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Biography
mohamed

Prof. Mohamed S. Hamed

McMaster University, Canada

Professor


E-mail:hamedm@mcmaster.ca


Qualifications

1997 Ph.D., The University of Western Ontario, Canada

1990 M.Sc., University of Alexandria, Egypt


Publications (Selected)

  1. Wang, H., Shankar, S., and Hamed, M.S.," Optimization of Material Properties in Solidification Simulation of Al-Si Binary Alloy", in print, Metallurgical Transactions A.
  2. Wang, H., Shankar, S., and Hamed, M.S.," Effect of Shrinkage on Primary Dendrite Arm Spacing During Binary Al-Si Alloy Solidification", in print, Metallurgical Transactions A.
  3. Hassan, A., and Hamed, M.S., "Towards Achieving Vision 2020 Goals of the Heat Treating Industry", the Journal of Minerals, Metals, and Materials Society (TMS), Vol. 62 ,No. 9, pp. 55-59, 2010.
  4. Malik, M.M., Jeyakumar, M., Hamed, M. S., Walker, M. J., Shankar, S., "Rotational Rheometry of Liquid Metal Systems: Measurement Geometry Selection and Flow Curve Analysis", Journal of Non-Newtonian Fluid Mechanics, 165, pp.733-742, 2010.
  5. M. Marivani and Hamed, M.S., "Numerical Modeling of Sloshing Motion in a Tuned Liquid Damper Outfitted with a Submerged Slat Screen", Int. Journal of Numerical Methods in Fluids, available on-line January 12, DOI: 10.1002/fld.2216, 22 pages, 2010.
  6. Ali, S., Hamed, M.S., and Lightstone, M.F., "A Modified Online Input Estimation Algorithm for Inverse Modeling of Steel Quenching”, Numerical Heat Transfer, Part B, 56, pp. 1-19, 2009.
  7. Home, D., Arvanitis, G., Lightstone, M.F., and Hamed, M.S, "Simulation of Flow Pulsations in a Twin Rectangular Sub-Channel Geometry Using Unsteady Reynolds Dr. M. S. Averaged Navier-Stokes Modeling", Nuclear Engineering and Design, 239, pp. 2964-2980, 2009.
  8. Omar, A.M.T., Hamed, M.S., and Shoukri, M., "Modeling of Nucleate Boiling Heat Transfer Under an Impinging Free Jet", International Journal of Heat and Mass Transfer, Volume 52, Issue 23-24, pp. 5557-5566, 2009.
  9. M. Marivani and Hamed, M.S., "Numerical Simulation of Structure Response Outfitted with a Tuned Liquid Damper", Journal of Computers and Structures, Volume 87, Issues 17-18, pp. 1154-1165, 2009.
  10. Home, D., Lightstone, M.F., and Hamed, M.S., “Validation of DES-SST Based Turbulence Model for a Fully Developed Turbulent Channel Flow Problem”, Numerical Heat Transfer, Part A: Applications, Volume 55, Issue 4, pp. 337 - 361, 2009.
  11. Ali, S., Hamed, M.S., and Lightstone, M.F., "Numerical Study of The Modeling Error in the Online Input Estimation Algorithm Used for Inverse Heat Conduction Problems (IHCPS)”, Journal of Physics: Conference Series, v 135, p 012004 (8 pp.), 2008.
  12. Ali, S., Hamed, M.S., and Lightstone, M.F., "An Efficient Numerical Algorithm for the Prediction of Thermal and Microstructure Fields during Quenching of Steel Rods", Journal of ASTM International, Volume 5, Issue 10 November 2008.
  13. Akmal, M., Omar, A.M.T., and Hamed, M.S., “Experimental Investigation of Propagation of Wetting Front on Curved Surfaces Exposed to an Impinging Water Jet”, International Journal of Microstructure and Materials Properties (IJMMP), Vol. 3, No 4/5, 2008.
  14. Hassan, A., and Hamed, M.S., "Optimization of Energy Utilization and Productivity of Heat Treating Batch-Type Furnaces", Journal of ASTM International, Vol. 5, No. 1, 2008.
  15. Elsaadawy, E., Mortazavi, H., and Hamed, M.S., "Turbulence Modeling of Forced Convection Heat Transfer in Two-Dimensional Ribbed Channels", ASME Journal of Electronic Packaging, Vol. 130, pp. 031011-1 to -17, September 2008.
  16. Wang, H., and Hamed, M.S, “Flow Mode-transition of Natural Convection in Inclined Rectangular Enclosures Subjected to Bidirectional Temperature Gradients”, Int. Journal of Thermal Sciences, Vol. 45, pp. 782-795, 2006.
  17. Siddique, M.R., Hamed, M.S., and El Damatty, A.A., “A Nonlinear Numerical Model for Sloshing Motion in Tuned Liquid Dampers”, Int. Journal of Numerical Methods in Heat and Fluid Flow, Vol. 15, No. 3, pp. 306-324, 2005.
  18. Hamed, M.S., and Akmal, M., “Determination of Heat Transfer Rates in Industry-Like Spray Quench System with Multiple Impinging Water Jets”, Int. J. of Materials & Production Technology (IJMPT), Vol. 24, pp. 184-198, 2005.
  19. Hamed, M. S., and J. M. Floryan, “Maragoni convection – the case of a cavity subject to point heating”, Journal of Fluid Mechanics, Vol. 405, pp. 79-110, 2000.
  20. Hamed, M. S., and J. M. Floryan, “Maragoni convection – the case of a cavity with differentially heated side walls”, Journal of Fluid Mechanics, vol. 405, pp. 111-129, 2000.
  21. Hamed, M. S., and J. M. Floryan, “Numerical simulation of unsteady non-isothermal capillary interfaces”, Journal of Computational Physics, Vol. 145, pp. 110-140, 1998 Refereed Journals – Submitted
  22. Jeyakumar, M., Hamed, M.S. and Shankar, S, “Flow Behavior and Viscosity of Liquid Metal Systems”, submitted to Physical Review Letters.
  23. Ahmed, O., and Hamed, M.S., “Effect of Nanoparticle Deposition on Pool Boiling of Nanofluids”, Submitted to a Special Issue of Nanoscale Research Letters, Editors: Stephen U.S. Choi, Yogesh Jaluria, Oronzio Manca, and Liqiu Wang.
  24. Omar, A.M.T., and Hamed, M.S., Modeling of Free Jet Impingement Boiling Heat Transfer Using the Wall Flux Partitioning Approach, submitted to the International Journal of Heat and Mass Transfer.
  25. Omar, A.M.T. and Hamed, M.S., Modeling of Bubble Growth Termination under an Impinging Free Planar Water Jet, submitted to the International Journal of Heat and Mass Transfer.
  26. M. Marivani and Hamed, M.S., Modeling of the Effect of Slat Screen Pattern on the Performance of a Tuned Liquid Damper, submitted to Journal of Computers and Structures.
  27. M. Marivani and Hamed, “Effect of Slat Screen Pattern on Design Parameters of TLD, submitted to ASME Journal of Fluids Engineering.