What is Heat transfer: Definition and 943 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.

View More On Wikipedia.org
Recent contents Top users
  1. H

    How to transfer analysis result to second analysis in Abaqus

    Hi, I have to check the buckling of a beam in fire. To do this I am following the below stages: 1. Conduct a heat transfer analysis ( transient ) for 30 minutes in fire , to find out the temperature history of the beam. Please not the temperature of the beam is not uniform 2. perform 6 runs...
  2. B

    Calculating Heat Transfer Through Sandwich Materials

    Hi, I'm looking for some help regarding heat transfer through some sandwiched materials. We have a pneumatic cylinder with the stainless steel 303 cylinder rod attached to a block of aluminium 6082 t6 50mm high x 40mm wide x 10mm deep. This block is attached to a block of polyurethane, shore...
  3. P

    Help in laser simulation in COMSOL

    hi im supposed to simulate a vcsel laser for my thesis i got problem in selecting physics.. i should check its heat transfer and threshold current but i don't know which physics should i choose ! does anyone know about vcsel's physical structure in Comsol ? by the way does anyone know that how...
  4. B

    Open System, Heat Transfer & Thermo I

    1. Homework Statement We want to heat up 200 liters of water in a bathtub from 15 ◦C to 30 ◦C. The temperature is increased by adding marble stones to the water. The initial temperature of the marble stones is 773, 15 K. Assume that the marble is rigid, with the heat capacity cm = 0.88 J ·K−1...
  5. D

    Convective heat transfer coefficients of fuel oil?

    I'm setting up a thermal resistance network to determine the heat loss through the insulated wall of a heated fuel/crude oil tank but i can't seem to find values for the convective heat transfer coefficient of the fuel oil (kerosene) or the crude oil at elevated temperatures. I have only found...
  6. E

    Overall heat transfer coefficient for free convection exchanger

    I am trying to design a heat exchanger for a stratified hot water tank which means that the heat transfer on that side of the exchanger will be totally dependent on free convection. I plan on using a shell and tube set-up but I have no idea on how to calculate the required mass flow rate from...
  7. M

    Engineering heat transfer problem for critical radius

    Homework Statement A pipe of internal radius r1=0.03 m is built to have conductivity variable with radius: k=ar2, where a=250 Wm/K. 1) Find the critical radius r2 for the maximum heat transfer by convection from its external surface if the heat transfer coefficient is h2=30 W/m2K. Homework...
  8. A

    Does Adding a Finned Heat Sink Justify Improved Heat Transfer Rates?

    Hey, long time reader, new user. I have a probably simple fin question. If you all don't mind. I honestly just need to nail down the equations. Don't quite need a solution. A fan blows air over the top surface of a hot electronic component (size of 10 mm x 10 mm) with an average convective...
  9. rsk2mc

    PCB Heat Transfer Problem

    Hello, I will try and provide as much detail to the problem as I can with the hope someone can help me solve this. We are currently working on a wireless project that contains high electrical currents, because of this the box the electronics are enclosed in experience quite a temperature rise...
  10. H

    Heat Transfer through a cooking pot

    Hello, I am working a designing a cooking pot with thermoelectrics integrated into the design. I am trying to find the heat flow through the pan to estimate how much electricity the design will produce. First off some constants - The design has a base area of .0491 m2, or a diameter of 25 cm...
  11. Ali Durrani

    Heat Transfer through fins

    If hot air passing through a tube which is exposed to the atmospheric temperature is to be cooled at a certain temperature, fins are installed to increase the heat transfer from the hot air, which one is better design? to install the fins inside the pipe or outside the pipe ? and why?
  12. N

    Thermodynamics question thanks so much for the help

    Homework Statement a small lump of ice at 0 degrees celsius falls to the Earth's surface. when the hailstone hist the surface, all of the kinetic energy of the hailsotne is transferred to thermal energy in the ice. calculate the minimum speed of the hailstone so that it just melts when it hits...
  13. Ian Limjap

    Heat transfer -- one-dimensional energy balance for the heating of a fluid....

    Homework Statement Perform a one-dimensional energy balance for the heating of a fluid through a hot pipe in order to develop a differential equation that governs the variation of the mean temperature of the fluid along the length pipe. The pipe has an inner diameter D and length L; its walls...
  14. Ian Limjap

    Heat transfer -- length of the tube required to heat water....

    Homework Statement Water flowing at the rate 3.5 kg s−1 through a tube with an inner diameter of 2 cm is to be heated from 20 to 40◦C. If the tube wall temperature is maintained at 90◦C, determine the length of the tube required. Homework Equations Q'=Cp*m*(DeltaT) Q=2*pi*r*L*Q' The Attempt...
  15. C

    Heat transfer question-COnvection+radiation

    Homework Statement A thin flat plate 2m×2m is hanging freely in air. The temperature of the surroundings is 25°C. Solar radiation is falling on one side of the plate at the rate of 500 W/m2. What should be the convective heat transfer coefficient in W/m2°C, if the temperature of the plate is...
  16. G

    Stability of radiative heat transfer

    Hi everyone. I have here a problem understanding the stability of heat transfer through radiation. I'll give you some background, and later on I'll describe the physical problem. Background I am simulating the unsteady radiative heat transfer between mutually visible surfaces of objects through...
  17. Soumalya

    Physical Significance of Thermal Diffusivity

    What physical interpretation can we draw from the thermophysical property of thermal diffusivity? How might we visualize the true physical meaning of this property and relate it to its definition?
  18. T

    What Causes Temperature Gradient at y=0 in Convective Heat Transfer?

    Hello, Consider this exemple: At y = 0 It is said that the heat is transferred by conduction because the fluid has a velocity equal to 0 (no-slip conditions). But the temperature of the fluid for y=0 is equal to Ts(temperature of the surface) so how come there's a gradient in the temperature...
  19. MexChemE

    Heat and mass transfer -- Boundary conditions & balance terms

    Hello, PF! Recently, while reading chapter 10 (microscopic energy balances) of the second edition of BSL, I found a minor discrepancy which is confusing me, especially when considering the mathematical analogies of heat and mass transfer. In section 10.1, the authors introduce Newton's law of...
  20. A

    Thermodynamics - Carnot Cycle-esque question?

    Homework Statement A reversible heat engine produces work from the temperature difference that exists between a mass of m = 9 kg of an ideal gas (cv = 716 J/kgK, R = 287 J/kgK) in a rigid container and a heat reservoir at THR = 285 K. The only heat transfer interaction experienced by the...
  21. T

    Heat Transfer and Heat added to a system

    Hello, Let's say the temperature of an object is constant and equal to 20 °C. If we put this object to a surrounding which has a temperature of 25 °C, than there's heat transfer from the surrounding to object by convection. If q is the heat transfer (in Watt) than after a specific time (Δt)...
  22. jdawg

    Solve Heat Transfer Homework: Find Constant K in kW/min

    Homework Statement One kg of Refrigerant 22 initially at p1=0.9 MPa, u1=232.92 kJ/kg, is contained within a rigid closd tank. The tank is fitted with a paddle wheel that transfers energy to the refrigerant at a constant rate of 0.1kW. Heat transfer from the refrigerant to its surroundings...
  23. T

    Heat transfer through finite temperature difference

    Hello, Heat transfer through finite temperature difference is known a irreversible process because heat cannot be transferred from cold to hot temperature without doing any additional work. But, how this transfer affect the efficiency of the system? How this heat transfer decrease the amount of...
  24. C

    Heat Transfer Question Interpretion

    Hello, i have a simple question regarding a problem I am solving. Here it is: A 4x4m flat plate maintained at a constant temperature of 80 degree Celsius subjected to parallel flow of air at 1 atm,20 degree celsius and 10m/s.The total drag force acting on the UPPER surface of plate is measured...
  25. A

    Thermodynamics Problem - Adiabatic Reversible Process....

    Homework Statement A specific type of ideal gas has a specific heat capacity at constant pressure (cp=cv+R) that is a function of temperature T, such that cp=0.5+876T, where cp has units of J/kg/K and T has units of K. The gas, which is initially at T1 = 294 K and P1 = 1x105 Pa, undergoes a...
  26. Soumalya

    Engineering A choice for a Heat and Mass Transfer Reference TextBook

    Which of the two books would you pick as an undergraduate engineering student if you were to study the subject of Heat and Mass Transfer entirely on your own? 1. Heat and Mass Transfer: Fundamentals and Applications by Cengel & Ghajar 2. Fundamentals of Heat and Mass Transfer by...
  27. Z

    Heat Transfer by Nichrome wire and Steel

    Hello all. I want to do some experiment but I thought I would go over this theoretically before trying out and now I have a doubt. Homework Statement I have a driver which produces say 600mA. I connect the driver to one end of Nichrome Wire. And the other end of Nichrome wire is in contact...
  28. A

    Calculating Heat Transfer by Radiation: Copper Block at 250 C and 1200 sq cm

    Homework Statement How much heat is radiated in water per sq cm, from a block of copper at 250 C and 1200 . Homework Equations e= 0.6 Hr= (Area)(e)(5.67x10^-8 W/m^2K^4)(temperature)^4 The Attempt at a Solution i'm sorry, i don't know how to solve this one...
  29. E

    Thermal Resistance due to Convection Heat Transfer

    Homework Statement 1) A typical wall construction for a single-family residence might consist of 0.375 inches of outer sheathing (insulating board, hardwood siding, etc.), 3.5 inches of mineral fiber insulation and then a 0.375 inches inner surface (gypsum, etc.). Typical thermal...
  30. R

    Heat Transfer maximum current a wire can carry

    Homework Statement A copper wire has a diameter of 204.3 mil (1 mil = 0.001 in) and a resistance per unit length of 8.31x10^-4 ohm/m. The wire is coated with plastic insulation with thermal conductivity k = 0.20 W/(m K). The upper temperature limit of the plastic is 400 K. The air surrounding...
  31. S

    Two rods are connected one silver and the other gold.

    Two metal rods, one silver and the other gold, are attached to each other. The free end of the silver rod is connected to a steam chamber, with a temperature of 100oC, and the free end of gold rod to a ice water bath, with a temp of 00 C. The rods are 5.0 cm long and have a square cross-section...
  32. C

    Heat transfer by infrared radiation (the very basics)

    Q. Regards infrared radiation, conduction and convection, is infrared radiation the starting point, the fundamental source of heat energy (thermal energy), and the fundamental source of the other two? I’m thinking that the Sun predates the Earth by 30 million or so years so the first heat...
  33. Sobak

    Boundary conditions for heat transfer in the pipe

    Consider the heat equation dT/dt - aΔT + v⋅∇T = S where S is a source term dependent of the radiation intensity I and the temperature T. The fluid velocity v is prescribed. We also consider the radiative transfer equation describing the radiative intensity I(x,ω,t) where ω is the ray direction...
  34. S

    Heat transfer by thermal radiation

    Homework Statement The ice is placed in water, we know the surface area A, emissivity of both ice and water, Stefan-Boltzmann constant and the temperature of both ice and water. What is the equation for heat transfer rate between water and ice? Homework Equations Heat transfer rate by...
  35. I

    Heat transfer from an air current across a body of water

    Hello, I am looking for the general direction that I need to go to calculate the following: The time-dependent change of temperature of a finite, but continuous, mass of air moving across a water/air boundary. Let's say you have 150 degree F air moving at 0.007m^3/s over a relatively infinite...
  36. P

    Is Vaporizer Configuration Critical in Reboiler Heat Transfer Calculations?

    For a general cooler or heater, the calculations for heat transfer are based on the tube side and shell side. So 1) For a reboiler would the vaporizer be the "shell" since that's where the heat transfer occurs? 2) How do you account for the phase change? I used Q = m*cP*dT to calculate duty...
  37. P

    How to Design a Heat Exchanger Without Knowing Tube and Shell Diameters

    Lets assume an exchanger that is 100% efficient (no heat loss). Duty (Q) and LMTD is known. Your overall heat transfer coefficient (U) is dependent on your transfer coefficients on the shell and tube side, and the resistance of the pipe walls (we're going to ignore entrance effects and fouling)...
  38. MexChemE

    Non-dimensionalization of the energy balance

    Good evening people of PF! I have recently encountered a problem from Himmelblau's Basic Principles and Calculations in Chem. E. which asks to set up an energy balance for a tank, and then non-dimensionalize the differential equation before solving it. It's not the most complex task, but it's...
  39. D

    What is the temperature of an iron bar after 1 hour of convection heating?

    Hello, my problem is the following: I have an iron bar, which can be heated by convection through an electric cable with power Q. I want to know the temperature of the iron bar after 1 hour has passed, both in the case when the power is turned on and when it is off (Q=0). the input parameters...
  40. D

    Courses to be taken for becoming a drilling engineer

    Hello, I have completed my bachelors degree in Mechanical Engineering and will be joining for my masters degree in mechanical engineering shortly. I am planning to become a drilling engineer in the petroleum industry. So in order to achieve my goal, what are the recommended courses that i...
  41. B

    Heat transfer in a large steel box

    If I have a large steel box that is 27ft x 8ft x 8ft and has 7 in thick walls with 4 non-insulated windows each 1ft by 1ft, where does heat escape from inside the box, is it the windows and the walls? So if the inside temperature needs to be 72 F and the outside air is 0 F how much heat would...
  42. L

    Finding Temperature Distribution Across Rad Shields in a Vacuum Furnace

    Hi, We are doing radiation analysis using solidworks simulation..And as a part of this project i need to validate it theretically..Hope i will get some help here.. Its cylindrical vacuum furnace,where inside strip type heating elements are placed which are connected to transformer of 60kW.After...
  43. Z

    Mass of substance in a system (Heat transfer)

    Homework Statement A solid, 2.00 kg cube of nitrogen at -220.0oC is added to a 1.00 kg mixture of ice and water at 0.00 oC. If the final temperature of the mixture is -100.0 oC, how much ice was there in the original mixture? Homework Equations e=mct e=mLv/f The Attempt at a Solution...
  44. S

    Heat transfer coeffcient expression

    Homework Statement Getting an expression for the convective heat tarnsfer coefficient. Homework Equations See attached images The Attempt at a Solution I have been reading about the boundary layers. Here is an extract of my notes corresponding to thermal boundary layer and consequently my...
  45. S

    Radiation - mode of heat transfer

    Hi All, I'm trying to understand the radiation mode of heat transfer. I have been reading the book by Incropera - "Fundamentals of heat and mass transfer" and have a few very basic questions. 1) Firstly, thermal radiation is the energy emitted by matter that is at non-zero temperature...
  46. M

    Determining the result or state of system in a calorimeter

    1. The problTfem statement, all variables and given/known data Determine the result when 100g of steam at 100C is passed into a mixture of 200g of Water and 20g of ice at exactly 0C in a calorimeter which behaves thermally as if it were equvalent to 30g of water. Homework Equations FInding the...
  47. V

    Radiative heat transfer in multi-component media

    hi all i need guidance on how to solve this exercise. thank you all in advance
  48. C

    Calculating Water Evaporation Time: Heat Transfer Question Explained

    Homework Statement 1litre of water is heated by an electric burner which couples 500W into the water. How long will it take to raise the temperature of the water to boiling point? How much longer will it take for the water to evaporate?Homework Equations Δu=mCΔT, where The Attempt at a...
  49. V

    Heat transfer from copper coil

    Hi, I am currently doing my final year project in college. I am using a copper pipe which is 8m long with 8.5mm ID and 10mm OD. The pipe is bent into a coil which will be placed inside a acrylic box. The aim is to pump water through the coil to get the box to a desired temperature. At the...
  50. Keith

    A question about heat transfer in our atmosphere

    So I've been wondering this for a couple days now: Is radiation the only means for decreasing the internal energy of our atmosphere? I know that in kinetic theory the molecules are similar to bouncy balls and if they were in contact with the vacuum of space, the air molecules would have no...
Back
Top