Heat Exchanger))^(1/3))*(Number of Tubes in Vertical Row of Exchanger^(-1/6))

Heat Transfer Coefficient for Condensation Inside Vertical Tubes

LaTeX Go Average Condensation Coefficient = 0.926*Thermal Conductivity in Heat Exchanger*((Fluid Density in Heat Transfer/Fluid Viscosity at Average Temperature)*(Fluid Density in Heat Transfer-Density of Vapor)*[g]*(pi*Pipe Inner Diameter in Exchanger*Number of Tubes in Heat Exchanger/Mass Flowrate in Heat Exchanger))^(1/3)

Heat Transfer Coefficient for Condensation Outside Vertical Tubes

LaTeX Go Average Condensation Coefficient = 0.926*Thermal Conductivity in Heat Exchanger*((Fluid Density in Heat Transfer/Fluid Viscosity at Average Temperature)*(Fluid Density in Heat Transfer-Density of Vapor)*[g]*(pi*Pipe Outer Dia*Number of Tubes in Heat Exchanger/Mass Flowrate in Heat Exchanger))^(1/3)

Heat Transfer Coefficient for Plate Heat Exchanger

LaTeX Go Plate Film Coefficient = 0.26*(Thermal Conductivity in Heat Exchanger/Equivalent Diameter in Heat Exchanger)*(Reynold Number for Fluid^0.65)*(Prandlt Number for Fluid^0.4)*(Fluid Viscosity at Average Temperature/Fluid Viscosity at Tube Wall Temperature)^0.14

Vertical Tube Loading for Outside Condensation Formula

LaTeX Go

Outer Tube Loading = Condensate Flow/(Number of Tubes in Heat Exchanger*pi*Pipe Outer Dia)
Γ_{v Out} = W_c/(N_t*pi*D_O)

What is the Significance of Tube Loading in Condenser?

Tube loading in a condenser refers to the amount of vapor or gas that the condenser is designed to handle, and it is a critical parameter in the design and operation of the condensation process.
Tube loading directly affects the capacity of the condenser, determining the maximum amount of vapor it can efficiently handle. Understanding tube loading is crucial for designing condensers that can meet the required throughput of a process.
Tube loading considerations help in determining the optimal flow rate of the cooling medium (often water) through the condenser. Controlling the cooling medium flow rate is essential for maintaining the desired temperature conditions for condensation.

How to Calculate Vertical Tube Loading for Outside Condensation?

Vertical Tube Loading for Outside Condensation calculator uses Outer Tube Loading = Condensate Flow/(Number of Tubes in Heat Exchanger*pi*Pipe Outer Dia) to calculate the Outer Tube Loading, The Vertical Tube Loading for Outside Condensation formula is defined as the film formation that occurs over the tubes in a vertical condenser while the vapor gets condensed over the tubes from the outer periphery of tubes. Outer Tube Loading is denoted by Γ_{v Out} symbol.

How to calculate Vertical Tube Loading for Outside Condensation using this online calculator? To use this online calculator for Vertical Tube Loading for Outside Condensation, enter Condensate Flow (W_c), Number of Tubes in Heat Exchanger (N_t) & Pipe Outer Dia (D_O) and hit the calculate button. Here is how the Vertical Tube Loading for Outside Condensation calculation can be explained with given input values -> 0.57938 = 12.45/(360*pi*0.019).

FAQ

What is Vertical Tube Loading for Outside Condensation?

The Vertical Tube Loading for Outside Condensation formula is defined as the film formation that occurs over the tubes in a vertical condenser while the vapor gets condensed over the tubes from the outer periphery of tubes and is represented as Γ_{v Out} = W_c/(N_t*pi*D_O) or Outer Tube Loading = Condensate Flow/(Number of Tubes in Heat Exchanger*pi*Pipe Outer Dia). Condensate Flow refers to the flowrate of the liquid condensate formed due to condensation of vapors in a condenser type heat exchanger, Number of Tubes in Heat Exchanger refers to the count of individual tubes that form the heat transfer surface inside the heat exchanger & Pipe Outer Dia refers to the measurement of the outside or external diameter of a cylindrical pipe. It includes the pipe thickness into it.

How to calculate Vertical Tube Loading for Outside Condensation?

The Vertical Tube Loading for Outside Condensation formula is defined as the film formation that occurs over the tubes in a vertical condenser while the vapor gets condensed over the tubes from the outer periphery of tubes is calculated using Outer Tube Loading = Condensate Flow/(Number of Tubes in Heat Exchanger*pi*Pipe Outer Dia). To calculate Vertical Tube Loading for Outside Condensation, you need Condensate Flow (W_c), Number of Tubes in Heat Exchanger (N_t) & Pipe Outer Dia (D_O). With our tool, you need to enter the respective value for Condensate Flow, Number of Tubes in Heat Exchanger & Pipe Outer Dia 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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