TY - JOUR
ID - 5752
TI - Analytical solution of a fully developed isothermal non-ideal gaseous slip flow in microchannels
JO - Challenges in Nano and Micro Scale Science and Technology
JA - CNMST
LA - en
SN - 2322-3634
AU - Motamedian, Mahdi
AU - Rahmati, Ahmad Reza
AD - Department of Mechanical Engineering , University of Kashan, Kashan
AD - University of Kashan
Y1 - 2020
PY - 2020
VL - 8
IS - 2
SP - 126
EP - 136
KW - Analytical solution
KW - microchannel
KW - Non-ideal gaseous slip
DO - 10.22111/tpnms.2020.28259.1167
N2 - In this paper, the fully developed non-ideal gaseous slip flow in circular,parallel plates and rectangular microchannels is analyzed analytically by using Navier-Stokes equations to obtain the analytical exact solution.Van der Waals equation is used as the state equation of non-ideal gas. It is assumed that the flow is isothermal, incompressible, steady state, two-dimensional and fully developed,slip flow regime with consideration the first and second orders boundary conditions. It is developed the models for predicting the local and mean velocity, normalized Poiseuille number,and the ratio of density for the first and second orders boundary conditions.The results show that the rarefication process and Poiseuille number are a function of the Knudsen number and the cross-section geometry and Poiseuille number is independent of fluid material properties, velocity, temperature.Also, for circular microchannel,the rarefication process occurs faster than the others. Keywords: Analytical solution, Non-ideal gaseous slip, Microchannel In this paper, the fully developed non-ideal gaseous slip flow in circular,parallel plates and rectangular microchannels is analyzed analytically by using Navier-Stokes equations.The Van der Waals equation is used as the state equation of non-ideal gas. Also, it is assumed that the flow is isothermal, incompressible, steady state, two-dimensional and fully developed,slip flow regime with consideration the first and second orders boundary conditions.It is found that, density to inlet density ratio in non-ideal gas is different than ideal gas in length of microchannel under the same flow conditions and the type of microchannel geometry affect on gas behaviors. Keywords: Analytical solution, Non-ideal gaseous slip, Microchannel
UR - https://chal.usb.ac.ir/article_5752.html
L1 - https://chal.usb.ac.ir/article_5752_041ab1318378b186d4910a2f80f93e1c.pdf
ER -