*** Using Dimensionless Numbers to Understand Interfacial Mass Transfer for Parallel Flow in a Microchannel***
Authors: Anand Sudha, Martin Rohde

Delft University of Technology
Corresponding Author: Martin Rohde
Contact Information: M.Rohde@tudelft.nl
Reactor Institute Delft, Delft University of Technology

*** General Introduction ***
This dataset contains all the figures obtained from the simulations as a part of Anand Sudha's PhD Thesis (2020-24).

It is being made public both to act as supplementary data for publications and the PhD thesis of Anand Sudha and in order for other researchers to use this data in their own work.

*** Purpose of the simulations ***
These simulations were conducted to understand the mass transfer involved in parallel flow in a microchannel. A finite difference code was developed to simulate the diffusion and 
chemical reaction involved in the interfacial mass transfer. The experiments of Helle et al (2015) were used to validate the code. Different dimensionless numbers were proposed
and varied to understand the competing forces which influence mass transfer.

*** Description of the data in this dataset***

Contains all the figures associated with the publication and thesis. 

The figures are named according to their use in the thesis. The prefix 'Helle' is added to the concentration profiles as the data uses the same fluids as that of Helle et al 
(2015). The dimensionless number that is varied is also indicated in the title (Bi, Pe or in some cases, the diffusion coefficient D or velocity u). Other plots plotted are 
named based on their purpose, like BivsEE to indicate a plot of Biot number vs the extraction efficiency.
