How to calculate the temperature of an insulated heat emitting body?

tonyjeffs · Jun 2, 2007

How would I calculate the temperature of a theoretical heat-emitting
body wrapped in insulation? If the temperature difference across
the insulation layer is D, is there a linear relationship between D
and the thickness of insulation; or is it more complicated than that?

Thanks
tony

FredGarvin · Jun 2, 2007

If this is a pipe and you want a quick and dirty answer without getting into heat transfer, take a quick look here:

http://www.engineeringtoolbox.com/heat-loss-insulated-pipes-d_1151.html

tonyjeffs · Jun 3, 2007

FredGarvin said:

If this is a pipe and you want a quick and dirty answer without getting into heat transfer, take a quick look here:

http://www.engineeringtoolbox.com/heat-loss-insulated-pipes-d_1151.html

Hi Fred
I was wondering about the insulating effect of the atmosphere on the earth, hence the question.

The graphs of pipe insulation are interesting but puzzling. It looks like the temperature difference across the insulation is proportional to the log of heat loss. I don't understand why it's the log rather than a simple relationship.

It's a long time since I've studied physics.
I found this equation somewhere else for heat conduction, which makes sense to me, but doesn't seem to apply to the pipe insulation.
H = kA (T2 - T1)/L (H=joules/sec; A=area T=temp L=distance)

Thanks
Tony

How to calculate the temperature of an insulated heat emitting body?

1. How do you calculate the temperature of an insulated heat emitting body?

2. What is the formula for calculating the temperature of an insulated heat emitting body?

3. Can the temperature of an insulated heat emitting body be calculated without knowing its power or surface area?

4. How does insulation affect the temperature of a heat emitting body?

5. Are there any other factors that can affect the temperature of an insulated heat emitting body?

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