@article{(Open Science Index):https://publications.waset.org/pdf/4506,
	  title     = {Numerical Study of Microscale Gas Flow-Separation Using Explicit Finite Volume Method},
	  author    = {A. Chaudhuri and  C. Guha and  T. K. Dutta},
	  country	= {},
	  institution	= {},
	  abstract     = {Pressure driven microscale gas flow-separation has
been investigated by solving the compressible Navier-Stokes (NS)
system of equations. A two dimensional explicit finite volume (FV)
compressible flow solver has been developed using modified
advection upwind splitting methods (AUSM+) with no-slip/first
order Maxwell-s velocity slip conditions to predict the flowseparation
behavior in microdimensions. The effects of scale-factor
of the flow geometry and gas species on the microscale gas flowseparation
have been studied in this work. The intensity of flowseparation
gets reduced with the decrease in scale of the flow
geometry. In reduced dimension, flow-separation may not at all be
present under similar flow conditions compared to the larger flow
geometry. The flow-separation patterns greatly depend on the
properties of the medium under similar flow conditions.},
	    journal   = {International Journal of Chemical and Molecular Engineering},
	  volume    = {2},
	  number    = {10},
	  year      = {2008},
	  pages     = {242 - 245},
	  ee        = {https://publications.waset.org/pdf/4506},
	  url   	= {https://publications.waset.org/vol/22},
	  bibsource = {https://publications.waset.org/},
	  issn  	= {eISSN: 1307-6892},
	  publisher = {World Academy of Science, Engineering and Technology},
	  index 	= {Open Science Index 22, 2008},
	}