Modeling and designing of microfluidic system using Poiseuille number

2nd Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine and Biology - Proceedings

Volumn , Issue , 2002, Pages 565-568

  Park, Sung Jin ^a   Chung, Seok ^a   Bang, Hyun Woo ^a   Chung, Chanil ^b   Han, Dong Chul ^a   Chang, Jun Keun ^a  

^a Seoul National University   (South Korea)

^b Digital Bio Technology Co   (South Korea)

Author keywords

CFD; Dilution; Microfluidics; Poiseuille number

Indexed keywords

COMPUTATIONAL FLUID DYNAMICS; DILUTION; FLUID MECHANICS; FLUIDIC DEVICES; REYNOLDS NUMBER;

CIRCULAR CHANNELS; DIFFERENT EFFECTS; LOW REYNOLDS NUMBER; METHOD OF MODELING; MICRO FLUIDIC SYSTEM; MICRO-FLUIDIC DEVICES; POISEUILLE NUMBERS; RECTANGULAR CHANNEL;

MICROFLUIDICS;

EID: 84964587796     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/MMB.2002.1002413     Document Type: Conference Paper

References (11)

1. X.F. Peng, G.P. Peterson, B. X. Wang, "Frictional flow characteristics of water flowing through rectangular microchannels," Experimental Heat Transfer, vol. 7, pp. 249-264, 1994.
2. Q. Weilin, G.M. Mala, L, Dongqing, "Pressure-driven water flows in trapezoidal silicon microchannels," Int. J. Heat Transfer, vol. 43, pp. 353-364, 2000.
3. S.M. Flockhart, R.S. Dhariwal, "Experimental and numerical investigation into the flow characteristics of channels etched in '100' silicon," Transactions of the ASME: J. Fluids Engng, Vol. 120, pp. 291-295, 1998.
4. R.K. Shah, "Laminar flow friction and forced convection heat transfer in ducts of arbitrary geometry," Int. J. Heat Mass Transfer, vol. 18, pp. 849-862, 1975.
5. N. Damean, P.P.L. Regtien, "Poiseuille number for the fully developed laminar flow through hexagonal ducts etched in '100' silicon," Sensors and Actuators A, vol. 90, pp. 96-101, 2001.
6. R. Sadasivam, R.M. Manglik, M.A. Jog, "Fully developed forced convection through trapezoidal and hexagonal ducts," Int. J. Heat Mass Transfer, vol. 42, pp. 4321-4332 1999.
7. S.W. Churchill, Viscous flow, 1st ed., Butterworths: Stoneham, 1988, pp.6-15.
8. F.M. White, Viscous fluid flow, 2nd ed., McGraw Hill: New york, 1991, pp 114-125.
9. A.E. Kamholz, P. Yager, "Theoretical analysis of molecular diffusion in pressure-driven laminar flow in microfluidic channels," Biophys. J. vol. 80, pp. 155-160, 2001.
10. J.P. Brody, P. Yager, R.E. Raymond, R.H. Austin. "Biotechnology at low Reynolds numbers," Biophys. J. vol. 71, pp. 3430-3441, 1996.
11. N.L. Jeon, S.K.W. Dertinger, D.T. Chiu, L.S. Choi, A.D. Strook, G.M. Whitesides, "Generation of solution and surface gradients using microfluidic systems," Langmuir, vol. 16, pp. 8311-8316, 2000.