GBNGVH

Publications

Selected Publication of the Members:

  • Sheida Shahnazar, N Hasan, M. Iskandar M. Nor (2013), “Gas Hydrate Formation Condition: Review on Experimental and Modeling Approaches”, Fluid Phase Equilibria, Volume 379, 15 October 2014, Pages 72–85.
  • Hasan, N., & Zakaria, Z., (2011). “Computational approach for a pair of bubble coalescence process”, International Journal of Heat and Fluid Flow, Volume 32, Issue 3, June 2011, Pages 755-761.
  • Geoffrey Brooks, Simon Trang, Peter Witt, M. Nurul Hasan Khan, and Michael Nagle, (2006), “The Carbothermic Route to Magnesium”, JOM, 58(5), 51-55.
  • N. H. Saeid, Mixed Convection Jet Impingement Cooling of a Rectangular Solid Heat Source Immersed in a Porous Layer, Journal of Porous Media, Vol. 18, No. 4, pp. 401-413, 2015.
  • R. A. Mahdi, H. A. Mohammed, K. M. Munisamy, N. H. Saeid, Experimental and Numerical Investigation of Combined Convection Heat Transfer and Fluid Flow around Circular Cylinder through Rectangular and Trapezoidal Open-Cell Aluminum Foams, Chemical Engineering Communication, Vol. 202, pp.674–693, 2015.
  • R. A. Mahdi, H. A. Mohammed, K. M. Munisamy, N. H. Saeid, Review of Convection Heat Transfer and Fluid Flow in Porous Media with Nanofluid, Renewable & Sustainable Energy Reviews, Vol. 41, pp. 715-734, 2015.
  • R. A. Mahdi, H. A. Mohammed, K. M. Munisamy, N. H. Saeid, The Influence of Various Geometrical Shapes on Mixed Convection through an Open – Cell Aluminium Foam Filled With Nanofluid, Journal of Computational and Theoretical Nanoscience, Vol. 11, No. 5, pp. 1275-1289, 2014.
  • N. H. Saeid and Azlina Diyanah Hamid, Jet Impingement Cooling of a Rectangular Solid Heat Source Immersed in a Porous Layer, Journal of Environmental Science, Vol. 3, Issue 1, paper 7, 2014.
  • Altawallbeh, N. Saeid and I. Hashim, Double-diffusive convection in Partially-Heated and Partially-Salted Porous Cavity, Journal of Porous Media, Vol. 16 No. 10, pp. 903-919, 2013.
  • N. H. Saeid, Diffuser perforation effects on the performance of a vent silencer, Noise Control Engineering Journal, Vol. 61, No. 3, pp. 355 – 362, May-June 2013.
  • N. H. Saeid, Magnetic field effects on entropy generation in heat and mass transfer in porous cavity, International Journal of Physical Sciences, Vol. 8, No. 17, pp. 728-739, 9 May, 2013.
  • Altawallbeh, N. Saeid and I. Hashim, Magnetic field effect on natural convection in a porous cavity heating from below and salting from side, Advances in Mechanical Engineering. Volume 2013 (2013), Article ID 183079.
  • Altawallbeh, N. H. Saeid and I. Hashim, Numerical Simulation of Magnetic Field Effect on Natural Convection in a Porous Cavity Heating from Below and Salting from Side, World Applied Sciences Journal, Vol. 21, pp. 1-5, 2013.
  • Z.W. Ding, N.H. Saeid and S.C. Cheah, Performance Analysis of TiO2 Nanofluid Heat and Fluid Flow in a Circular Pipe using Two-Phase Model, Journal of Energy Heat and Mass Transfer, Vol. 33, pp. 187-209, 2011.
  • N.H. Saeid and Tan Heng Chia, Investigation of thermal performance of air to
    water heat exchanger using nano-fluids, IIUM Engineering Journal, Vol. 12, No. 3, pp. 59-66, 2011.
  • H. Saleh, N. H. Saeid, I. Hashim and Z. Mustafa, Effect of Conduction in Bottom Wall on Darcy–Bénard Convection in a Porous Enclosure, Transport in Porous Media, Vol. 88, pp. 357–368, 2011.
  • N.H. Saeid and Tan Jun Wong, Effect of Periodic variation of Sol-air temperature on the Performance of Integrated Solar Collector Storage System, Engineering, Vol. 2, pp. 832-840, 2010.
  • H. Saleh, I. Hashim, N.H. Saeid, Effect of Time Periodic Boundary Conditions on Convective Flows in a Porous Square Enclosure with Non-Uniform Internal Heating, Transport in Porous Media, Vol. 85, pp.885–903, 2010.
  • Karim, M.F., Islam, M.E.: A Boundary Fitted Nested Grid Model for Modelling Tsunami Propagation of 2004 Indonesian Tsunami along Southern Thailand, International Journal of Environmental, Chemical, Ecological and Geophysical Engineering, Vol: 9, No: 8, pp 891 – 898.
  • Roy, G. D., Karim, M. F., Ismail, A. I. M.; 2007: A Non-Linear Polar Coordinate Shallow Water Model for Tsunami Computation along North Sumatra and Penang Island. Journal of Continental Shelf Research, 27, 245–257.
  • Gaur, P. C; Ismail, A. I. M.; Karim, M. F. 2014:Implementation of method of lines to predict water levels due to a storm along the coastal region of Bangladesh, Journal of Oceanography, The Oceanographic Society of Japan and Springer Japan, DOI 10.1007/s 10872-014-0224-x, 199-210.
  • Naseem Uddin, Sven Olaf Neumann, Bernhard Weigand, Bassam A. Younis, Large-Eddy Simulations and heat-flux modeling in a turbulent impinging jet, Journal of Numerical Heat Transfer –A Part A, 55: 906–930, 2009.
  • Naseem Uddin, Waqar A Khan, and Mahmood Rahi, Heat and mass transfer from a suddenly moved plate in nanofluids , Proceedings of the Universityion of Mechanical Engineers, Part N: Journal of Nanoengineering and Nanosystems published 13 September 2012 online, March 2013 vol. 227 no. 1 29-37.
  • W.A. Khan, A. Aziz, Naseem Uddin, Buongiorno model for Blasius flow of nanofluids over a flat plate with prescribed surface heat and mass fluxes, AIAA Journal of Thermophysics and Heat Transfer, Vol. 27, Jan-March, 2013, pp. 134-141.
  • Naseem Uddin, Olaf Neumann, Bernhard Weigand, LES simulations of an impinging jet: On the origin of the second peak in the Nusselt number distribution, International Journal of Heat and Mass Transfer 57 (2013) 356–368.
  • U. Allauddin, Naseem Uddin S. O. Neumann, Heat Transfer Enhancement by Detached-Ribs on a Flat-Surface Subject to Jet Impingement, Journal of Thermophysics and heat transfer, Vol 27, No. 2, April-June 2013 (Technical note).
  • U. Allauddin, Naseem Uddin, Bernhard Weigand, Heat Transfer Enhancement by jet impingement on a flat surface with detached ribs under cross flow conditions, J. Numerical Heat Transfer-An international Journal of computation and Methodology, pages 921-940, Volume 63, Issue 12, 2013.
  • Naseem Uddin, Sven Olaf Neumann ,Bernhard Weigand, Heat transfer enhancement by velocity field excitation for an impinging round jet, Accepted for publication in Journal of Numerical Heat Transfer – Applications.
  • Naseem Uddin, S. O. Neumann, Bernhard Weigand, Heat Transfer enhancement by velocity field excitation for an impinging round jet, Journal of Numerical Heat Transfer –A (accepted).
  • D. S. Sankar, Perturbation analysis for pulsatile flow of Carreau fluid through tapered stenotic arteries, International Journal of biomathematics (in press) (SCI-E) (2014 Impact factor: 0.805) (Scopus).
  • D. S. Sankar, Atulya K. Nagar, A. Vanav Kumar, Mathematical analysis of single and two phase flow of blood in narrow arteries with multiple contrictions, Journal of Applied Fluid Mechanics 8 (2015) 871 – 883. (SCI-E) (2014 Impact factor: 0.746) (Scopus).
  • D. S. Sankar, Atulya K. Nagar, Mathematical analysis of blood flow in porous tubes – A comparative study, Advances in Mechanical Engineering, Vol. 2013, Article ID: 287954, http://dx.doi.org/10.1155/2013/287954 (SCI-E) (2014 Impact factor: 0.575).
  • J. Venkatesan, D. S. Sankar, K. Hemalatha, Yazariah Yatim, Mathematical analysis of Casson fluid model for blood rheology in stenosed narrow arteries, Journal of Applied Mathematics, Vol. 2013, Article ID: 583809, http://dx.doi.org/10.1155/2013/583809.
  • D. S. Sankar, U. Lee, A. I. M. Ismail, Mathematical analysis for MHD flow of blood in constricted arteries, International Journal of Nonlinear Sciences and Numerical Simulations 14 (2013) 195 – 204 (SCI-E) (2014 Impact factor: 1.545).
  • D. S. Sankar, Two-phase non-linear model for blood flow in asymmetric and axisymmetric stenosed arteries, International Journal of Non-Linear Mechanics 46 (2011) 296 – 305 (SCI) (2014 Impact factor: 1.977).
  • D. S. Sankar, Usik Lee, Nonlinear mathematical analysis for blood flow in a constricted artery under periodic body acceleration, Communications in Nonlinear Sciences and Numerical Simulations 16 (2011) 4390-4402 (SCI) (2013 Impact factor: 2.866).
  • D. S. Sankar, Usik Lee, FDM analysis for MHD flow of a non-Newtonian fluid for blood flow in stenosed arteries, Journal of Mechanical Sciences and Technology 25 (2011) 2573 – 2581 (SCI-E) (2014 Impact factor: 0.838).
  • D. S. Sankar and Usik Lee, Pulsatile flow of two-fluid nonlinear models for blood flow through catheterized arteries – A comparative study, Mathematical problems in Engineering Volume 2010 (2010), Article ID 121757, 21 pages, http://dx.doi.org/10.1155/2010/121757 (2014 Impact factor: 0.762).
  • D. S. Sankar, Joan Goh, Ahmad Izani Mohamed Ismail, FDM analysis for blood flow through stenosed tapered arteries, Boundary Value Problems Vol. 2010, Article ID: 917067, http://dx.doi.org/10.1155/2010/917067 (2014 Impact factor: 1.01).
  • D. S. Sankar and K. Hemalatha, Non-Linear mathematical models for blood flow through tapered tubes, Applied Mathematics and Computation 188 (2007) 567 – 582 (Elsevier–Sciencedirect Journal)(SCI) (2014 Impact factor: 1.551).
  • D. S. Sankar and K. Hemalatha, Pulsatile flow of Herschel-Bulkley fluid through catheterized arteries-A mathematical model, Applied Mathematical Modeling 31 (2007) 1497 – 1517 (Elsevier – Sciencedirect) (SCI) (2014 Impact factor: 2.251).
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