Arts and Sciences

Prof. Dr. Md. Masum Billah

Research Interests

• CFD
• Numerical Analysis
• Traffic Flow
• Heat Transfer
• Nanofluid
• Biofluid

Educational Background

• Ph.D, (Computational Fluid Dynamics), Jahangirnagar University
• Master of Science (MSc), (Mathematics), Jahangirnagar University
• Bachelor of Science (BSc), (Mathematics), Jahangirnagar University

Honors and Achievements

• Dean's Award, Jahangirnagar University, 2004

Publications

1. On the applications of neural network technique for electro-viscoplastic Casson hybrid ferrofluid with a permeable channel, International Journal of Thermofluids, 2024
2. Statistical and numerical analysis of magnetic field effects on laminar natural convection heat transfer of nanofluid in a hexagonal cavity, International Journal of Thermofluids, 2024
3. Heat transfer augmentation in a double lid-driven trapezoidal porous cavity with heated block using hybrid nanofluid, International Journal of Thermofluids, 2024
4. The impact of multiple stenosis and aneurysms on arterial diseases: A cardiovascular study, Heliyon, 2024
5. Finite element simulation on MHD Free Convection in a Square Enclosure With Elliptical Shaped Obstacle, GANIT J. Bangladesh Math. Soc, 2023
6. Numerical analysis of unsteady mixed convection heat transfer characteristics of nanofluids confined within a porous lid-driven L-shaped cavity, International Journal of Thermofluids, 2022
7. Convective heat transfer enhancement in a quarter-circular enclosure utilizing nanofluids under the influence of periodic magnetic field, International Journal of Thermofluids, 2022
8. Modeling Investigations of Thermophoretic Magnetohydrodymics Flow in a Penetrable Wedge with Higher-Order Slip, Science & Technology Asia, 2022
9. MHD influence on convective heat transfer in a semi-circular cavity using nonhomogeneous nanofluid model, International Journal of Thermofluids, 2022
10. Convective heat transfer analysis in a trapezoidal porous cavity using Al2O2 kerosene nanofluid, Jahangirnagar University Journal of Science, 2020
11. Numerical Simulation On Heat Flow For Mixed Convection Within A Triangular Enclosure, GANIT: Journal of Bangladesh Mathematical Society, 2019
12. Heat Transfer Augmentation in an Inclined Lid-Driven Triangular Enclosure Utilizing Nanofluids in Forced Convection Flows, Science & Technology Asia, 2019
13. Numerical Investigation On Unsteady Mixed Convective Heat Transfer Inside A Square Enclosure Filled With Al2O3-Water Nanofluid, Jahangirnagar Journal of Mathematics & Mathematical Sciences (JJMMS), 2018
14. Influence of the Periodicity of Sinusoidal Boundary Condition on the Unsteady Mixed Convection within a Square Enclosure Using an Ag--Water Nanofluid, Energies, 2017
15. Analysis of Heat Transfer Augmentation of a Heated Circular Hollow Cylinder in a Lid-Driven Cavity, Jahangirnagar University Journal of Information Technology (JIT), 2016
16. Natural convection and Heat transfer in an attic shaped enclosure, Bangladesh Journal of Physics, 2015
17. Numerical investigation of MHD mixed convection flow and heat transfer inside a rectangular ventilated cavity, Jahangirnagar University Journal of Mathematics and Mathematical Science, 2015
18. Numerical simulation on buoyancy-driven heat transfer enhancement of nanofluids in an inclined triangular enclosure, Procedia Engineering, 2014
19. Heat Transfer Enhancement in a Ventilated Enclosure Having a Heat-Generating Circular Solid Cylinder, SOP Transactions on Applied Mathematics, 2014
20. Unsteady buoyancy-driven heat transfer enhancement of nanofluids in an inclined triangular enclosure, International Communications in Heat and Mass Transfer, 2013
21. Heat transfer enhancement of nanofluids in a lid-driven triangular enclosure having a discrete heater, Procedia Engineering, 2013
22. Numerical study of fluid flow on magneto-hydrodynamic mixed convection in a lid driven cavity having a heated circular hollow cylinder, Procedia Engineering, 2013
23. Finite element simulation of magnetohydrodynamic mixed convection in a double-lid driven enclosure with a square heat-generating block, Journal of Heat Transfer, 2012
24. Heat transfer enhancement of nanofluids in a lid-driven square enclosure, Numerical Heat Transfer, Part A: Applications, 2012
25. MHD Mixed convection in a channel with a triangular cavity, Numerical Heat Transfer, Part A: Applications, 2012
26. Numerical simulation of magneto-hydrodynamics mixed convection in an open channel having a semi-circular heater., Journal of Naval Architecture \& Marine Engineering, 2012
27. Mathematical modeling for heat transfer enhancement in a ventilated enclosure with a circular heat-generating block, Engineering e-Transaction, 2012
28. A numerical study of assisting MHD mixed convection inside a ventilated cavity, Engineering e-Transaction, 2012
29. Effect of inlet and outlet positions on MHD mixed convection in a ventilated cavity, Jagannath University Journal of Science, 2012
30. Numerical analysis of fluid flow due to mixed convection in a lid-driven cavity having a heated circular hollow cylinder, International Communications in Heat and Mass Transfer, 2011
31. Numerical investigation of heat transfer enhancement of nanofluids in an inclined lid-driven triangular enclosure, International Communications in Heat and Mass Transfer, 2011
32. A numerical analysis of cooling water temperature of two-stage adsorption chiller along with different mass ratios, International Communications in Heat and Mass Transfer, 2011
33. Optimization of mixed convection in a lid-driven enclosure with a heat generating circular body, Numerical Heat Transfer, Part A: Applications, 2011
34. Simulation of mhd mixed convection heat transfer enhancement in a double lid-driven obstructed enclosure, International Journal of Mechanical and Materials Engineering, 2011
35. A numerical model for the simulation of double-diffusive natural convection in a right-angled triangular solar collector, International Journal of Renewable Energy Resources, 2011
36. Mixed convection inside a ventilated cavity along with a centered heat conducting horizontal circular cylinder, Engineering e-Transaction, 2011
37. Heat transfer enhancement of Copper-water nanofluids in an inclined lid-driven triangular enclosure, Journal of Scientific Research, 2011
38. Effect of Reynolds and Prandtl Numbers on Mixed Convection in an Obstructed Vented Cavity., Journal of scientific research, 2011
39. An Analysis of assisting MHD mixed convection inside a ventilated cavity with different inlet and exit cofigurations, Jahangirnagar University Journal of Science, 2011
40. Natural convection flow in a square cavity with internal heat generation and a flush mounted heater on a side wall, Journal of Naval Architecture and Marine Engineering, 2011
41. MHD mixed convection heat transfer enhancement in a lid-driven enclosure having a heat-generating body: aspect ratio and Prandtl number effect, International Journal of Energy & Technology, 2011
42. Heat transfer and flow characteristics for MHD mixed convection in a Lid-driven cavity with heat generating obstacle, International Journal of Energy and Technology, 2011
43. A numerical study on the effect of a heated hollow cylinder on mixed convection in a ventilated cavity, International Communications in Heat and Mass Transfer, 2010
44. Effect of Prandtl number on hydromagnetic mixed convection in a double-lid driven cavity with a heat-generating obstacle, Engineering e-Transaction, 2010