A note on flow behavior in axially-dispersed plug flow reactors with step input of tracer

A note on flow behavior in axially-dispersed plug flow reactors with step input of tracer

Blog Article

Atmospheric chemistry studies are frequently conducted in flow reactors, such as the potential aerosol mass (PAM) reactor.To characterize the flow condition in such a reactor, an axially-dispersed plug flow reactor (AD-PFR) model has been applied to explain the observed residence time distribution (RTD).Compared with the CHAKRA INCENSE AJNEYA AWARENESS traditional RTD analysis that directly fits the observed data from a pulse input or differentiates the data points from a step input, we introduce here a direct method to retrieve the axial diffusivity in an AD-PFR model by fitting an analytical formula to the rising profile of the Hello Kitty tracer at the beginning of the experiment (the transition data before the reactor reaches steady state).

This method can be readily used to determine the flow conditions inside an AD-PFR.Keywords: Plug flow reactor, Axial dispersion, Step injection, Residence time distribution.