Heat Transfer In Agitated Vessel. In this case the heat exchanger would be designed by the normal methods and will not be covered further in this chapter. A o g q q q 6 q o and q g can be written separately as below.
In agitated vessels the process fluid is in the vessel and the utility fluid is in the jacket of the vessel or inside an internal heat transfer surface eg helical coils vertical pipe coils. The heat transfer coefficient for nanofluid is found to be higher than that for water and also found to increase with increasing volume concentrations. Heating in agitated non agitated vessels ibdbfbimidland section engineering symposium on heat transfer and refrigeration burton on trent jan 2014 mark phillips briggs of burton.
Heating in agitated non agitated vessels ibdbfbimidland section engineering symposium on heat transfer and refrigeration burton on trent jan 2014 mark phillips briggs of burton.
Heat transfer in agitated vessels can be carried out either through an external jacket on the vessel or by internal coils. In this case the heat exchanger would be designed by the normal methods and will not be covered further in this chapter. In this paper a series of experiments were conducted to investigate heat transfer performance in agitated vessels for various configurations. Where a jacket or coils cannot provide the surface area required a recirculation loop with an external heat exchanger may be used.