COMBINED EFFECTS OF VARIABLE VISCOSITY AND THERMAL RADIATION ON UNSTEADY NATURAL CONVECTION FLOW THROUGH A VERTICAL POROUS CHANNEL

Authors

  • Yusuf A. Bichi
  • O. A. Abiodun

Keywords:

Couette flow, Thermal radiation, Variable viscosity, Porous channel, ADM.

References

Agrawal, G.P. (2002). Fiber-optic communication systems. New York: John Wiley & Sons ISBN 0-47121571-6.

Dharamvir, S. (2012). Optical Fiber Based Communication Network. International Journal of Technical Research (IJTR), 1 (1), 43-46.

Douglas, W. (2010). High Speed Fibre Optic Networks. National Semiconductor Journal Optical Fibre Technology, 15, 521-526.

Etten, W. & Plaats, J. (1991): Fundamentals of optical fiber communications. New York: Prentice Hall.

Ilyas, M. & Moftah, H.T. (2003). Handbook of optical communication networks. Florida, USA: CRC Press.

Lathief, K.A. (2014). Attenuation Measurements in Optical Fiber Communication. International Journals of Research Studies in Science, Engineering, and Technology (IJRSSET), 4 (1), 62-67.

Raghuwanshi, S.K. (2014). Experimental Characterization of Fiber Optic Communication Link for Digital Transmission System. ICTACT Journal on Communication Technology, 5 (10), 868-876.

Published

2023-03-17

How to Cite

Bichi, Y. A., & Abiodun, O. A. (2023). COMBINED EFFECTS OF VARIABLE VISCOSITY AND THERMAL RADIATION ON UNSTEADY NATURAL CONVECTION FLOW THROUGH A VERTICAL POROUS CHANNEL. FUDMA JOURNAL OF SCIENCES, 2(2), 273 - 287. Retrieved from https://fjs.fudutsinma.edu.ng/index.php/fjs/article/view/1375