Measuring Heat Loss in a Hollow Cylinder

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Discussion Overview

The discussion revolves around measuring heat loss in a hollow cylinder heated from the outside by a NiCr wire, with cooling provided by water running through the center. Participants explore methods to determine the heat flux transfer rate outward, considering the setup involving thermocouples and insulation.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • The original poster describes a setup with thermocouples to measure temperature differences and calculate heat transfer rates, seeking verification methods for outward heat transfer.
  • One participant asks about the thermal properties and thickness of the insulation, suggesting that this information is crucial for accurate calculations.
  • Another participant notes that the temperature on the outside surface of the insulation is too close to ambient to provide useful data.
  • It is mentioned that measuring and modeling heat conduction through the solid pipe is easier than accurately modeling convective heat transfer in the described scenario.
  • A suggestion is made to enclose the insulated pipe in a duct, blow air through it, and measure the temperature change and mass flow of the air as a potential method for measurement, though it is questioned whether this is worth the effort.
  • The original poster acknowledges the non-uniformity of the insulation and its properties, and reiterates the challenge of measuring outward heat transfer without being constrained by existing insulation and temperature measurements.

Areas of Agreement / Disagreement

Participants express differing views on the feasibility and usefulness of various measurement methods, indicating that there is no consensus on the best approach to determine the outward heat transfer rate.

Contextual Notes

Participants highlight limitations related to the unknown thermal properties and thickness of the insulation, as well as the challenges posed by the geometrical shape of the insulated object in free air.

monster_me
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I am working on a problem where I am heating a hollow cylinder from the outside with a NiCr wire which is then insulated. The pipe is cooled by running water through the center of the hollow pipe. I would like to find the heat flux transfer rate outward.

So my set up from the inside to the outside of the pipe is thermocouple 1, thermocouple 2, NiCr wire, insulation, thermocouple 3. Thermocouple 1 and 2 and inside the cylinder wall. Thermocouple 3 is on the outside surface of the insulation. Using temperatures from thermocouple 1 and 2, I can determine the heat transfer rate into the cylinder and then I can subtract that from the power input into the NiCr wire to determine heat transfer rate outwards. However I would like to verify this number using the temperature on the outside surface of the insulation. Is there a way to do this?

Thanks
 
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Do you know the thermal properties of the insulation and its thickness?
 
The temperature on the outside surface of insulation is too close to ambient to be useful.
 
It is much easier to measure and model heat conduction through a solid (i.e. the metal pipe) than to model convective heat transfer accurately, especially for this type of situation where (if I understand it right) you have an insulated object, probably with a not very well defined geometrical shape, in free air.

If you really want to measure it, I would be inclined to enclose the insulated pipe in a duct, blow air through it, and measure the temperature change and mass flow of the air. But it's probably not worth the bother.
 
Travis_King said:
Do you know the thermal properties of the insulation and its thickness?

The the properties and thickness of the insulation is not particularly uniform and not known with any reasonable accuracy.

AlephZero said:
It is much easier to measure and model heat conduction through a solid (i.e. the metal pipe) than to model convective heat transfer accurately, especially for this type of situation where (if I understand it right) you have an insulated object, probably with a not very well defined geometrical shape, in free air.

If you really want to measure it, I would be inclined to enclose the insulated pipe in a duct, blow air through it, and measure the temperature change and mass flow of the air. But it's probably not worth the bother.


You are the pipe and the heating wire surrounding the pipe are reasonably circular, however the insulation is not. You are correct and the insulated pipe is in free air. At the moment, everything outside the heat generating wire is exchangeable. Is there any way to measure the outward heat transfer if I were not constrained to the existing insulation and and outside temperature measurement?
 

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