Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes Solution

STEP 0: Pre-Calculation Summary
Formula Used
Heat Transfer Coefficient for Forced Convection = (2.54*((Excess Temperature)^3)*exp((System Pressure in Vertical Tubes)/1.551))
h = (2.54*((ΔTx)^3)*exp((p)/1.551))
This formula uses 1 Functions, 3 Variables
Functions Used
exp - n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable., exp(Number)
Variables Used
Heat Transfer Coefficient for Forced Convection - (Measured in Watt per Square Meter per Kelvin) - Heat Transfer Coefficient for Forced Convection is the heat transferred per unit area per degree celcius.
Excess Temperature - (Measured in Kelvin) - Excess Temperature is defined as the temperature difference between heat source and saturation temperature of the fluid.
System Pressure in Vertical Tubes - (Measured in Megapascal) - System Pressure in Vertical Tubes is the force applied perpendicular to the surface of an object per unit area over which that force is distributed.
STEP 1: Convert Input(s) to Base Unit
Excess Temperature: 2.25 Degree Celsius --> 2.25 Kelvin (Check conversion ​here)
System Pressure in Vertical Tubes: 0.00607 Megapascal --> 0.00607 Megapascal No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
h = (2.54*((ΔTx)^3)*exp((p)/1.551)) --> (2.54*((2.25)^3)*exp((0.00607)/1.551))
Evaluating ... ...
h = 29.0456384847018
STEP 3: Convert Result to Output's Unit
29.0456384847018 Watt per Square Meter per Kelvin -->29.0456384847018 Watt per Square Meter per Celcius (Check conversion ​here)
FINAL ANSWER
29.0456384847018 29.04564 Watt per Square Meter per Celcius <-- Heat Transfer Coefficient for Forced Convection
(Calculation completed in 00.020 seconds)

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Boiling Calculators

Critical Heat Flux by Zuber
​ LaTeX ​ Go Critical Heat Flux = ((0.149*Enthalpy of Vaporization of Liquid*Density of Vapor)*(((Surface Tension*[g])*(Density of Liquid-Density of Vapor))/(Density of Vapor^2))^(1/4))
Correlation for Heat Flux proposed by Mostinski
​ LaTeX ​ Go Heat Transfer Coefficient For Nucleate Boiling = 0.00341*(Critical Pressure^2.3)*(Excess Temperature in Nucleate Boiling^2.33)*(Reduced Pressure^0.566)
Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes
​ LaTeX ​ Go Heat Transfer Coefficient for Forced Convection = (2.54*((Excess Temperature)^3)*exp((System Pressure in Vertical Tubes)/1.551))
Excess Temperature in Boiling
​ LaTeX ​ Go Excess Temperature in Heat Transfer = Surface Temperature-Saturation Temperature

Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes Formula

​LaTeX ​Go
Heat Transfer Coefficient for Forced Convection = (2.54*((Excess Temperature)^3)*exp((System Pressure in Vertical Tubes)/1.551))
h = (2.54*((ΔTx)^3)*exp((p)/1.551))

What is Heat Transfer?

Heat transfer is a discipline of thermal engineering that concerns the generation, use, conversion, and exchange of thermal energy between physical systems. Heat transfer is classified into various mechanisms, such as thermal conduction, thermal convection, thermal radiation, and transfer of energy by phase changes.

Define Thermal Conductivity & Factors affecting it?

Thermal conductivity is defined as the ability of a substance to conduct heat. Factors Affecting The Thermal Conductivity are: Moisture, Density of material, Pressure, Temperature & Structure of material.

How to Calculate Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes?

Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes calculator uses Heat Transfer Coefficient for Forced Convection = (2.54*((Excess Temperature)^3)*exp((System Pressure in Vertical Tubes)/1.551)) to calculate the Heat Transfer Coefficient for Forced Convection, The Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes formula is defined as a function of excess temperature and system pressure. Heat Transfer Coefficient for Forced Convection is denoted by h symbol.

How to calculate Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes using this online calculator? To use this online calculator for Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes, enter Excess Temperature (ΔTx) & System Pressure in Vertical Tubes (p) and hit the calculate button. Here is how the Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes calculation can be explained with given input values -> 29.04564 = (2.54*((2.25)^3)*exp((6070)/1.551)).

FAQ

What is Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes?
The Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes formula is defined as a function of excess temperature and system pressure and is represented as h = (2.54*((ΔTx)^3)*exp((p)/1.551)) or Heat Transfer Coefficient for Forced Convection = (2.54*((Excess Temperature)^3)*exp((System Pressure in Vertical Tubes)/1.551)). Excess Temperature is defined as the temperature difference between heat source and saturation temperature of the fluid & System Pressure in Vertical Tubes is the force applied perpendicular to the surface of an object per unit area over which that force is distributed.
How to calculate Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes?
The Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes formula is defined as a function of excess temperature and system pressure is calculated using Heat Transfer Coefficient for Forced Convection = (2.54*((Excess Temperature)^3)*exp((System Pressure in Vertical Tubes)/1.551)). To calculate Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes, you need Excess Temperature (ΔTx) & System Pressure in Vertical Tubes (p). With our tool, you need to enter the respective value for Excess Temperature & System Pressure in Vertical Tubes 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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