*** Influence of the Outlet Geometry on Leakage ***
Authors: Anand Sudha, Albert Santoso, 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 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 study how the phenomenon of leakage, where one fluid leaks into the outlet of another in a microchannel, is influenced by the outlet design.  
The modified Rothman Keller model was used to simulate the leakage regimes for different outlet designs and the effectiveness of each design in minimizing leakage was
discussed. Experiments were also performed for the first design to validate the model.

*** 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 chapter. The design is also indicated in the naming in the form of Thooray (channel, hooray design) or concentric for the circular
pillar design. If necessary, the diameter of the pillar used is indicated in the nomenclature, along with the Flow Rate Ratio (FRR) of the two fluids,with OD and ID corresponding
to Outlet and Inlet Diameter respectively.Sometimes, a vel is added to these plots to indicate its a velocity contour. Finally, if the simulations are compared with experiments, 
the name of the first source author is included in the naming.