Heat Transfer Applications of Industrial Process




US$ 3500 Per participant


Process industry optimal operation is dependent on the continuous proper performance of the heating and cooling systems. Any problems and deterioration in such utilities affect the main process and thus the profits of the company.

In  addition,  the  correct  selection  of  the  thermal  equipment  appropriate  with  the  process  ensures  minimal  trouble- shooting and downtime. Equipment like furnaces and boilers use combustion of fuel to transfer the energy in the fuel to the process fluid or generate steam for different applications. 

Heat exchangers and cooling towers transfer heat from or to process fluid or dump heat to the environment. In many cases these heating processes  are inefficient with large amount of energy being  wasted. All intensified energy con- suming industry can benefit substantially by reviewing heat transfer processes and maximizing their potential saving. Lastly, Pinch technology optimize steam heating and water cooling requirements and thus reduce fuel cost




By attending course participants will be able to:

  • To analyze actual systems involving multiple modes of heat transfer.
  • To calculate heat flux and the temperature gradient through a wall due to steady-state conduction heat transfer.
  • To Calculate heat loss from a surface due to convection and radiation heat transfer.
  • To increase awareness on heat transfer in smelting furnaces. 
  • To illustrate how heat transfer could be modeled in a smelt- ing  furnace  refractory  and  how  different  lining  thickness could be estimated. 
  • To  increase  awareness  on  process  heating  by  burners  used in melting, drying and steam generation.
  • To assess the performance heat transfer systems.
  • To understand the concept and types of heat exchangers.
  • To increase awareness on heat recovery systems and meth- ods of maximizing heat gain. 




  • Module (01) Heat transfer fundamentals.
  • Module (02) Radiation Heat Transfer.
  • Module (03) Heat losses from surfaces.
  • Module (04) Burners.
  • Module (05) Heat exchangers.
  • Module (06) Regenerative heat Exchangers. 
  • Module (07) Direct contact heat exchangers.
  • Module (08) Process heater.
  • Module (09) Process Heat Integration in Industry.


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