H102D Jacketed Vessel with Coil and Stirrer

H102D Jacketed Vessel with Coil and Stirrer

A vessel with a clear top has a glass outer jacket.  Hot water may pass through this or through a heat transfer coil inside the vessel to provide external or internal heating.

The vessel contents of up to 2 litres are agitated by a variable speed stirrer, and may be batch or continuous feed. Six thermocouples measure hot inlet and exit temperatures from the jacket and coil, cold fluid inlet and vessel contents temperatures.

Quick release connections enable rapid connection to the H102 and conversion from heating jacket to heating coil.

H102D Jacketed Vessel with Coil and Stirrer

A vessel with a clear top has a glass outer jacket.  Hot water may pass through this or through a heat transfer coil inside the vessel to provide external or internal heating.

The vessel contents of up to 2 litres are agitated by a variable speed stirrer, and may be batch or continuous feed. Six thermocouples measure hot inlet and exit temperatures from the jacket and coil, cold fluid inlet and vessel contents temperatures.

Quick release connections enable rapid connection to the H102 and conversion from heating jacket to heating coil.

Requires the H102-Heat-Exchanger-Service-Unit for operation.

  • Demonstration of indirect heating or cooling by transfer of heat from one fluid stream to another when separated by a solid wall.
  • Investigation of the heating characteristics of a stirred vessel containing a fixed batch of liquid when heated using hot fluid circulating through a submerged coil.
  • Investigation of the heating characteristics of a stirred vessel containing a fixed batch of liquid when heated using hot fluid circulating through an outer jacket.
  • To investigate the change in overall heat transfer coefficient and logarithmic mean temperature difference as a batch of fluid in the vessel changes temperature.
  • To perform an energy balance, calculate the overall efficiency and determine the overall heat transfer coefficient for a continuous flow in a stirred vessel when heated using a submerged coil.
  • To perform an energy balance, calculate the overall efficiency and determine the overall heat transfer coefficient for a continuous flow in a stirred vessel when heated using an outer jacket.
  • To investigate the effect of stirring on the heat transfer characteristics of a stirred vessel.