Computations of gas microflows using pressure correction method with Langmuir slip model

Computers and Fluids

Volumn 37, Issue 10, 2008, Pages 1309-1319

  Choi, Hyung il ^a   Lee, Dohyung ^a  

^a Hanyang University   (South Korea)

Author keywords

[No Author keywords available]

Indexed keywords

AERODYNAMICS; CHANNEL FLOW; CHLORINE COMPOUNDS; ELECTROMAGNETIC WAVE ATTENUATION; FLOW INTERACTIONS; FLOW OF GASES; FLUID DYNAMICS; FLUID MECHANICS; GAS DYNAMICS; INCOMPRESSIBLE FLOW; MICROCHANNELS; MIXED CONVECTION; NAVIER STOKES EQUATIONS; REYNOLDS NUMBER; SEPARATION;

BACKWARD-FACING STEP; COMPRESSIBLE NAVIER-STOKES EQUATIONS; GAS MICRO-FLOWS; KNUDSEN NUMBERS; LANGMUIR; LOW-REYNOLDS NUMBER; MICRO-CHANNEL FLOWS; MICRO-GEOMETRIES; MICROSCALE GAS FLOWS; NON-LINEAR BEHAVIORS; PRESSURE CORRECTION; PRESSURE PROFILES; PRESSURE-CORRECTION METHODS; REATTACHMENT LENGTHS; REYNOLDS; SEPARATED FLOWS; SLIP FLOWS; SLIP MODELS; STREAMWISE VELOCITY; T-SHAPED; UNSTRUCTURED GRIDS;

CAPILLARY FLOW;

EID: 50549086735     PISSN: 00457930     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.compfluid.2007.10.016     Document Type: Article

References (26)

1. Gad-el-Hak M. The fluid mechanics of microdevices - The Freeman scholar lecture. J Fluid Eng 121 (1999) 5-33
2. Arkilic E.B., Breuer K.S., and Schmidt M.A. Gaseous flow in microchannels, application of microfabrication to fluid mechanics. ASME FED 197 (1994) 57-66
3. Arkilic EB. Measurement of the mass flow and tangential momentum accommodation coefficient in silicon micromachined channels. PhD Dissertation. Cambridge, USA: MIT; 1997.
4. Arkilic E.B., Schmidt M.A., and Breuer K.S. Gaseous slip flow in long microchannels. J MEMS 6 2 (1997) 167-178
5. Harley J.C., Huang Y., Bau H.H., and Zemel J.N. Gas flow in micro-channels. J Fluid Mech 284 (1995) 257-274
6. Myong R.S. Thermodynamically consistent hydrodynamic computational models for high-Knudsen-number gas flows. Phys Fluids 119 9 (1999) 2788-2802
7. Myong R.S. Analysis of rarefied and MEMS gas flows using thermodynamically consistent non-equilibrium hydrodynamic models. KSAS J 28 4 (2000) 35-47
8. Myong R.S. A computational method for eu's generalized hydrodynamic equations of rarefied and microscale gas dynamics. J Comput Phys 166 (2001) 1-26
9. Myong R.S. Gaseous slip model based on the langmuir adsorption isotherm. Phys Fluids 16 1 (2004) 104-117
10. Myong R.S., Lockerby D.A., and Reese J.M. The effect of gaseous slip on microscale heat transfer: an extended Graetz problem. Int J Heat Mass Transfer 49 15-16 (2006) 2502-2513
11. Piekos E.S., and Breuer K.S. Numerical modeling of micromechanical devices using the direct simulation Monte Carlo method. J Fluids Eng 118 (1996) 464-469
12. Xue H., Fan Q., and Shu C. Prediction of micro-channel flows using direct simulation Monte Carlo. Probabilist Eng Mech 15 (2000) 213-219
13. Beskok A., Karniadakis G.E., and Trimmer W. Rarefaction and compressibility effects in gas microflows. J Fluids Eng 118 (1996) 448-456
14. Demirdzic I., Lilek Z., and Peric M. A collocated finite volume method for predicting flows at all speeds. Int J Numer Meth Fluids 16 (1993) 1029-1050
15. Rincon J., and Elder R. A high-resolution pressure-based method for compressible flows. Comput Fluids 26 3 (1997) 217-231
16. Demirdzic I., and Muzaferija S. Numerical method for coupled fluid flow, heat transfer and stress analysis using unstructured moving meshes with cells of arbitrary topology. Comput Meth Appl Mech Engrg 125 (1995) 235-255
17. Choi H., Lee D., and Maeng J.-S. A note-centered pressure-based method for all speed flows on unstructured grids. Numer Heat Transfer Part B 44 (2003) 165
18. Anderson W.K., and Bonhaus D.L. An implicit upwind algorithm for computing turbulent flows on unstructured grids. Comput Fluids 23 1 (1994) 1-21
19. Jessee J.P., and Fiveland W.A. A cell vertex algorithm for the incompressible Navier-Stokes equations on non-orthogonal grids. Int J Numer Meth Fluids 23 (1996) 271-293
20. Davidson L. A pressure correction method for unstructured meshes with arbitrary control volumes. Int J Numer Meth Fluids 22 (1996) 265-281
21. Kennard E.H. Kinetic theory of gasses (1938), McGraw-Hill, New York
22. Gombosi T.I. Gaskinetic theory (1994), Cambridge University Press, New York
23. Bird G. Molecular gas dynamics and the direct simulation of gas flows (1994), Oxford Science Publications, Midsomer
24. Beskok A. Validation of a new velocity-slip condition for separated gas microflows. Numer Heat Transfer Part B 40 (2001) 451-471
25. Adamson A.W., and Gast A.P. Physical chemistry of surfaces. 6th ed. (1997), John Wiley & Sons
26. Pong KC, Ho CM, Liu J, Tai YC. Non-linear pressure distribution in uniform microchannels. app. of microfabrication to fluid mechanics. In: ASME Winter Annual Meet; 1994. p. 51-6).