Heat transfer coefficient of cylinder in free air?

AI Thread Summary
In a discussion about the heat transfer coefficient of a steel cylinder heated to 1000°C in free air at 20°C, it is noted that convective heat transfer is likely to dominate over radiation, assuming negligible radiation effects. The cylinder, with a diameter of 6 cm and length of 3.5 cm, will experience natural convection due to small air circulation around it. The melting point of steel is approximately 1370°C, indicating that the cylinder will not melt at 1000°C. While the cylinder may not radiate significant heat, it can still transfer some heat through radiation, albeit over a limited area. Overall, the primary mode of heat dissipation will be through convection in this scenario.
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let say a cylinder(steel) is 6 cm diameter and length of 3.5 cm length. and is heated to 1000 degree c.

in a room of free air and room temperature of 20.


will convective heat transfer dominate? it radiation is negligible?
what would the convective heat transfer be?
what power(watt) is needed to maintain the 1000 degree ?
 
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im assuming introducing an electric current into the cylinder is what heats it,
and that 1000c won't melt it (i don't know conversions)
and that "free" air means a normal environment (no vacuum pressuer etc.)

i think convection or random air circulation would be the major dissapent of heat, if that's what you mean
hot metal from my very limited experience dosent radiate well, ie you can put you hand near a fresh weld and as long as you don't touch it your fine
though radiators (house heat) obviously use radiation, you get a rather slow steady temp rise
by the small amount of convection pulling cool air tward it and normal air circulation spreading it around

thats not saying you don't get decent radiant heat, but that its kept to an area of a few inches
where as somthing like fire radiates in a relativley large area
 
If the steel cylinder is the only heat source in the system without any fan but the system has small air circulation, it is a natural convection. The melting point for steel is around 1370 C, so theoretically, it will not melt.

However, if you look at how the hot iron was taken out of the furnace and you see the red glowing part of the iron, it is primary light radiation heat transfer. Personally, I haven't seen if there is any red glowing part on the steel when it reaches to 1000C. But let's assume it's black steel.
 

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