Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger Calculator

✖Water Temperature is the bulk temperature of water that is allocated on tube side of shell and tube heat exchanger.ⓘ Water Temperature [t_w]			+10% -10%
✖Fluid Velocity in Heat Exchanger is defined as the speed with which it flows in a Heat exchanger surface.ⓘ Fluid Velocity in Heat Exchanger [V_f]			+10% -10%
✖Pipe Inner Diameter in Exchanger is the inner diameter where in the flow of fluid takes place. Pipe thickness is not taken into account.ⓘ Pipe Inner Diameter in Exchanger [D_i]			+10% -10%

✖Tube Side Heat Transfer Coefficient is the heat transfer coefficient for the fluid allocated in the tube side in shell and tube heat exchanger.ⓘ Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger [h_i]

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Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger Solution

STEP 0: Pre-Calculation Summary

Formula Used

Tube Side Heat Transfer Coefficient = 4200*(1.35+0.02*(Water Temperature))*(Fluid Velocity in Heat Exchanger^0.8)/(Pipe Inner Diameter in Exchanger)^0.2
h_i = 4200*(1.35+0.02*(t_w))*(V_f^0.8)/(D_i)^0.2
This formula uses 4 Variables

Variables Used

Tube Side Heat Transfer Coefficient - (Measured in Watt per Square Meter per Celcius) - Tube Side Heat Transfer Coefficient is the heat transfer coefficient for the fluid allocated in the tube side in shell and tube heat exchanger.
Water Temperature - (Measured in Celsius) - Water Temperature is the bulk temperature of water that is allocated on tube side of shell and tube heat exchanger.
Fluid Velocity in Heat Exchanger - (Measured in Meter per Second) - Fluid Velocity in Heat Exchanger is defined as the speed with which it flows in a Heat exchanger surface.
Pipe Inner Diameter in Exchanger - (Measured in Millimeter) - Pipe Inner Diameter in Exchanger is the inner diameter where in the flow of fluid takes place. Pipe thickness is not taken into account.

STEP 1: Convert Input(s) to Base Unit

Water Temperature: 55 Celsius --> 55 Celsius No Conversion Required
Fluid Velocity in Heat Exchanger: 2.5 Meter per Second --> 2.5 Meter per Second No Conversion Required
Pipe Inner Diameter in Exchanger: 11.5 Millimeter --> 11.5 Millimeter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

h_i = 4200*(1.35+0.02*(t_w))*(V_f^0.8)/(D_i)^0.2 --> 4200*(1.35+0.02*(55))*(2.5^0.8)/(11.5)^0.2

Evaluating ... ...

h_i = 13140.9817946018

STEP 3: Convert Result to Output's Unit

13140.9817946018 Watt per Square Meter per Kelvin --> No Conversion Required

FINAL ANSWER

13140.9817946018 ≈ 13140.98 Watt per Square Meter per Kelvin <-- Tube Side Heat Transfer Coefficient

(Calculation completed in 00.004 seconds)

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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

Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger Formula

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What is Shell and Tube heat exchanger?

A Shell and Tube Heat Exchanger is a type of heat exchanger widely used in various industrial processes to transfer heat between two fluids. It consists of a shell (a cylindrical vessel) and multiple tubes inside it. The two fluids flow in opposite directions, with one flowing inside the tubes (the tube-side fluid) and the other flowing outside the tubes but inside the shell (the shell-side fluid). Heat is exchanged between these two fluids through the tube walls.

What is the Significance of Tube Side Heat Transfer Coefficient?

Tube Side Heat Transfer Coefficient quantifies how effectively heat is exchanged between the fluid inside the tubes (tube-side fluid) and the fluid outside the tubes (shell-side fluid) in a Heat Exchanger. Tube Side Heat Transfer Coefficient depends on parameters such as Reynolds Number, Prandlt Number and Thermal Conductivity of Tube Side Fluid.

How to Calculate Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger?

Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger calculator uses Tube Side Heat Transfer Coefficient = 4200*(1.35+0.02*(Water Temperature))*(Fluid Velocity in Heat Exchanger^0.8)/(Pipe Inner Diameter in Exchanger)^0.2 to calculate the Tube Side Heat Transfer Coefficient, The Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger formula is a measure of how effectively heat is transferred from the water inside the tubes to the surrounding fluid or medium, typically in watts per square meter per degree Celsius (W/m²·°C). It quantifies the rate of heat transfer and is essential for designing and optimizing heat exchanger systems. Tube Side Heat Transfer Coefficient is denoted by h_i symbol.

How to calculate Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger using this online calculator? To use this online calculator for Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger, enter Water Temperature (t_w), Fluid Velocity in Heat Exchanger (V_f) & Pipe Inner Diameter in Exchanger (D_i) and hit the calculate button. Here is how the Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger calculation can be explained with given input values -> 13140.98 = 4200*(1.35+0.02*(328.15))*(2.5^0.8)/(0.0115)^0.2.

FAQ

What is Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger?

The Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger formula is a measure of how effectively heat is transferred from the water inside the tubes to the surrounding fluid or medium, typically in watts per square meter per degree Celsius (W/m²·°C). It quantifies the rate of heat transfer and is essential for designing and optimizing heat exchanger systems and is represented as h_i = 4200*(1.35+0.02*(t_w))*(V_f^0.8)/(D_i)^0.2 or Tube Side Heat Transfer Coefficient = 4200*(1.35+0.02*(Water Temperature))*(Fluid Velocity in Heat Exchanger^0.8)/(Pipe Inner Diameter in Exchanger)^0.2. Water Temperature is the bulk temperature of water that is allocated on tube side of shell and tube heat exchanger, Fluid Velocity in Heat Exchanger is defined as the speed with which it flows in a Heat exchanger surface & Pipe Inner Diameter in Exchanger is the inner diameter where in the flow of fluid takes place. Pipe thickness is not taken into account.

How to calculate Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger?

The Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger formula is a measure of how effectively heat is transferred from the water inside the tubes to the surrounding fluid or medium, typically in watts per square meter per degree Celsius (W/m²·°C). It quantifies the rate of heat transfer and is essential for designing and optimizing heat exchanger systems is calculated using Tube Side Heat Transfer Coefficient = 4200*(1.35+0.02*(Water Temperature))*(Fluid Velocity in Heat Exchanger^0.8)/(Pipe Inner Diameter in Exchanger)^0.2. To calculate Heat Transfer Coefficient for Water in Tube Side in Shell and Tube Heat Exchanger, you need Water Temperature (t_w), Fluid Velocity in Heat Exchanger (V_f) & Pipe Inner Diameter in Exchanger (D_i). With our tool, you need to enter the respective value for Water Temperature, Fluid Velocity in Heat Exchanger & Pipe Inner Diameter in Exchanger 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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