Calculating temperature change over time

AI Thread Summary
To calculate the temperature change over time of water adjacent to a constant heat source, one can model the materials involved as thermal resistors. By analyzing the thermal resistances of each mass, including the insulator, ice, and cold water, the total heat flux can be determined. A one-dimensional heat flux assumption simplifies the process, allowing for the application of heat transfer equations to formulate linear equations. Solving these equations will yield temperature changes over time, although this can be complex. A visual representation, such as a sketch, can aid in understanding the heat transfer dynamics.
Fancy Moses
Messages
9
Reaction score
0
If I have a heating source that gives off constant single temperature heat which heats a mass of insulator, next to a mass of ice, next to a mass of cold water - how do I predict through calculation the temperature change over time of the water? I know the original temperatures, surface area, thickness of each mass, and the given temperature of the heating source (which is constant). Overall the goal is to change the masses/surface areas to achieve a certain end temperature for a given duration.

If you have any ideas it would be a real help!

Thanks
 
Last edited:
Engineering news on Phys.org
Any response would be nice... anyone with some good background in thermodynamics possibly. Perhaps a "It's quite difficult to do" or "Here's where to start"

Anybody?
 
Do a google on "thermal resistances". You can model each piece or block as a resistor. You can then place them in parallel and find the total heat flux. The heat flux through any single piece is then equal to the total via continuity. You can find temperatures that way.

If you want it as a function of time though...it will be substantially more difficult.
 
Hi Fancy Moses,
You should start by making a neat sketch. Then assume a one dimensional(depends on the problem) heat flux, use heat transfer equations to formulate the linear equations, solve the linear equations.

Mind the bold text.
 
Thanks for the help!
 

Thread 'Query on Isentropic relationships (such as PV^gamma = constant)'

Hi all, I have a question. So from the derivation of the Isentropic process relationship PV^gamma = constant, there is a step dW = PdV, which can only be said for quasi-equilibrium (or reversible) processes. As such I believe PV^gamma = constant (and the family of equations) should not be applicable to just adiabatic processes? Ie, it should be applicable only for adiabatic + reversible = isentropic processes? However, I've seen couple of online notes/books, and...
View full post »

Thread 'Dry sump pump issue'

I have an engine that uses a dry sump oiling system. The oil collection pan has three AN fittings to use for scavenging. Two of the fittings are approximately on the same level, the third is about 1/2 to 3/4 inch higher than the other two. The system ran for years with no problem using a three stage pump (one pressure and two scavenge stages). The two scavenge stages were connected at times to any two of the three AN fittings on the tank. Recently I tried an upgrade to a four stage pump...
View full post »

Similar threads

Rate of room temperature change related to U values of composites
Replies
10
Views
586
Calculating the temperature of a conductor from the current through it
Replies
10
Views
4K
How to calculate time to change the temperature of metal
Replies
10
Views
7K
Heat Transfer Through a Two Material System due to a Light Source
Replies
10
Views
3K
Temperature drop in an insulated pipe over 12 hours
Replies
1
Views
3K
A Carnot engine between the Earth's poles and equator
2
Replies
67
Views
6K
Temperature change at a given time
Replies
18
Views
2K
I have a few questions about refrigeration and AC units
Replies
1
Views
3K
I Temperature change due to mixing liquids, heating and heat losses
Replies
8
Views
2K
Calculating power dissipated in a heat exchanger
Replies
4
Views
940

Hot Threads

Recent Insights

Back
Top