Journals

List of Journal Publications

1. Shithil, M. I. A., Ritwik, A. P. D., Ahmed, N. U., Chowdhury, R. H., Rafi, M. R. A. R., Zim, N. S., & Saha, S., Performance enhancement of a vented quarter-circular solar thermal collector using proportional, proportional-integral, and proportional-integral-derivative controllers, Applied Thermal Engineering, 269 (Part B) (2025), 126127.
2. Rupam, M. T. I., Hasan, N., Rasel, M. S., & Saha, S., Magnetohydrodynamic conjugate mixed convection, Joule Heating, and entropy generation through a ferrofluid filled T-shaped open miniature chamber with a Heat-Generating circular rod, Annals of Nuclear Energy, 216 (2025), 111294.
3. Hasan, N., Rasel, M. S., & Saha, S., A rational estimation of volumetric thermal expansion coefficient of Al₂O₃-water nanofluid in thermo-fluid application, Heliyon, 10(24) (2024), e41028
4. Bhakta, A. D., Hasan, N., Raveed, A., Deb, N., & Saha, S., Heat transfer characteristics of mixed convection inside a differentially heated square cavity containing an oscillating porous cylinder, South African Journal of Chemical Engineering, 50 (2024), pp. 477-488.
5. Khan, M. J., Islam, M. F. R. J., & Saha, S., Free convective flow of Ostwald-de Waele fluid in a Π-shaped cavity with heated strip and lateral wall cooling, Results in Engineering, 24 (2024), 103167.
6. Saha, S., Chowdhury, S., & Shuvo, M. S., Comment on “Using natural convection mechanism of nanofluid for cooling an embedded hot plate in corner of a square enclosure: A numerical simulation” [Case Stud. Therm. Eng. 33, (2022) 101926], Case Studies in Thermal Engineering, 62 (2024), 105221.
7. Hasan, N., Deb, N., & Saha, S., MHD Convection with Joule Heating and Internal Heat Generation in a Two-Layer Discretely Heated Chamber Partly Filled with Porous Medium, International Journal of Energy Research, 2024 (2024), 1720993.
8. Saha, S., & Kallem, S. R., Comment on: “Fluid Flow and Heat Transfer Characteristics of Natural Convection in Square Cavities Due to Discrete Source-Sink Pairs” [International Journal of Heat and Mass Transfer 51 (2008) 5949–5957], International Journal of Heat and Mass Transfer, 235 (2024), 126169.
9. Akter, F., & Saha, S., Deposition of Aerosol Particles and Characteristics of Turbulent Flow inside Wavy Pipe using Eulerian-Lagrangian Approach, Chemical Engineering and Processing – Process Intensification, 205 (2024), 109971.
10. Chanda, S., Ratul, M. M. H., Tasnim, M. N., Moni, M., Suvro, S. D., & Saha, S., Comparative Analysis of Proportional, Proportional–Integral, and Proportional–Integral–Derivative Controllers for Thermal Regulation in a Cylindrical Cooling System with Multiple O-Ring Heat Sources, Physics of Fluids, 36(8) (2024), 083625.
11. Fardin, S., Moresalein, M. J., Aziz, M. S. A., Saha, S., & Hasan, M. N., Role of Periodic Oscillating Flow Modulators on Mixed Convection in a Long Horizontal Channel, International Journal of Thermofluids, 24 (2024) 100817.
12. Zaman, M. T., Ahmed, F., Shuvo, M. S., Deb, N., & Saha, S., Thermal Analysis of Conjugate Convective Flow in a Vented Chamber Featuring Different Heat-Generating Solid Objects, Arabian Journal for Science and Engineering, (2024).
13. Hasan, N., Saha, S., & Umavathi, J. C., Magnetohydrodynamic Convection in a Heat-Generating Ferrofluid within a Corrugated Cavity Containing a Rotating Cylinder, Physics of Fluids, 36(7) (2024), 072020.
14. Hasan, N., & Saha, S., MHD conjugate mixed convection along with internal heat generation and Joule heating in a closed/open cavity with rotating solid cylinder, International Journal of Numerical Methods for Heat and Fluid Flow, 34(9) (2024), pp. 3438-3461.
15. Saha, S., & Hasan, N., Numerical evaluation of thermohydraulic parameters for diverse configurations of shell-and-tube heat exchanger, Results in Engineering, 23 (2024), 102509.
16. Deb, N., Farshi, M. S., Das, P. K., & Saha, S., Convective flow optimization inside a lid‑driven chamber with a rotating porous cylinder using Darcy–Brinkman–Forchheimer model, Journal of Thermal Analysis and Calorimetry, 149 (2024), pp. 6125 – 6146.
17. Debnath, S. C., Chowdhury, S., Asaduzzaman, M., Nahar, M. N., Sattar, A. B., & Saha, S., Regulation of mixed convective flow in a horizontal channel with multiple slots using P, PI, and PID controllers, The Journal of Engineering, 2024(6) (2024), e12401.
18. Hasan, N., & Saha, S., Effects of internal heat production and Joule heating on MHD conjugate mixed convection and entropy production inside a thermally non-homogeneous cooling system, Annals of Nuclear Energy, 206 (2024), 110671.
19. Saha, S., Comment on “Thermal visualization of Ostwald-de Waele liquid in wavy trapezoidal cavity: Effect of undulation and amplitude” [Case Studies in Thermal Engineering, 29 (2022) 101698], Case Studies in Thermal Engineering, 59 (2024), 104584.
20. Islam, M. H., Jamy, R. H., Shuvo, M. S., & Saha, S., MHD free convection with Joule heating and entropy generation inside an H-shaped hollow structure, Heliyon, 10 (2024), e29380.
21. Saha, S., & Awad, M. M., Editorial: Comment on “MHD-mixed convection fl ow in a lid-driven trapezoidal cavity under uniformly/non-uniformly heated bottom wall”, International Journal of Numerical Methods for Heat and Fluid Flow, 34(4) (2024), pp. 1521-1527.
22. Ruvo, T. H., Shuvo, M. S., & Saha, S., Revisiting thermo-physical property models of Al₂O₃-Water nanofluid for natural convective flow, Heliyon, 10 (2024), e26964.
23. Hasan, N., Islam, M. S., & Saha, S., MHD free convective flow and entropy production of glycerin in a square domain with Joule heating and internal heat generation, Nuclear Engineering and Design, 420 (2024), 113032.
24. Islam, A. F., Islam, R., Javed, S., & Saha, S., Optimization of system parameters during conjugate mixed convective flow in a square domain with an oscillating spinning cylinder, Heliyon, 10(2) (2024), e24258.
25. Deb, N., & Saha, S., Comment on “Energy transfer through mixed convection within square enclosure containing micropolar fluid with non-uniformly heated bottom wall under the MHD impact”[Journal of Molecular Liquids, 249 (2018) 831-842], Journal of Molecular Liquids, 397 (2024), 124020.
26. Deb, N., & Saha, S., Comment on “Steady natural convection flows in a square cavity with linearly heated side wall (s)”[International Journal of Heat and Mass Transfer, 50 (2007) 766–775], International Journal of Heat and Mass Transfer, 219 (2024), 124890.
27. Deb, N., & Saha, S., Comment on “Numerical simulation of magnetohydrodynamic buoyancy-induced flow in a non-isothermally heated square enclosure”[Communications in nonlinear science and numerical simulation, 14 (2009) 770-778], Communications in Nonlinear Science and Numerical Simulation, 130 (2024), 107771.
28. Deb, N., & Saha, S., Role of internal heat generation, magnetism and Joule heating on entropy generation and mixed convective flow in a square domain, Annals of Nuclear Energy, 198 (2024), 110324.
29. Rasel, M.S., Rupam, M.T.I., Shuvo, M.S., & Saha, S., Investigation on conjugate mixed convection through a vented chamber with heat generating and conducting rotating circular cylinders, Results in Engineering, 19 (2023), 101248.
30. Chowdhury, S., Roy, P. P., Raj, M. H., & Saha, S., Pure mixed convection in a Non-Newtonian fluid filled lid-driven chamber with discrete bottom heating, Case Studies in Thermal Engineering, 44 (2023), 103183.
31. Saha, S., Zisan, H. T. A., & Tarafdar, U., Comment on” mixed convective flow in a multiple port ventilation square cavity with insulated baffle”[Case Stud. Therm. Eng. 30, (2022) 101785], Case Studies in Thermal Engineering, 44 (2023), 102861.
32. Saha, S., Zisan, H. T. A., & Roy, S., Comment on “Numerical study on the conjugate effect of joule heating and magnato-hydrodynamics mixed convection in an obstructed lid-driven square cavity” [International Communications in Heat and Mass Transfer 37 (5)(2010), 524–534], International Communications in Heat and Mass Transfer, 144 (2023), 106805.
33. Jamy, R. H., Chowdhury, S., Chowdhury, F. K., & Saha, S., Analyzing overall thermal behaviour of conjugate MHD free convection in L-shaped chamber with a thick fin, Case Studies in Thermal Engineering, 48 (2023), 103137.
34. Javed, S., Deb, N., & Saha, S., Natural convection and entropy generation inside a square chamber divided by a corrugated porous partition, Results in Engineering, 18 (2023), 101053.
35. Shuvo, M. S., Ruvo, T. H., & Saha, S., Characteristics of turbulent forced convective nanofluid flow and heat transfer in a 2D axisymmetric corrugated pipe, Thermal Science and Engineering Progress, 41 (2023), 101838.
36. Das, A., Mahmood, F. T., Smriti, R. B., Saha, S., & Hasan, M. N., CFD analysis of heat transfer enhancement by wall mounted flexible flow modulators in a channel with pulsatile flow, Heliyon, 9 (2023), e16741.
37. Sakib, M. N., Shuvo, M. S., Rahman, R., & Saha, S., Particle deposition and fluid flow characteristics in turbulent corrugated pipe flow using Eulerian-Lagrangian approach, Heliyon, 9(3) (2023), e14603.
38. Tasnim, S., Mitra, A., Saha, H., Islam, M. Q., & Saha, S., MHD conjugate natural convection and entropy generation of a nanofluid filled square enclosure with multiple heat-generating elements in the presence of Joule heating, Results in Engineering, 17 (2023), 100993.
39. Mahmood, F. T., Das, A., Smriti, R. B., Hakim, M. A., Saha, S., & Hasan, M. N., Role of wall-mounted flexible flow modulator on thermo-hydraulic characteristics of pulsating channel flow, Results in Engineering, 17 (2023), 100941.
40. Ruvo, T. H., Saha, S., Mojumder, S., & Saha, S., Mixed convection in an open T-shaped cavity utilizing the effect of different inflow conditions with Al₂O₃-water nanofluid flow, Results in Engineering, 17 (2023), 100862.
41. Rais, A. I., Mahmud, M. J., Hossain, M. R., & Saha, S., Influence of heat generation/absorption on mixed convective flow in a lid-driven chamber with isothermal rotating cylinder, Annals of Nuclear Energy, 182 (2023), 109596.
42. Roy, P. P., Chowdhury, S., Raj, M. H., Islam, M. Q., & Saha, S., Forced, natural and mixed convection of Non-Newtonian fluid flows in a square chamber with moving lid and discrete bottom heating, Results in Engineering, 17 (2023), 100939.
43. Javed, S., & Saha, S., Estimation of comprehensive thermal performance for conjugate natural convection inside a dome-shaped porous chamber holding a solid cylinder, Results in Engineering, 17 (2023), 100896.
44. Islam, R., Islam, A. F., & Saha, S., Influence of time-dependent wall temperature fluctuation on conjugate mixed convection inside a chamber with an oscillating cylinder, International Communications in Heat and Mass Transfer, 147 (2023), 106988.
45. Chowdhury, S., Shuvo, M. S., & Saha, S., Comment on “Investigation of heat transfer enhancement of Cu-water nanofluid by different configurations of double rotating cylinders in a vented cavity with different inlet and outlet ports” [International Communications in Heat and Mass Transfer, 126 (2021) 105432], International Communications in Heat and Mass Transfer, 147 (2023), 106977.
46. Robin, M.R.H., Hossain, M. R., & Saha, S., Entropy generation of pure mixed convection from double circular cylinders rotating inside a confined channel, Case Studies in Thermal Engineering, 49 (2023), 103395.
47. Deb, N., Fardin, S., Fardin, M.M., Nawal, N., Nizam, M.R. & Saha, S., Thermal management inside a discretely heated rectangular cuboid using P, PI and PID controllers, Case Studies in Thermal Engineering, 51 (2023), 103601.
48. Shuvo, M.S., Ikram, M.M., Hasan, M.N. & Saha, S., Thermal resistance analysis on conjugate free convective flow in a thick-walled square chamber, Case Studies in Thermal Engineering, 51 (2023), 103644.
49. Tasnim, S., Shuvo, M.S., Deb, N., Islam, M.S. & Saha, S., Entropy generation on magnetohydrodynamic conjugate free convection with Joule heating of heat-generating liquid and solid element inside a chamber, Case Studies in Thermal Engineering, 52 (2023), 103711.
50. Shuvo, M.S., Mahmud, M.J. & Saha, S., Multi-scaling analysis of turbulent boundary layers over an isothermally heated flat plate with zero pressure gradient, Heliyon, 9(12) (2023), e22721.
51. Islam, M. Q., & Saha, S., বাংলাদেশে বায়ুশক্তির ব্যবহার, Bangla Academy Bigyan Patrika: A half-yearly Science Journal, 4(1) (2022), pp. 17-24.
52. Shuvo, M. S., Hasib, M. H., & Saha, S., Entropy generation and characteristics of mixed convection in lid-driven trapezoidal tilted enclosure filled with nanofluid, Heliyon, 8(12) (2022), e12079.
53. Mahmud, M. J., Rais, A. I., Hossain, M. R., & Saha, S., Conjugate mixed convection heat transfer with internal heat generation in a lid-driven enclosure with spinning solid cylinder, Heliyon, 8(12) (2022), e11968.
54. Shuvo, M. S., Sakib, M. N., Rahman, R., & Saha, S., Particle deposition and characteristics of turbulent flow in converging and diverging nozzles using Eulerian-Lagrangian approach, Results in Engineering, 16 (2022), 100669.
55. Hossain, M. R., Mamun, M., & Saha, S., CFD analysis of turbulent forced convection over a spinning cylinder in an enclosed channel, International Journal of Thermofluids, 16 (2022), 100244.
56. Ruvo, T. H., Zisan, H. T. A., & Saha, S., Analysis of conjugate Marangoni natural convection in a heating system with an open boundary flow, International Communications in Heat and Mass Transfer, 138 (2022), 106402.
57. Shuvo, M. S., Ishtiaq, F., Jamee, T., Das, J., & Saha, S., Analysis of internal cooling system in a vented cavity using P, PI, PID controllers, Results in Engineering, 15 (2022), 100579.
58. Ikram, M. M., Priam, S. S., & Saha, S., Thermo-fluid characteristics and second law analysis of an inclined two-fluid system with variable surface roughness, Case Studies in Thermal Engineering, 37 (2022), 102270.
59. Zisan, H. T. A., Ruvo, T. H., & Saha, S., Entropy generation and natural convection on a cubic cavity with a pair of heat source at different configurations, International Communications in Heat and Mass Transfer, 134 (2022), 106033.
60. Hakim, M. A., Ahad, A. I., Karim, A. U., Saha, S., & Hasan, M. N., Fluid structure interaction and heat transfer enhancement with dynamic flexible flow modulator, International Communications in Heat and Mass Transfer, 134 (2022), 105983.
61. Hasan, M. N., Saha, S., Hasan, M. N., & Barua, S., Influence of active flow modulation on conjugate mixed convection inside a vented cavity, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 236(12) (2022), 6923-6938.
62. Prince, H. A., Rozin, E. H., Sagor, M. J. H., & Saha, S., Evaluation of overall thermal performance for conjugate natural convection in a trapezoidal cavity with different surface corrugations, International Communications in Heat and Mass Transfer, 130 (2022), 105772.
63. Saha, S. & Ikram, M. M., Comment on “Effects of inclination angle on conduction-natural convection in divided enclosures filled with different fluids”[International Communications in Heat and Mass Transfer, 37 (2010) 182–191], International Communications in Heat and Mass Transfer, 129 (2021), 105751.
64. Priam, S.S., Ikram, M.M., Saha, S. & Saha, S.C., Conjugate natural convection in a vertically divided square enclosure by a corrugated solid partition into air and water regions, Thermal Science and Engineering Progress, 25 (2021), 101036.
65. Saha, S., Barua, S., Kushwaha, B., Subedi, S., Hasan, M. N., & Saha, S. C., Conjugate natural convection in a corrugated solid partitioned differentially heated square cavity, Numerical Heat Transfer, Part A: Applications. 78(10) (2020), pp. 541 – 559.
66. Hasan, M. N., Chowdhury, C. Jewel, K. A. & Saha, S., A computational study on mixed convection heat transfer in an inclined rectangular channel under imposed local flow modulation, Journal of Chemical Engineering. 30(1) (2017), pp. 43-50.
67. Saha, S., Klewicki, J.C., Ooi, A. & Blackburn, H.M., On scaling pipe flows with sinusoidal transversely corrugated walls: analysis of data from the laminar to the low-Reynolds-number turbulent regime, Journal of Fluid Mechanics. 779 (2015), pp. 245-274.
68. Mojumder, S., Saha, S., Saha, S. & Mamun, M. A. H., Combined effect of Reynolds and Grashof numbers on mixed convection in a lid-driven T-shaped cavity filled with water-Al₂O₃ nanofluid, Journal of Hydrodynamics, Ser. B. 27(5) (2015), pp. 782-794.
69. Saha, S., Klewicki, J.C., Ooi, A.S.H. & Blackburn, H.M., Comparison of thermal scaling properties between turbulent pipe and channel flows via DNS, International Journal of Thermal Science. 89 (2015), pp. 43-57.
70. Rahman, R., Hossain, B., Saha, S. & Islam, M. Q., Energy consumption pattern in rural areas of Bangladesh and its future development, International Journal of Wind and Renewable Energy. 3(2) (2014), pp. 20-25.
71. Saha, S., Klewicki, J.C., Ooi, A.S.H., Blackburn, H.M. & T. Wei, Scaling properties of the equation for passive scalar transport in wall-bounded turbulent flows, International Journal of Heat and Mass Transfer. 70 (2014), pp. 779-792.
72. Hussein, A. K., Saha, S., & Khan, W. A., Numerical study of natural convection around an adiabatic circular cylinder located inside a square open cavity, Journal of Basic and Applied Scientific Research. 3(11) (2013), pp. 189-200.
73. Hussein, A. K., Hussein, S. H., Saha, S., Saha, G., & Hasanuzzaman, M., Effects of a longitudinal magnetic field and discrete isoflux heat source size on natural convection inside a tilted sinusoidal corrugated enclosure, Journal of Basic and Applied Scientific Research. 3(10) (2013), pp. 402-415.
74. Hussein, A. K., Ahmed, S. E., Saha, S., Hasanpour, A., Mohammed, H. A., Kolsi, L., & Adegun, I. K., MHD natural convection inside an inclined trapezoidal porous enclosure with internal heat generation or absorption subjected to isoflux heating, Heat Transfer-Asian Research. 41(6) (2012), pp. 498-515.
75. Saha, S., Hussein, A. K., Khan, W. A., Mohammed, H. A., Pakdee, W., & Hasanpour, A., Effects of diameter ratio of adiabatic circular cylinder and tilt angle on natural convection from a square open tilted cavity, Heat Transfer-Asian Research. 41(5) (2012), pp. 388-401.
76. Hasan, M. N., Saha, S., & Saha, S. C., Effects of corrugation frequency and aspect ratio on natural convection within an enclosure having sinusoidal corrugation over a heated top surface, International Communications in Heat and Mass Transfer. 39(3) (2012), pp. 368-377.
77. Saha, S., Chin, C., Blackburn, H.M., & Ooi, A.S.H., The influence of pipe length on thermal statistics computed from DNS of turbulent heat transfer, International Journal of Heat and Fluid Flow. 32(6) (2011), pp. 1083-1097.
78. Saha, S., Hussein, A.K., Saha, G., & Hussain, S.H., Mixed convection in a tilted lid-driven square enclosure with adiabatic cylinder at the center, International Journal of Heat and Technology. 29(1) (2011), pp. 143-156.
79. Rahman, M. M., Rahim, N. A., Saha, S., Billah, M. M., Saidur, R., & Ahsan, A., Optimization of mixed convection in a lid-driven enclosure with a heat generating circular body, Numerical Heat Transfer, Part A: Applications. 60(7) (2011), pp. 629-650.
80. Saha, S., Saha, G., Islam, M. Q. & Raju, M. C., Mixed convection inside a lid-driven parallelogram cavity with isoflux heating from below, i-manager’s Journal on Future Engineering & Technology. 6(1) (2010), pp. 14-22.
81. Saha, G., Sultana, T. & Saha, S., Effect of thermal radiation and heat generation on MHD flow past a uniformly heated vertical plate, Desalination and Water Treatment. 16(1-3) (2010), pp. 57-65.
82. Rahman, M. M., Alim, M. A., & Saha, S., Mixed convection in a square cavity with a heat-conducting horizontal square cylinder, Suranaree Journal of Science and Technology. 17(2) (2010), pp. 139-153.
83. Saha, G., Saha, S., Hasan, M. N., & Islam, M. Q., Natural convection heat transfer within octagonal enclosure, International Journal of Engineering Transactions A: Basics. 23(1) (2010), pp. 1-10.
84. Saha, S., Saha, G., Islam, M. Q., & Raju, M. C., Convective heat transfer inside an enclosure with double discrete heaters and exit configurations, Karpagam International Journal of Applied Mathematics. 1(1) (2010), pp. 85-90.
85. Rahman, M. M., Alim, M. A., Saha, S., & Chowdhury, M. K., Effect of the presence of a heat conducting horizontal square block on mixed convection inside a vented square cavity, Nonlinear Analysis: Modelling and Control. 14(4) (2009), pp. 531-548.
86. Islam, M. T., Saha, S., Ali, M., Islam, M. Q., & Saha, G., Mixed convection heat transfer characteristics in a channel with an open cavity, Journal of Energy, Heat and Mass Transfer. 31 (2009), pp. 73-89.
87. Saha, S., & Ali, A. R. M., Thermal buckling and postbuckling characteristics of extensional slender elastic rods, Journal of Mechanical Engineering. ME40(1) (2009), pp. 1-8.
88. Saha, S., Hasan, M. N., & Khan, I. A., Double diffusive mixed convection heat transfer inside a vented square cavity, Chemical Engineering Research Bulletin. 13(1) (2009), pp. 17-24.
89. Sultana, T., Saha, S., Rahman, M. M., & Saha, G., Heat transfer in a porous medium over a stretching surface with internal heat generation and suction or injection in the presence of radiation, Journal of Mechanical Engineering. ME40(1) (2009), pp. 22-28.
90. Saha, S., Islam, M. Q., & Saha, G., Mixed convection in a vee-corrugated enclosure with isoflux heating from below, The AUST Journal of Science and Technology. 1(1) (2009), pp. 84-96.
91. Islam, M. Q., Ali, M., & Saha, S., Low cost high solidity horizontal axis wind turbine for irrigation in Bangladesh, Journal of Energy, Heat and Mass Transfer. 30 (2008), pp. 183-192.
92. Banu, S., Saha, G., & Saha, S., Multisegment integration technique for post-buckling analysis of a pinned-fixed slender elastic rod, Brac University Journal, Bangladesh. V(2) (2008), pp. 1-7.
93. Islam, M. T., Saha, S., Mamun, M. A. H., & Ali, M., Two dimensional numerical simulation of mixed convection in a rectangular open enclosure, Fluid Dynamics and Materials Processing. 4(2) (2008), pp. 125-137.
94. Rahman, M. M., Alim, M. A., Saha, S., & Chowdhury, M. K., A numerical study of mixed convection in a square cavity with a heat conducting square cylinder at different locations, Journal of Mechanical Engineering. ME39(2) (2008), pp. 78-85.
95. Rahman, M. M., Alim, M. A., Saha, S., & Chowdhury, M. K., Mixed convection in a vented square cavity with a heat conducting horizontal solid circular cylinder, Journal of Naval Architecture and Marine Engineering. 5(2) (2008), pp. 37-46.
96. Islam, M. T., Saha, S., Saha, G., Rahman, M. M., Mamun, M. A. H., & Islam, M. Q., Numerical simulation on mixed convection in a parallelogrammic ventilated enclosure, GANIT: Journal of Bangladesh Mathematical Society. 28 (2008), pp. 45-58.
97. Saha, S., Hasan, N., & Feroz, C. M., Natural convection in a differentially heated enclosure with triangular roof, Journal of Mechanical Engineering. ME39(1) (2008), pp. 1-7.
98. Raju, M. C., Varma, S. V. K., Reddy, P. V., & Saha, S., Soret effects due to natural convection between heated inclined plates with magnetic field, Journal of Mechanical Engineering. ME39(2) (2008), pp. 65-70.
99. Saha, S., Sultana, T., Saha, G., & Rahman, M. M., Effects of discrete isoflux heat source size and angle of inclination on natural convection heat transfer flow inside a sinusoidal corrugated enclosure, International Communications in Heat and Mass Transfer. 35(10) (2008), pp. 1288-1296.
100. Sultana, T., Saha, S., Saha, G., & Islam, M. Q., Natural convection in tilted square cavities with triangular shaped top cold wall, Journal of Mechanical Engineering. ME39(1) (2008), pp. 30-39.
101. Uddin, H., & Saha, S., Study of natural convection flows in a tilted trapezoidal enclosure with isoflux heating from below, Suranaree Journal of Science and Technology. 15(4) (2008), pp. 293-306.
102. Saha, S., Saha, G., & Islam, M. Q., Finite element analysis of natural convection in a differentially heated square cavity, Bangladesh Journal of Physics. 5 & 6 (2008), pp. 47-57.
103. Saha, S., Saha, G., & Islam, M. Q., Natural convection in square enclosure with adiabatic cylinder at center and discrete bottom heating, Daffodil International University Journal of Science and Technology. 3(1) (2008), pp. 29-36.
104. Saha, S., Mamun, M. A. H., Hossain, M. Z., & Islam, A. K. M. S., Mixed convection in an enclosure with different inlet and exit configurations, Journal of Applied Fluid Mechanics. 1(1) (2008), pp. 78-93.
105. Hossain, M. K. M., Islam, M. Q., Mandal, A. C., & Saha, S., Wind effect on staggered cylinders of square and rectangular sections with variable longitudinal spacings, Journal of Mechanical Engineering. ME38(2) (2007), pp. 52-57.
106. Saha, G., Islam, M. T., Saha, S., & Islam, M. Q., Natural convection in titled isosceles triangular enclosure with discrete bottom heating, Thammasat International Journal of Science and Technology. 12(4) (2007), pp. 24-35.
107. Saha, G., Saha, S., Ali, M., & Islam, M. Q., Natural convection in a vee-corrugated square enclosure with discrete heating from below, Journal of Engineering and Technology. 6(1) (2007), pp. 15-27.
108. Islam, M. T., Saha, S., Mamun, M. A. H., & Saha, G., Natural convection in an inclined square enclosure containing internal energy sources, Journal of Mechanical Engineering. ME37(1) (2007), pp. 24-32.
109. Saha, G., Saha, S., & Islam, M. Q., Natural convection in a modified square enclosure with constant flux heating from left, AIUB Journal of Science and Engineering. 6(1) (2007), pp. 89-96.
110. Saha, G., Saha, S., Islam, M. Q., & Akhanda, M. A. R., Natural convection in enclosure with discrete isothermal heating from below, Journal of Naval Architecture and Marine Engineering. 4(1) (2007), pp. 1-13.
111. Saha, G., Saha, S., & Mamun, M. A. H., A finite element method for steady-state natural convection in a square tilt open cavity, ARPN Journal of Engineering and Applied Sciences. 2(2) (2007), pp. 41-49.
112. Saha, S., Sultana, T., Saha, G., & Islam, M. Q., Natural convection inside a vee corrugated enclosure: effect of inclination angle and discrete heat source size, Journal of Institution of Engineers, Bangladesh, Multidisciplinary. 31(1) (2006), pp. 85-99.
113. Saha, S., Islam, M. T., Ali, M., Mamun, M. A. H., & Islam, M. Q., Effect of inlet and outlet locations on transverse mixed convection inside a vented enclosure, Journal of Mechanical Engineering. ME36(2) (2006), pp. 27-37.
114. Saha, S., Saha, G., Ali, M., & Islam, M. Q., Combined free and forced convection inside a two-dimensional multiple ventilated rectangular enclosure, ARPN Journal of Engineering and Applied Sciences. 1(3) (2006), pp. 23-35.
115. Saha, S., Islam, M. T., & Hossain, M. Z., Design of a low cost multi-channel data logger, ARPN Journal of Engineering and Applied Sciences. 1(1) (2006), pp. 26-32.