Profile of Dr. K. M. Salah Uddin

Profile of Dr. K. M. Salah Uddin

Dr. K. M. Salah Uddin
Professor
Department of Management Information Systems (MIS)
Faculty of Business Studies
Email: salahuddin@du.ac.bd
Phone: 01712-088381
Image of Dr. K. M. Salah Uddin
Degree Name Group/Major Subject Board/Institute Country Passing Year
Ph.D. Mechanical Engineering Hokkaido University Japan
Masters Applied Mathematics University of Dhaka Bangladesh
Bachelor Mathematics University of Dhaka Bangladesh
Award Type Award Title Year Country Description
International Monbukagakusho Scholarship from Ministry of Culture, Education and science, Govt. of Japan 2010 Japan
Research Interest
Subject Description
Simulation and Modeling, Structural Modeling, Computational Fluid Dynamics, Polymer Electrolyte Fuel Cells, Stochastics Simulation
Project/Research Supervision
Level of Study Title Supervisor Co-Supervisor(s) Name of Student(s) Area of Research Current Completion
No project/research supervision is found
Project/Research Work
Subject Project Name Source of Fund From Date To Date Collaboration
No project/research work is found
Invited Talk
SL Invited Talk
No invited talk is found
SL Collaboration & Membership Name Type Membership Year Membership Expire Year
No Collaboration & Membership is found
Title Organization Location From Date To Date Description
Profesor University of Dhaka Dhaka 10-06-2020 Currently Working
Journal Article
1
K. M. Salah Uddin and Litan Kumar Saha : Numerical solutions of 2-D incompressible driven cavity flow with wavy bottom surface, American Journal of Applied Mathematics,, vol.3(1-1), no.Special Issue: Fluid Flow and Heat Transfer Inside a Closed Domain pp.30-42, 2015 .
2
K. M. Salah Uddin, Akira Nishimura, Nobuyuki Oshima and Litan Kumar Saha : Numerical Study of Pressure Drop Mechanism and Cross Flow Behavior in the Gas Channel and Porous Medium of a Polymer Electrolyte Membrane Fuel Cell, Journal of Thermal Science and Technology, vol.13, no.8 pp.209-224, 2013 .
3
M. M. Rahman and K. M. Salah Uddin : Effects of variable electric conductivity and temperature dependent viscosity on magnetohydrodynamic heat and mass transfer flow along a radiate isothermal inclined surface with internal heat generation, Communications in Nonlinear Science and Numerical Simulations, vol.15, pp.2073-2085, 2010 .