What is Heat flow: Definition and 104 Discussions

Heat transfer is a discipline of thermal engineering that concerns the generation, use, conversion, and exchange of thermal energy (heat) between physical systems. Heat transfer is classified into various mechanisms, such as thermal conduction, thermal convection, thermal radiation, and transfer of energy by phase changes. Engineers also consider the transfer of mass of differing chemical species, either cold or hot, to achieve heat transfer. While these mechanisms have distinct characteristics, they often occur simultaneously in the same system.
Heat conduction, also called diffusion, is the direct microscopic exchange of kinetic energy of particles through the boundary between two systems. When an object is at a different temperature from another body or its surroundings, heat flows so that the body and the surroundings reach the same temperature, at which point they are in thermal equilibrium. Such spontaneous heat transfer always occurs from a region of high temperature to another region of lower temperature, as described in the second law of thermodynamics.
Heat convection occurs when bulk flow of a fluid (gas or liquid) carries heat along with the flow of matter in the fluid. The flow of fluid may be forced by external processes, or sometimes (in gravitational fields) by buoyancy forces caused when thermal energy expands the fluid (for example in a fire plume), thus influencing its own transfer. The latter process is often called "natural convection". All convective processes also move heat partly by diffusion, as well. Another form of convection is forced convection. In this case the fluid is forced to flow by use of a pump, fan or other mechanical means.
Thermal radiation occurs through a vacuum or any transparent medium (solid or fluid or gas). It is the transfer of energy by means of photons in electromagnetic waves governed by the same laws.

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  1. A

    (Heat Flow) Find the Temperature and Cooling Rate

    I'm really not sure, have I gone through the right process here? I didn't actually finish the calculation, I'm just curious about the process.
  2. A

    (Heat Flow) Find the Temperature Distribution

    EDIT: Typo, the Z' should be Z''
  3. Drakkith

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    What effects would having 2-3 times the current heat flow of the Earth have had in the past? Would this have had a significant effect on global temperatures?
  4. 5

    Calculating Heat Flow Ratio of Two Water Tanks

    Homework Statement There are two tanks with water, there are standing very close to each other. Tank 1 is having a temperature of 0 degrees and tank 2 is having a temperature of 10 degrees. The heatflow between the two is Q1. Then tank two is getting a temperature of 100 degrees. That heatflow...
  5. D

    Thermodynamics - Thermal Conductivity + Heat Flow

    Homework Statement The brick wall of a building has dimensions of 4m by 10m, it is 15cm thick with a coefficient of thermal conductivity of 0.8 (Wm^-1C^-1). (a) How much heat flows through the wall in a 12-hour period when the average inside temperature is 20 C and the average outside...
  6. J

    Heat Flow across cylindrical surface

    Homework Statement The temperatur at the point (x,y,z) in a substance with conductivity K=6.5 is u(x,y,z)=2y2+2z2. Find the rate of heat flow inward across the cylindrical surface y2+z2=6, 0≤x≤4. Homework Equations F=-k∇u -k∫∫s∇u*ds The Attempt at a Solution So F=-6.5(0,4y,4z) I...
  7. T

    Trying to improve heat flow through a rod by changing its shape.

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  8. A

    Explain Entropy & Heat Flow: Thermodynamic Formulas & Multiplicity

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  9. A

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  10. S

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  11. H

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  12. M

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  13. R

    Heat Flow Velocity in Solids: Factors & Impact

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  14. Z

    Heat Flow in Three Identical Rods of Metal

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  15. M

    Thermodynamics - heat flow of a rubber band

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  16. B

    Finding U-value for Wall with Plasterboard Lining and Air Gap

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  17. P

    Rate of heat flow by conduction question

    Homework Statement a bushwalker wears clothing that is 2.0cm thick with a surface area of 1.9m^2. The material has k = 0.042 WM^-1K^-1. Her skin temperature is 33 degrees C and the ambient temp. is 0 degrees C. Calculate rate of heat loss through her clothing while she is sitting...
  18. M

    Calculating Heat Flow Through a Block of Material

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  19. M

    Measuring Thermal Conductivity of a Wall: Simulating & Measuring Heat Flow

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  20. P

    Boundary Conditions for 1D heat flow in Wire with source

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  21. H

    How Long Does It Take for Ice to Melt in a Styrofoam Cooler?

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  22. L

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  23. 8

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  24. Y

    Solve for Cold Surface Temp. of Slab with Heat Flow Rate 240 W

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  25. T

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  26. T

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  27. C

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  28. H

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  29. O

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  30. E

    Effect of specific heat of a substance on the rate of heat flow

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  31. C

    One dimensional transient heat flow of a hoop

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  32. E

    Calculate Heat Flow Rate Across a Wall: 100 W Lightbulbs

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  33. J

    Heat Flow Between Containers: What's True?

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  34. R

    Transient conductive heat flow using finite element method

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  35. A

    Work and Heat Flow of a Heat Engine Cycle

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  36. F

    Heat flow problem- what did I do wrong?

    A long rod, insulated to prevent heat loss along its sides, is in perfect thermal contact with boiling water (at atmospheric pressure) at one end and with an ice-water mixture at the other View Figure . The rod consists of 1.00-m section of copper (one end in steam) joined end-to-end to a length...
  37. Z

    How Is Work and Heat Calculated in Thermodynamic Processes?

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  38. P

    How Does Heat Transfer Through Welded Metal Bars Differ?

    Homework Statement A steel bar 10cm long is welded end-to-end to a copper bar 20cm long. Both bars are insulated perfectly along their sides. Each bar has a radius of 2.0cm. The free end of the steel bar is maintained at 100 degrees C and the free end of the copper bar is maintained at 0...
  39. M

    Proof of heat flow direction?

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  40. M

    MATLAB Matlab in applying Finite Difference for Temp. distribution/ rate of heat flow

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  41. P

    Heat flow equation: solid

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  42. T

    Solving Problems Involving Ge, Well Lagged Wires, and Heat Flow

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  43. R

    Calculating Heat Flow in Snow: 0°C & 37°C

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  44. M

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  45. K

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  46. B

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  47. C

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  48. D

    What is the energy loss per second for a wall with two different materials?

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  49. S

    Finding Heat Flow in a Brayton Cycle for Helium

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  50. G

    How Much Heat is Needed to Raise the Temperature of a House?

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