Temperature at Inside Surface of Tube given Heat Transfer Calculator

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Heat Transfer in Condenser

✖Outside Surface Temperature is the Temperature at the outside surface of the tube.ⓘ Outside Surface Temperature [T₂]			+10% -10%
✖Heat Transfer is the amount of heat that is transferred per unit of time in some material, usually measured in watts (joules per second).ⓘ Heat Transfer [q]			+10% -10%
✖Tube Thickness is the thickness of the tube defined by a gauge number.ⓘ Tube Thickness [x]			+10% -10%
✖Thermal Conductivity is rate of heat passes through specified material, expressed as amount of heat flows per unit time through a unit area with a temperature gradient of one degree per unit distance.ⓘ Thermal Conductivity [k]			+10% -10%
✖The Surface Area of a three-dimensional shape is the sum of all of the surface areas of each of the sides.ⓘ Surface Area [SA]			+10% -10%

✖Inside Surface Temperature is the temperature at the inside surface of the tube.ⓘ Temperature at Inside Surface of Tube given Heat Transfer [T₃]

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Formula

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Temperature at Inside Surface of Tube given Heat Transfer

Formula

`"T"_{"3"} = "T"_{"2"}+(("q"*"x")/("k"*"SA"))`

Example

`"310.061K"="310K"+(("17.2W"*"650mm")/("10.18W/(m*K)"*"18m²"))`

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Temperature at Inside Surface of Tube given Heat Transfer Solution

STEP 0: Pre-Calculation Summary

Formula Used

Inside Surface temperature = Outside Surface Temperature+((Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area))
T₃ = T₂+((q*x)/(k*SA))
This formula uses 6 Variables

Variables Used

Inside Surface temperature - (Measured in Kelvin) - Inside Surface Temperature is the temperature at the inside surface of the tube.
Outside Surface Temperature - (Measured in Kelvin) - Outside Surface Temperature is the Temperature at the outside surface of the tube.
Heat Transfer - (Measured in Watt) - Heat Transfer is the amount of heat that is transferred per unit of time in some material, usually measured in watts (joules per second).
Tube Thickness - (Measured in Meter) - Tube Thickness is the thickness of the tube defined by a gauge number.
Thermal Conductivity - (Measured in Watt per Meter per K) - Thermal Conductivity is rate of heat passes through specified material, expressed as amount of heat flows per unit time through a unit area with a temperature gradient of one degree per unit distance.
Surface Area - (Measured in Square Meter) - The Surface Area of a three-dimensional shape is the sum of all of the surface areas of each of the sides.

STEP 1: Convert Input(s) to Base Unit

Outside Surface Temperature: 310 Kelvin --> 310 Kelvin No Conversion Required
Heat Transfer: 17.2 Watt --> 17.2 Watt No Conversion Required
Tube Thickness: 650 Millimeter --> 0.65 Meter (Check conversion here)
Thermal Conductivity: 10.18 Watt per Meter per K --> 10.18 Watt per Meter per K No Conversion Required
Surface Area: 18 Square Meter --> 18 Square Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

T₃ = T₂+((q*x)/(k*SA)) --> 310+((17.2*0.65)/(10.18*18))

Evaluating ... ...

T₃ = 310.061012879284

STEP 3: Convert Result to Output's Unit

310.061012879284 Kelvin --> No Conversion Required

FINAL ANSWER

310.061012879284 ≈ 310.061 Kelvin <-- Inside Surface temperature

(Calculation completed in 00.004 seconds)

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Home » Physics » Refrigeration and Air Conditioning » Condensers » Heat Transfer in Condenser » Temperature at Inside Surface of Tube given Heat Transfer

Credits

Created by Abhishek Dharmendra Bansile

Vishwakarma Institute of Information Technology, Pune (VIIT Pune), Pune

Abhishek Dharmendra Bansile has created this Calculator and 100+ more calculators!

Verified by sanjay shiva

national institute of technology hamirpur (NITH ), hamirpur , himachal pradesh

sanjay shiva has verified this Calculator and 100+ more calculators!

< 16 Heat Transfer in Condenser Calculators

Average Coefficient of heat transfer for vapour condensing outside of horizontal tubes of diameter D

Go Average Heat Transfer Coefficient = 0.725*(((Thermal Conductivity^3)*(Density of Liquid Condensate^2)*Acceleration due to Gravity*Latent Heat of Vaporization)/(Number of Tubes*Diameter of Tube*Viscosity of Film*Temperature Difference))^(1/4)

Overall Coefficient of Heat Transfer for Condensation on Vertical Surface

Go Overall Heat Transfer Coefficient = 0.943*(((Thermal Conductivity^3)* (Density of Liquid Condensate-Density)*Acceleration due to Gravity*Latent Heat of Vaporization)/(Viscosity of Film*Height Of Surface*Temperature Difference))^(1/4)

Mean Surface area of Tube when Heat transfer takes place from outside to inside surface of tube

Go Surface Area = (Heat Transfer*Tube Thickness)/(Thermal Conductivity*(Outside Surface Temperature-Inside Surface temperature))

Temperature at Outside Surface of Tube given Heat Transfer

Go Outside Surface Temperature = ((Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area))+Inside Surface temperature

Temperature at Inside Surface of Tube given Heat Transfer

Go Inside Surface temperature = Outside Surface Temperature+((Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area))

Thickness of Tube when Heat transfer takes places from outside to inside surface of tube

Go Tube Thickness = (Thermal Conductivity*Surface Area*(Outside Surface Temperature-Inside Surface temperature))/Heat Transfer

Heat transfer takes place from outside surface to inside surface of tube

Go Heat Transfer = (Thermal Conductivity*Surface Area*(Outside Surface Temperature-Inside Surface temperature))/Tube Thickness

Temperature of Refrigerant Vapour condensing Film given Heat Transfer

Go Vapour condensing film temperature = (Heat Transfer/(Heat Transfer Coefficient*Area))+Outside Surface Temperature

Temperature at Outside Surface of Tube provided Heat Transfer

Go Outside Surface Temperature = Vapour condensing film temperature-(Heat Transfer/(Heat Transfer Coefficient*Area))

Heat Transfer takes place from vapour refrigerant to outside of tube

Go Heat Transfer = Heat Transfer Coefficient*Area*(Vapour condensing film temperature-Outside Surface Temperature)

Overall Temperature difference when Heat transfer takes place from outside to inside surface of tube

Go Overall Temperature Difference = (Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area)

Heat Transfer in Condenser given Overall Heat Transfer Coefficient

Go Heat Transfer = Overall Heat Transfer Coefficient*Surface Area*Temperature Difference

Overall Temperature difference when Heat Transfer from vapour refrigerant to outside of tube

Go Overall Temperature Difference = Heat Transfer/(Heat Transfer Coefficient*Area)

Overall Temperature difference given Heat Transfer

Go Overall Temperature Difference = Heat Transfer*Thermal Resistance

Overall thermal resistance in condenser

Go Thermal Resistance = Overall Temperature Difference/Heat Transfer

Heat Transfer in Condenser given Overall Thermal Resistance

Go Heat Transfer = Temperature Difference/Thermal Resistance

Temperature at Inside Surface of Tube given Heat Transfer Formula

Inside Surface temperature = Outside Surface Temperature+((Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area))
T₃ = T₂+((q*x)/(k*SA))

What is heat and temperature?

The Heat is thermal energy transferred from a hotter system to a cooler system that are in contact. Temperature is a measure of the average kinetic energy of the is atoms or molecules in the system.

How to Calculate Temperature at Inside Surface of Tube given Heat Transfer?

Temperature at Inside Surface of Tube given Heat Transfer calculator uses Inside Surface temperature = Outside Surface Temperature+((Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area)) to calculate the Inside Surface temperature, The Temperature at Inside Surface of Tube given Heat Transfer formula gives the value of the temperature at the inside surface of tube. Inside Surface temperature is denoted by T₃ symbol.

How to calculate Temperature at Inside Surface of Tube given Heat Transfer using this online calculator? To use this online calculator for Temperature at Inside Surface of Tube given Heat Transfer, enter Outside Surface Temperature (T₂), Heat Transfer (q), Tube Thickness (x), Thermal Conductivity (k) & Surface Area (SA) and hit the calculate button. Here is how the Temperature at Inside Surface of Tube given Heat Transfer calculation can be explained with given input values -> 310.061 = 310+((17.2*0.65)/(10.18*18)).

FAQ

What is Temperature at Inside Surface of Tube given Heat Transfer?

The Temperature at Inside Surface of Tube given Heat Transfer formula gives the value of the temperature at the inside surface of tube and is represented as T₃ = T₂+((q*x)/(k*SA)) or Inside Surface temperature = Outside Surface Temperature+((Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area)). Outside Surface Temperature is the Temperature at the outside surface of the tube, Heat Transfer is the amount of heat that is transferred per unit of time in some material, usually measured in watts (joules per second), Tube Thickness is the thickness of the tube defined by a gauge number, Thermal Conductivity is rate of heat passes through specified material, expressed as amount of heat flows per unit time through a unit area with a temperature gradient of one degree per unit distance & The Surface Area of a three-dimensional shape is the sum of all of the surface areas of each of the sides.

How to calculate Temperature at Inside Surface of Tube given Heat Transfer?

The Temperature at Inside Surface of Tube given Heat Transfer formula gives the value of the temperature at the inside surface of tube is calculated using Inside Surface temperature = Outside Surface Temperature+((Heat Transfer*Tube Thickness)/(Thermal Conductivity*Surface Area)). To calculate Temperature at Inside Surface of Tube given Heat Transfer, you need Outside Surface Temperature (T₂), Heat Transfer (q), Tube Thickness (x), Thermal Conductivity (k) & Surface Area (SA). With our tool, you need to enter the respective value for Outside Surface Temperature, Heat Transfer, Tube Thickness, Thermal Conductivity & Surface Area 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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