Refereed Journal Articles: [IF=Journal Impact Factor (2018), Q1-Q4 = Journal Citation Ranking & Quartile Scores]

  1. S. Bhowmick, L. R. Roy, F. Xu, S. C. Saha, “Natural Convection Fluid Flow and Heat Transfer in a Valley Shaped Cavity”, Computation, Minor review, (2024), pp. … [IF: 1.9].Q2.
  2. G. Saha, S. C. Saha, “Tiny Particles, Big Problems: The Threat of Microplastics to Marine Life and Human Health”, Processes, 12, (2024), pp. 1401 [IF: 2.8]. Q2.
  3. A. A-R Al-Waaly, P. Nag, A.R. Paul, G. Saha, S. C. Saha, “Entropy Generation Associatedwith Natural Convection within a Triangular Porous Cavity Containing Equidistant Cold Domains”, Front. Energy Res., 12, (2024), pp. 1422256 [IF: 2.6]. Q2.
  4. X. Huang, I. Francis, G. Saha, M.M. Rahman, S. C. Saha, “Large Eddy Simulation-Based Modeling of Cold-Air Inhalation from Nasal Cavities to the Distal Lung: Insights for Athlete Health and Performance”, Results in Engineering, 23, (2024), pp. 102475 [IF: 5.0]. Q1.
  5. T. Mahmud, P. Nag, M.M. Molla, S. C. Saha, “ Convective heat transfer efficacy of an experimentally observed non-Newtonian MWCNT-Fe3O4-EG hybrid nanofluid in a driven enclosure with a heated cylinder”, International Journal of Thermal Sciences, 204, (2024) pp. 109203, [IF: 4.5] Q1.
  6. S. C. Saha, X. Huang, I. Francis1, G. Saha, “Airway Stability in Sleep Apnea: Assessing Continuous Positive Airway Pressure Efficiency”, Respiratory Physiology & Neurobiology, 325, pp. 104265. [IF: 2.3]. Q2.
  7. X. Huang, S. C. Saha, G. Saha, I. Francis, Z. Luo, “Transport and deposition of microplastics and nanoplastics in the human respiratory tract”, Environmental Advances, 16, (2024), pp. 100525 [CS: 3.6]. Q1
  8. J. H. Saboj, P. Nag, G. Saha, S. C. Saha, “ Heat Transfer Assessment Incorporated with Entropy Generation within a Curved Corner Structure Enclosing a Cold Domain”, Heat Transfer, 53(5), (2024) pp. 2460 – 2479 [IF: 3.6]. Q2.
  9. S. C. Saha, I. Francis, G. Saha, X. Huang, M. M. Molla, “Hemodynamic Insights into Abdominal Aortic Aneurysms: Bridging the Knowledge Gap for Improved Patient Care”, Fluids, 9(2), (2024), pp. 50 [IF: 1.9]. Q2
  10. A. Gupta, R. Singh, A.R. Paul, B. Paul, S. C. Saha, “Improving Heat Transfer in Parabolic Trough Solar Collectors by Magnetic Nanofluids”, Energy Engineering (ENERGY), 121(4), (2024), pp. 835 – 848 [CS: 0.7]. Q4
  11. G. Saha, J. H. Saboj, P. Nag, S. C. Saha, “Synergistic Heat Transfer in Enclosures: A Hybrid Nanofluids Review”, Journal of Nanofluids, 13(2), (2024), pp. 524-535 [IF: —]. Q2.
  12. B.K. Saha, J.I. Jihan, M.Z. Ahamad, G. Saha, S. C. Saha, “Enhanced Thermal Performance and Entropy Generation Analysis in a Novel Cavity Design with Circular Cylinder”, Heat Transfer, 53(3), (2024) pp. 1446 – 1473 [IF: 3.6]. Q2.
  13. S. E. Razavi, T. Adibi, S. F. Ahmed, S. C. Saha, “Semi-analytical solution of nanofluid flow with convective and radiative heat transfer”, International Journal of Modern Physics B, In Press. https://doi.org/10.1142/S0217979224503454 [IF: 1.700] Q2
  14. G. Saha, A.A.Y. Al-Waaly, M.M. Ikram, R Bihani, S. C. Saha “Unveiling the Dynamics of Entropy Generation in Enclosures: A Systematic Review”, International Journal of Thermofluids, 21 (2024), pp. 100568 [CS: 9.2] Q1
  15. S. C. Saha, G. Saha “Effect of Microplastics Deposition on Human Lung Airways: A Review with Computational Benefits and Challenges”, Heliyon, 10, (2024) pp. e24355 [IF: 4.0]. Q1.
  16. M.M. Rahman, M. Zhao, M.S. Islam, K. Dong, S. C. Saha, “A numerical study on sedimentation effect of dust, smoke and traffic particle deposition in a realistic human lung”, International Journal of Multiphase Flow, 27, (2024) pp. 104685 [IF: 3.8]. Q1.
  17. T. Adibi, S.E Razavi, S. F. Ahmed, H Hassanpour, S. C. Saha, S.M. Muyeen, “Predicting airfoil stalling dynamics using upwind numerical solutions to non-viscous equations”, Results in Engineering, 20, (2024) pp. 101472, [IF: 5.0] Q2
  18. H. Cui, M. Han, F. Xu, Q. Liu., S. C. Saha, “Scaling analysis of intrusion flow and thermal plume for Pr > 1 in the triangular cavity”, International Journal of Thermal Sciences, 195, (2024) pp. 108616, [IF: 4.5] Q1
  19. M. M. Rahman, S. Bhowmick, B.P. Ghosh, F. Xu, R. N. Mondal, S. C. Saha, “Transient natural convection flows and heat transfer in a thermally stratified air-filled trapezoidal cavity”, Thermal Science and Engineering Progress, 47 (2024), pp. 102377 [IF: 4.8] Q1.
  20. N.C. Roy, G. Saha, S. C. Saha, “MHD Casson or Carreau Fluids Flow with Microorganisms over a Permeable Shrinking Surface”, Journal of Naval Architecture and Marine Engineering, 20, (2023) pp. 101 – 114 [IF: 1.9] Q2
  21. A. Gupta, A. R. Paul, S. C. Saha, “Decarbonizing Atmosphere Using Carbon Capture, Utilization, and Sequestration: Challenges, Opportunities, and Policy Implications in India”, Atmosphere, 14(10), (2023), pp. 1546 [IF: 3.110]. Q2
  22. J. H. Saboj, P. Nag, G. Saha, S. C. Saha, “Entropy Production Analysis in an Octagonal Cavity with an Inner Cold Cylinder: A Thermodynamic Aspect”, Energies, 16(14), (2023), pp. 5267 [IF: 3.200] Q1
  23. P. Larpruenrudee, D.K. Do, N.S. Bennett, S. C. Saha, M. Ghalambaz, M.S. Islam, “Computational Fluid Dynamics Analysis of a Spray Cooling System for Cooling Systems in Australia”, Energies, 16(14), (2023), pp. 5317. [IF: 3.200] Q1
  24. H. Cui, H. An, M. Ma, Z. Han, S. C. Saha, Q. Liu., “Experimental study on wind load and wind-induced interference effect of three high-rise buildings”, Journal of Applied Fluid Mechanics, 16(11), (2023) pp. 2101–2114 [IF: 1.000] Q3
  25. N.C. Roy, G. Saha, S. C. Saha, “Williamson Fluid Flow Having Microorganisms over a Permeable Shrinking Sheet”, Science and Technology Asia, 28(3). pp. 1 – 17 [IF: 0.00] Q2
  26. Z. Begum, M. Saleem, S.ul. Islam, S. C. Saha, “Numerical Study of Natural Convection Flow in Rectangular Cavity with Viscous Dissipation and Internal Heat Generation for Different Aspect Ratios”, Energies, 16(14). pp. 5267 [IF: 3.200] Q1
  27. M. M. Rahman, S. Bhowmick, R. N. Mondal, S. C. Saha, “A Computational Study of Chaotic Flow and Heat Transfer within a Trapezoidal Cavity”, Energies, 16(13) (2023), pp. 5031. [IF: 3.200] Q1.
  28. A. Hossain, M. M. Molla, M. Kamrujjaman, M. Mohebujjaman, S. C. Saha, “MHD Mixed Convection of Non-Newtonian Bingham Nanofluid in a Wavy Enclosure with Temperature Dependent Thermophysical Properties: A Sensitivity Analysis by Response Surface Methodology”, Energies, 16(11) (2023), pp. 4408. [IF: 3.200] Q1
  29. S. C. Saha, S.ul. Islam, Z. Zia, M. Saleem, S. Ahmad, “Thermal analysis of magneto-natural convection flows within a partially thermally active rectangular enclosure”, Energies, 13 (2023), pp. 1029. [IF: 3.200] Q1
  30. F. Alsouda, N. S. Bennett, S. C. Saha, F. Salehi, M. S. Islam, “Vapor Compression Cycle: A State-of-the-Art Review on Cycle Improvements, Water and Other Natural Refrigerants”, Clean Technologies, 5(2) (2023), pp. 584 – 608 [IF: 3.800]. Q2.
  31. S. C. Saha, S. F. Ahmed, B. Ahmed, T. Mehnaz, A. Musharrat, “A review of phase change materials in multi-designed tubes and buildings: Testing methods, applications, and heat transfer enhancement”, Journal of Energy Storage, 63 (2023), pp. 106990 [IF: 8.907]. Q1.
  32. G. Saha, A. A.Y. Al-Waaly, M.C. Paul, S. C. Saha “Heat Transfer in Cavities: Configurative Systematic Review”, Energies, 13 (2023), pp. 1029. [IF: 3.200] Q1
  33. H. Cui, H. An, W. Wang, Z. Han, B. Hu, F. Xu, Q. Liu, S. C. Saha “Numerical study of mixed convection and heat transfer in arc-shaped cavity with Inner heat sources”, Applied Sciences, 13 (2023) pp. 1029. [IF: 2.700] Q1
  34. M. M. Ikram, G. Saha, S. C. Saha “Unsteady Conjugate Heat Transfer Characteristics in Hexagonal Cavity Equipped with a Multi-Blade Dynamic Modulator”, International Journal of Heat and Mass Transfer, 200, (2023), pp. 123527 [IF: 5.584]. Q1
  35. A. R. Paul, A. Jain, S. C. Saha, “Exposure Assessment of Air Pollution in Lungs”, Atmosphere, 13, (2022), pp. 1767 [IF: 3.110]. Q2
  36. I. Francis, S. C. Saha, “Surface tension effects on flow dynamics and alveolar mechanics in the acinar region of human lung”, Heliyon, 8, (2022), pp. e11026 [IF: 3.776]. Q1.
  37. I. Francis, S. C. Saha, “Computational Fluid Dynamics and Machine Learning Algorithms Analysis of Striking Particle Velocity Magnitude, Particle Diameter, and Impact Time Inside an Acinar Region of Human Lung”, Physics of Fluid, 34, (2022), pp. 101904 [IF: 3.521]. Q1.
  38. S. C. Saha, I. Francis, T. Nassir, “Computational Inertial Microfluidics: Optimal Design for Particle Separation”, Fluids, 7(9), (2022), pp. 308 [Citescore 2.3]. Q2.
  39. M.M. Rahman, M. Zhao, M.S. Islam, K. Dong, S. C. Saha, “Nanoparticle transport and deposition in a heterogeneous human lung airway tree: An efficient one path model for CFD simulations’ European Journal of Pharmaceutical Sciences, 177, (2022), pp. 106279 [IF: 5.112].Q1.
  40. M. Z. Islam, S. I. Hossain, E. Deplazes, S. C. Saha, “Concentration-dependent cortisone adsorption and interaction with model lung surfactant monolayer”, Molecular Simulation, 48 (2022) pp. 1627–1638 [IF: 2.346]. Q2.
  41. M. M. Rahman, S. Bhowmick, R. N. Mondal, S. C. Saha, “Unsteady natural convection in an initially stratified air-filled trapezoidal enclosure heated from below”, Processes, 10, (2022), pp. 1383 [IF: 3.352]. Q2.
  42. F. Jiao, S. I. Hossain, J. Sang, S. C. Saha, Y. T. Gu, Z. E Hughes, N. S. Gandhi, “Molecular Basis of Transport of Surface Functionalised Gold Nanoparticles to Pulmonary Surfactant”, RSC Advances, 12, (2022), pp. 18012 – 18021 [IF: 3.361]. Q1.
  43. S. C. Saha, I. Francis, X. Huang, A. R. Paul, “Heat transfer and fluid flow analysis of realistic 16-generation lung”, Physics of Fluid, 34, (2022), pp. 061906 [IF: 3.521]. Q1.
  44. I. Francis, J. Shrestha, K. R. Paudel, P. M. Hansbro, M. E. Warkiani, S. C. Saha, “Recent advances in Lung-on-a-chip models”, Drug Discovery Today, 27, (2022), pp. 2593-2602[IF: 7.851]. Q1.
  45. H. Cui, W. Wang, F. Xu, S. C. Saha, Q. Liu, “Transitional free convection flow and heat transfer within attics in cold climate”, Thermal Science, 26(6A), pp. 4699 – 4709 [Cite Score: 0.38]. Q3.
  46. T. Gemci, V. Ponyavin, R. Collins, T. E. Corcoran, S. C. Saha, M. S. Islam, “CFD study of dry pulmonary surfactant aerosols deposition in upper 17 generations of human respiratory tract”, Atmosphere, 13, (2022), pp. 726. [IF: 2.686]. Q2.
  47. A. M. Sefidan, M. E. Sangari, M. Sellier, M. I. H. Khan, S. C. Saha, ”Modeling of multilayer phase change material in a triplex tube under various thermal boundary conditions”, Energies, 15, (2022), pp.3465. [IF: 3.200]. Q1.
  48. T. Adibi, S. E. Razavi, S. F. Ahmed, A. Amrikachi, S. C. Saha, ”Characteristic-based fluid flow modeling between two eccentric cylinders in laminar and turbulent regimes”, Geofluids, 2022, (2022), pp.8265671. [IF: 2.000]. Q2.
  49. B. V. Duong, P. Larpruenrudee, T. Fang, S. I. Hossain, S. C. Saha, Y.T. Gu, M.S. Islam, “Is SARS CoV-2 Omicron variant deadlier and highly transmissible than Delta variant?”, International Journal of Environmental Research and Public Health, 19, (2022), pp.4586. [IF: 3.390]. Q1.
  50. M.M. Rahman, M. Zhao, M.S. Islam, K. Dong, S. C. Saha, “Numerical study of nano and micro pollutant particle transport and deposition in realistic human lung airways’ Powder Technology, 402, (2022), pp. 117364 [IF: 5.134]. Q1.
  51. M.Z. Islam, M. Krajewska, S.I. Hossain, K. Prochaska, A. Anwar, E. Deplazes, S. C. Saha, “The concentration-dependent effect of the steroid drug prednisolone on a lung surfactant monolayer”, Langmuir., 38, (2022), pp. 4188 – 4199, [IF.: 3.882]. Q1.
  52. X. Huang, M. Clemon, M. S. Islam, S. C. Saha, “Optimization of fluid characteristics in the main nozzle of an air-jet loom”, Textile Research Journal, 92, (2022), pp. 525-538 [IF: 1.820]. Q2.
  53. S. C. Adhikari, R. K. Chanda, S. Bhowmick, R. N. Mondal, S. C. Saha, “Pressure-induced instability characteristics of a transient flow and energy distribution through a loosely bent square duct”, Energy Engineering, 119, (2022), pp. 429 – 451, [CS: 0.7]. Q4.
  54. T. Adibi, A. Sojoudi, S. C. Saha, “Modeling of thermal performance of a commercial alkaline electrolyzer supplied with various electrical currents”, International Journal of Thermofluids,13, (2022), pp. 100126 [Cite Score 1.7]. Notes: It is a new journal. It started publishing in 2020.
  55. M. Shams, N. Rafiq, N. Kausar, S. Ahmed, N. Mir, S. C. Saha, “ Inverse family of numerical methods for approximating all simple and roots with multiplicity of nonlinear polynomial equations with engineering applications, Mathematical Problems in Engineering, 2021, (2021), pp. 3124615, [SJR: 0.26]. Q3.
  56. M.M. Rahman, M. Zhao, M.S. Islam, K. Dong, S. C. Saha, “Aerosol particle transport and deposition in upper and lower airways of infant, child and adult human lungs”, Atmosphere, 12, (2021), pp. 1402. [IF: 2.686]. Q2.
  57. M.M. Rahman, M. Zhao, M.S. Islam, K. Dong, S. C. Saha, “Numerical study of nanoscale and microscale particle transport in realistic lung models with and without stenosis”, International Journal of Multiphase Flow, 145, (2021) pp. 103842 [IF: 3.186]. Q1.
  58. S. I. Hossain, S. C. Saha, E. Deplazes, “Phenolic compounds alter the ion permeability of phospholipid bilayers via specific lipid interactions”, Physical Chemistry Chemical Physics (PCCP), 23, (2021) pp. 22352 – 22366. [IF: 3.430]. Q1.
  59. S. I. Hossain, Z. Luo, E. Deplazes, S. C. Saha, “Shape matters – The interaction of gold nanoparticles with model lung surfactant monolayers”, Journal of the Royal Society Interface, 18, (2021) pp. 20210402, [IF: 4.118]. Q1.
  60. M. Z. Islam, R. N. Mondal, S. C. Saha “Impact of rotation on fluid and heat flow in bending duct”, Energy Engineering, accepted on 17/09/2021, [SJR: 0.16]. Q4.
  61. R. N. Mondal, M. S. Hasan, M. S. Islam, M. Islam, S. C. Saha “A Computational study on fluid flow and heat transfer through a rotating curved duct with rectangular cross section”, International Journal of Heat and Technology, 34, (2021) pp. 1213 – 1224, [IF: 1.170]. Q3.
  62. H. Xue, S. C. Saha, S. Beier, N. Jepson, Z. Luo, “Topological optimization of auxetic coronary stents considering hemodynamics”, Frontiers in Bioengineering and Biotechnology, 9, (2021) pp. 728914 [IF: 5.890]. Q1.
  63. S. S. Priam, M. M. Ikram, S. Saha, S. C. Saha, “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) pp. 101036. [IF: 4.950]. Q1.
  64. M.M. Rahman, M. Zhao, M.S. Islam, K. Dong, S. C. Saha, “Aging effects on airflow distribution and micron-particle transport and deposition in a human lung using CFD-DPM approach”, Advanced Powder Technology, 32, (2021), pp. 3506 – 3516. [IF: 4.833]. Q1.
  65. M. S. Islam, P. Larpruenrudee, S. C. Saha, O. Pourmehran, A. R. Paul, T. Gemci, R. Collins, G. Paul, Y. T. Gu, “How severe acute respiratory syndrome coronavirus-2 aerosol propagate through the age-specific upper airways?”, Physics of Fluids, 33, (2021) pp. 081911. [IF: 3.521]. Q1.
  66. S. F. Ahmed, S. C. Saha, J.C. Debnath, G. Liu, M. Mofijur, A. Baniyounes, S.M.E.K. Chowdhury, D-V N. Vo “Data-driven modelling techniques for earth-air heat exchangers to reduce energy consumption in buildings: a review”, Environmental Chemistry Letters, Springer 19, (2021) pp. 4191 – 4210. [IF: 9.027]. Q1.
  67. A.R. Paul, F. Khan, A. Jain, S.C. Saha, ”Deposition of smoke particles in human airways with realistic waveform, Atmosphere, 12, (2021), pp. 912. [IF: 2.686]. Q2.
  68. A. Tiwari, A. Jain, A.R. Paul, S.C. Saha, ”Computational evaluation of drug delivery in human respiratory tract under realistic inhalation, Physics of Fluids, 33, (2021), pp. 083311. [IF: 3.521]. Q1.
  69. M. S. Islam, P. Larpruenrudee, A. R. Paul, G. Paul, T. Gemci, Y. T. Gu, S. C. Saha, ”Polydisperse aerosol transport and deposition in upper airways of age-specific lung”, International Journal of Environmental Research and Public Health, 18, (2021), pp. 6239. [IF: 3.390]. Q2.
  70. M. S. Islam, P. Larpruenrudee, A. R. Paul, G. Paul, T. Gemci, Y. T. Gu, S. C. Saha, ”SARS CoV-2 Aerosol: How far it can travel to the lower airways?”, Physics of Fluids, 33, (2021), pp. 061903. [IF: 3.521. Q1.
  71. Z. Fan, D. Holmes, E. Sauret, M. S. Islam, S. C. Saha, Z. Ristovski, Y. T. Gu, “A multi-scale modelling method incorporating spatial coupling and temporal coupling into transient simulations of the human airways”, International Journal for Numerical Methods in Fluids, 93, (2021) pp. 2905 – 2920, [IF: 2.107]. Q1.
  72. S. C. Saha, A. M. Sefidan, A. Sojoudi, M. M. Molla, “Transient free convection and heat transfer in a partitioned attic-shaped space under diurnal thermal forcing”, Energy Engineering, 118, (2021) pp. 487 – 506, [SJR: 0.16]. Q4.
  73. S. Alzahrani, M.S. Islam, S. C. Saha, “Comparison of flow resistance and port maldistribution between novel and conventional plate heat exchangers”, International Communications in Heat and Mass Transfer, 123, (2021) pp. 105200 [IF: 5.683] Q1.
  74. S. I. Hossain, N. S. Gandhi, Z. E. Hughes, S. C. Saha, “Computational studies of lipid wrapped gold nanoparticle transport through model lung surfactant monolayers”, The Journal of Physical Chemistry B, 125, (2021) pp.1392 – 1401, [IF: 2.991]. Q1
  75. S. Alzahrani, M.S. Islam, S. C. Saha, “Heat transfer enhancement of modified flat plate heat exchanger”, Applied Thermal Engineering, 186, (2021) pp. 116533, [IF: 5.295]. Q1.
  76. M. I, Jahirul, M. G. Rasul, R. J. Brown, W. Senadeera, M. A. Hosen, R. Haque, S. C. Saha, T.M.I. Mahlia, “Investigation of correlation between chemical composition and properties of biodiesel using principal component analysis (PCA) and artificial neural network (ANN)”, Renewable Energy, 168, (2021) pp. 632 – 646, [IF: 8.001]. Q1
  77. X. Wang, S. Bhowmick, Z. Tian, S. C. Saha, F. Xu, “Experimental study of natural convection in a V-shape-section cavity”, Physics of Fluids, 33, (2021) pp. 014104, [IF: 3.521. Q1
  78. M. M. Ikram, G. Saha, S. C. Saha, “Conjugate forced convection transient flow and heat transfer analysis in a hexagonal, partitioned, air filled cavity with dynamic modulator”, International Journal of Heat and Mass Transfer, 167, (2021) pp. 120786, [IF: 5.584]. Q1
  79. S. Alzahrani, M.S. Islam, S. C. Saha, “Heat transfer enhancement investigation in a novel flat plate heat exchanger”, International Journal of Thermal Sciences, 161, (2021) pp. 106763, [IF: 3.744] Q1
  80. M. M. Molla, M. F. Hasan, S. R. Hassan, T. A. Himika, A. Taher, S. C. Saha, “A Lattice Boltzmann simulation of magnetic field effect with different inclination angles in Rayleigh-Benard convection”, Energy Engineering, 118, (2021) pp.15 – 36, [JCR: 0.16]. Q4.
  81. S. Saha, S. Barua, B. Kushwaha, S. Subedi, M. N. Hasan, S. C. Saha, “Conjugate natural convection in a corrugated solid partitioned differentially heated square cavity”, Numerical Heat Transfer, Part A: Applications, 78 (2020) pp. 541 – 559. [IF: 2.928]. Q1.
  82. S. Alzahrani, M.S. Islam, S. C. Saha, “Heat transfer augmentation in retrofitted corrugated plate heat exchanger”, International Journal of Heat and Mass Transfer, 161 (2020) pp. 120226. [IF: 4.947]. Q1
  83. H. A. Moghaddam, A. Sarmadian, S. C. Saha, M. S. Islam, H. A. N. Joushani, A. Asnaashari, M. Moosavi, “Flow boiling heat transfer and pressure drop characteristics of Isobutane in horizontal channels with twisted tapes”, International Journal of Heat and Mass Transfer, 162 (2020) pp. 120345. [IF: 4.947]. Q1
  84. H. A. Moghaddam, A. Sarmadian, A. Asnaashari, H. A. N. Joushani, M. S. Islam, S. C. Saha, G. Ghasemi, M. Shafaee, “Condensation heat transfer and pressure drop characteristics of Isobutane in horizontal channels with twisted tape inserts”, International Journal of Refrigeration, 118 (2020) pp. 31–40. [IF: 3.461]. Q1
  85. S. I. Hossain, N. S. Gandhi, Z. E. Hughes, S. C. Saha, “The role of SP-B125 peptides in lung surfactant monolayers exposed to gold nanoparticles”, Physical Chemistry Chemical Physics (PCCP), 22 (2020) pp. 15231–15241. [IF: 3.430]. Q1
  86. M.S. Islam, Y.T. Gu, A. Farkas, G. Paul, S. C. Saha, “Helium-Oxygen Mixture Model for Particle Transport in CT-Based Human Lung”, International Journal of Environmental Research and Public Health, 17 (2020) pp. 3574. [IF: 2.468] Q2.
  87. M. Islam, S. C. Saha, P. K. D. V. Yarlagadda, A. Karim, “A tool to minimise the need of Monte Carlo ray tracing code for 3D finite volume modelling of a standard parabolic trough collector receiver under a realistic solar flux profile”, Energy Science & Engineering, Accepted on 04/05/2020. [IF: 2.893] Q1
  88. N. M. Geekiyanage, E. Sauret, S. C. Saha, R. Flower, Y. T. Gu, “Modelling of red blood cell morphological and deformability changes during In-Vitro storage”, Applied Sciences, 10 (2020) pp. 3209. [IF: 2.217] Q1
  89. S. C. Saha A. M. Sefidan, A. Sojoudi, “Unsteady natural convection within an attic-shaped space subject to sinusoidal heat flux on Inclined walls”, Journal of Energy Engineering, 117. (2020) pp. 1-17 [IF: 2.829] Q4
  90. N. M. Geekiyanage, E. Sauret, S. C. Saha, R. Flower, Y. T. Gu, “Deformation behaviour of stomatocyte, discocyte and echinocyte red blood cell morphologies during optical tweezers stretching”, Biomechanics and Modeling in Mechanobiology, Online. [IF: 2.829] Q1
  91. P. Singh , V. Raghav, V. Padhmashali, G. Paul, M.S. Islam, S. C. Saha, “Airflow and particle transport prediction through stenosis airway”, International Journal of Environmental Research and Public Health, 17 (2020) pp. 1119. [IF: 2.468] Q2.
  92. S. R. Bazaz, A. Mashhadian, A. Ehsani, S. C. Saha, T. Krueger, M. E. Warkiani, “Com- putational Inertial Microfluidics: A Review”, Lab on a Chip, 20 (2020) pp. 1023–1048. [IF: 6.914] Q1.
  93. A. Ghosh, M.S. Islam, S. C. Saha, “Targeted drug delivery of magnetic nano-particle in the specific lung region”, Computation, 8 (2020) pp. 10. Q2.
  94. M.S. Islam, G. Paul, H.X. Ong, P.M. Young, Y.T. Gu, S. C. Saha, “A Review of respira- tory anatomical development, air flow characterization and particle deposition”, International Journal of Environmental Research and Public Health, 17 (2020) pp. 380. [IF: 2.468] Q2.
  95. S. M. Vanaki, D. Holmes, S. C. Saha, J. Chen, R. J. Brown, P. G. Jayathilake, “Muco- ciliary clearance: A review of modelling techniques”, Journal of Biomechanics, 99 (2020) pp. 109578 [IF: 2.576]. Q1.
  96. S. Alzahran, M.S. Islam, S. C. Saha, F. Xu, “Thermal performance investigation in a novel corrugated plate heat exchanger”, International Journal of Heat and Mass Transfer, 148 (2020) Article number 119095 [IF: 4.346] Q1.
  97. R.A. Rouf, N. Jahan, K.C. Alam, A.A. Sultan, B.B. Saha, S. C. Saha, “Improved cooling capacity of a solar heat driven adsorption chiller”, Case Studies in Thermal Engineering, (2020), Article number: 100568. Q1.
  98. M. S. Islam, S. C. Saha, E. Sauret, H. Ong, P. Young, Y. T. Gu, “Euler-Lagrange ap- proach to investigate respiratory anatomical shape effects on aerosol particle transport and deposition” Toxicology Research and Application, 3 (2019) pp. 1 – 15.
  99. Q. Gu, S. Qi, Y. Yue, J. Shen, B. Zhang, W. Sun, W. Qian, M. S. Islam, S. C. Saha, J. Wu, “Structural and functional alternations of the tracheobronchial tree after left upper pulmonary lobectomy for lung cancer”, BioMedical Engineering OnLine, 18 (2019) Article number: 108 [I.F. 1.676]. Q2.
  100. M. S. Islam, S. C. Saha, T. Gemci, E. Sauret, I. A. Yang, Z. Ristovski, Y. T. Gu, “Euler-Lagrange prediction of diesel-exhaust polydisperse particle transport and deposition: Anatomy and turbulence effects” Nature Scientific Reports, 9 (2019) Article number: 12423 (16 pages). [IF: 4.525]. Q1.
  101. A. Robone, S. Kuruneru, M. S. Islam, S. C. Saha, “A macroscopic particle modelling approach for non-isothermal solid-gas and solid-liquid flows through porous media”, Applied Thermal Engineering, 162 (2019) pp. 114232- 1 – 15. [IF: 4.026]. Q1
  102. S. I. Hossain, N. S. Gandhi, Z. E. Hughes, Y. T. Gu, S. C. Saha, “Molecular insights on the interference of simplified lung surfactant models by gold nanoparticle pollutants”, BBA Biomembranes, 1861 (2019) pp. 1458 – 1467. [IF: 3.790]. Q1
  103. C. Kumar, M. Hejazian, C. From, S. C. Saha, E. Sauret, Y. T. Gu, N-T Nguyen,“Modelling of mass transfer enhancement in a magnetofluidic micromixer”, Physics of Fluids, 31 (2019) pp. 063603-1 – 9 [IF: 2.627]. Q1
  104. N. M. Geekiyanage, M. A. Balanant, E. Sauret, S. C. Saha, R. Flower, C. T. Lim, Y. T. Gu, “A coarse-grained red blood cell membrane model to study stomatocyte-discocyte-echinocyte morphologies”, PLoS ONE, 14 (2019) pp. e0215447. [IF: 2.776] Q1
  105. S.I. Hossain, N.S. Gandhi, Z.E. Hughes, S. C. Saha, “Computational modelling of the interaction of gold nanoparticle with lung surfactant monolayer”, MRS Advances, 4 (2019) pp. 1177 – 1185.
  106. S. Alzahran, M.S. Islam, S. C. Saha, “A thermo-hydraulic characteristics investigation in corrugated plate heat exchanger”, Energy Procedia, 160 (2019) pp. 597 – 605.
  107. H. Cui, F. Xu, S. C. Saha, Q. Liu, “Transient free convection heat transfer in a section- triangular prismatic enclosure with different aspect ratios”, International Journal of Thermal Sciences, 139 (2019) pp. 282 – 291. [IF: 3.488] Q1
  108. S.T.W. Kuruneru, S. C. Saha, E. Sauret, Y.T. Gu, “Transient heat transfer and non- isothermal particle-laden gas flows through porous metal foams of differing structure”. Applied Thermal Engineering, 150 (2019) pp. 888 – 903. [IF: 4.026]. Q1.
  109. M. Babayan, A. E. Mazraeh, M. Yari, N. A. Niazi, S. C. Saha, “Hydrogen production with a photovoltaic thermal system enhanced by phase change materials, Shiraz, Iran case study” Journal of Cleaner Production, 215 (2019) pp. 1262 – 1278. [IF: 6.395]. Q1.
  110. S. T. W. Kuruneru, E. Marechal, M. Deligant, S. Khelladi, F. Ravelet, S. C. Saha, E. Sauret, Y.T. Gu, “A comparative study of mixed resolved-unresolved CFD-DEM and unresolved CFD-DEM methods for the solution of particle-laden liquid flows”, Archives of Computational Methods in Engineering, Online (2018) [IF: 7.242] Q1
  111. S. Bhowmick, S. C. Saha, M. Qiao, F. Xu, “Transition to a chaotic flow in a V-shaped triangular cavity heated from below”, International Journal of Heat and Mass Transfer, 128 (2019) pp. 76 – 86. [IF: 4.346] Q1
  112. M. S. Islam, S. C. Saha, E. Sauret, T. Gemci, I. A. Yang, Y. T. Gu, “Polydisperse micropar- ticle transport and deposition to the terminal bronchioles in a heterogeneous vasculature tree” Nature Scientific Reports, 8 (2018) Article number: 16387 (9 pages). [IF: 4.525. Q1.
  113. M. M. Molla, M. J. Haque, M. A. I. Khan, S. C. Saha, “GPU accelerated multiple- relaxation-time Lattice Boltzmann simulation of convective flows in a porous media”, Frontiers in Mechanical Engineering, Online (2018) Q2
  114. A. E. Mazraeh, M. Babayan, M. Yari, A. M. Sefidan, S. C. Saha, “Theoretical study on the performance of a solar still system integrated with PCMPV module for sustainable water and power generation”, Desalination, 443 (2018) pp. 184 – 197. [IF: 6.035] Q1
  115. M. Qiao, F. Xu, S. C. Saha, “Numerical study of the transition to chaos of a buoyant plume from a two-dimensional open cavity heated from below”, Applied Mathematical Modelling, 61 (2018) pp. 577 – 592. [IF: 2.841] Q1
  116. S. Bhowmick, F. Xu, X. Zhang, S. C. Saha, “Natural convection and heat transfer in a valley shaped cavity filled with initially stratified water”, International Journal of Thermal Sciences, 128 (2018) pp. 59 – 69. [IF: 3.488] Q1
  117. H. Zhai, F. Xu, Y. Hou, S. C. Saha, “Natural convection and heat transfer on a section- triangular roof”. International Communications in Heat and Mass Transfer, 92 (2018) pp. 23 – 30. [IF: 4.127] Q1
  118. H–N. Polwaththe–Gallage, E. Sauret, N–T. Nguyen, S. C. Saha, Y. T. Gu, “A novel numer- ical model to predict the morphological behaviour of magnetic liquid marbles using Coarse Grained Molecular Dynamics concepts”. Physics of Fluids, 30 (2018) pp. 017105-1-13. [IF: 2.627] Q1.
  119. S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “Coupled CFD-DEM simulation of oscillatory particle-laden fluid flow through a porous metal foam heat exchanger: mitigation of particulate fouling”. Chemical Engineering Science, 179 (2018) pp. 32 – 52. [IF: 3.372] Q1.
  120. M. Taghilou, A. M. Sefidan, A. Sojoudi, S. C. Saha, “Solid-liquid phase change investigation through a double pipe heat exchanger dealing with time dependent boundary conditions” Applied Thermal Engineering, 128 (2018) pp. 725 – 736. [IF: 4.026]. Q1.
  121. S. Barns, M–A Balanant, E. Sauret, R. Flower, S.C. Saha, Y.T. Gu,“Investigation of red blood cell mechanical properties using AFM indentation and coarse-grained particle method”, BioMedical Engineering OnLine, 16 (2017) Article number 140 (21 pages), [IF: 2.013] Q2
  122. S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “Two- and Four-way coupling of cohesive poly-disperse particulate foulants in porous media immersed in quiescent fluid”, International Communications in Heat and Mass Transfer, 89 (2017) pp. 176 – 184. [IF: 4.127] Q1
  123. M. S. Islam, S. C. Saha, E. Sauret, T. Gemci, I. A. Yang, Y. T. Gu, “Ultrafine particle transport and deposition in a large scale 17-generation lung model” Journal of Biomechanics, 64 (2017) pp. 9 – 18, [IF: 2.576]. Q1.
  124. J. Ma, F. Xu, S. C. Saha, “Flows and heat transfer of transition to unsteady state in a finned cavity for different Prandtl numbers”, International Communications in Heat and Mass Transfer, 88 (2017) pp. 220 – 227, [IF: 4.127]. Q1.
  125. Y. Ma, S. C. Saha, W. Miller, L. Guan,“Comparison of different solar-assisted air condi- tioning systems for Australian office buildings”. Energies, 10 (2017), article number 1463 [IF: 2.707], Nominated for the cover page of this issue, Q1.
  126. M. Qiao, F. Xu, S. C. Saha, “Scaling analysis and numerical simulation of natural convection from a duct”, Numerical Heat Transfer, Part A: Applications, 72 (2017) pp. 355 – 371, [IF: 1.953]. Q1.
  127. S.T.W. Kuruneru, E. Sauret, K. Vafai, S. C. Saha, Y.T. Gu, “Analysis of particle-laden fluid flows, tortuosity and streamline patterns in porous metal foam heat exchangers”. Chemical Engineering Science, 172 (2017) pp. 677 – 687, [IF: 3.372] Q1.
  128. S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “A coupled finite volume & discrete element method to examine particulate foulant transport in metal foam heat exchangers”. International Journal of Heat and Mass Transfer , 15 (2017) pp. 43 – 61, [IF: 4.346] Q1.
  129. Y. Ma, S. C. Saha, W. Miller, L. Guan,“Parametric analysis of design parameters on the performance of a solar desiccant evaporative cooling system in Brisbane, Australia”. Energies, 10 (2017) pp. 849 – 1 – 21. [IF: 2.707] Q1.
  130. A. M. Sefidan, A. Sojoudi, S. C. Saha, M. Cholette, “Multi-layer PCM solidification in a finned triplex tube considering natural convection”. Applied Thermal Engineering, 123 (2017) pp. 901 – 916. [IF: 4.026] Q1.
  131. A.M. Sefidan, A. Ali, S.C. Saha, “Nanofluid-based cooling of cylindrical lithium-ion battery packs employing forced air flow”. International Journal of Thermal Sciences, 117 (2017) pp. 44 – 58. [IF: 3.488] Q1.
  132. C.S. From, E. Sauret, S.W. Armfield, S.C. Saha, Y.T. Gu, “Turbulent dense gas flow characteristics in swirling conical diffuser”. Computers & Fluids, 149, (2017), pp. 100 – 118. [IF: 2.223] Q1.
  133. M. S. Islam, S.C. Saha, E. Sauret, I. Yang, Y. Gu, “Pulmonary aerosol transport and deposition analysis in upper 17 generations of the human respiratory tract.” Journal of Aerosol Science, 108, (2017), pp. 29 – 43 [IF: 2.240] Q2.
  134. S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “A novel experimental method to assess particle deposition in idealized porous channels”. Heat Transfer Engineering. 38, (2017), pp. 1008 – 1017. [IF: 1.703] Q1.
  135. H. Cui, F. Xu, S. C. Saha, “Transition to unsteady natural convection flow in a prismatic enclosure of triangular section”, International Journal of Thermal Sciences, 111, (2017), pp. 330 – 339. [IF: 3.488]. Q1.
  136. P. G. H. Nayanajith, S. C. Saha, E. Sauret, R. Flower, Y. T. Gu, “A coupled SPH-DEM approach to model the interactions between multiple red blood cells on motion and deforma- tion in capillary”, International Journal of Mechanics & Materials in Design, 12, (2016), pp. 477 – 494. [IF: 3.143] Q1.
  137. P.G.H. Nayanajith, S. C. Saha, E. Sauret, R. Flower, W. Senadeera, Y.T. Gu, “SPH DEM approach to numerically simulate the deformation of three dimensional RBCs in non uniform capillaries”, BioMedical Engineering OnLine, 15, (2016), pp. 349 – 370. [IF: 2.013] Q2.
  138. S. Barns, E. Sauret, S. C. Saha, R. Flower, Y. T. Gu, “Two-layer Red Blood Cell membrane model using the discrete element method”, Applied Mechanics and Materials, 846, (2016), pp. 270 – 275, Q4.
  139. S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu,“Numerical investigation of temporal evolution of particulate fouling in metal foams for air-cooled heat exchangers”, Applied Energy, 184 (2016), pp. 531 – 547. [IF: 8.426] Q1.
  140. S. -Ul-Islam, H. Rahman, W. S. Abbasi, S. C. Saha, T. Shahina, “Numerical investigation of flow past row of rectangular rods”, Alexandria Engineering Journal, 55 (2016), pp. 2351 – 2365, [IF: 3.696] Q1.
  141. A. Sojoudi, S. C. Saha, A. M. Sefidan, Y.T. Gu, “Natural convection subject to sinusoidal thermal forcing on inclined walls and heat source located on bottom wall of an attic-shaped space”, Energy and Buildings, 128, (2016), pp. 845 – 866. [IF: 4.495] Q1.
  142. A. Sojoudi, M. Khezerloo, S. C. Saha, Y. T. Gu, “Effect of rotating cylinder on heat transfer in a differentially heated rectangular enclosure filled with Power Law non-Newtonian fluid”, International Journal of Numerical Methods for Heat and Fluid Flow, 26 (2016), pp.1910 – 1931. [IF: 1.958] Q2.
  143. S. Mojumder, K. M. Rabbi, S. Saha, M. N. Hasan, S. C. Saha, “Magnetic field effect on natural convection and entropy generation in a half-moon shaped cavity with semi-circular bottom heater having different ferrofluid inside”, Journal of Magnetism and Magnetic Mate- rials, 407, (2016), pp.412 – 424 [IF: 2.683] Q2
  144. A. Sojoudi, S. C. Saha, F. Xu, Y. T. Gu, “Transient air flow and heat transfer due to differential heating on inclined walls and heat source placed on the bottom wall in a partitioned attic shaped space”, Energy and Buildings, 113, (2016), pp. 39 – 50. [IF: 4.495] Q1.
  145. S.-Ul Islam, S. Islam, H. Rahman, Z. C. Ying, S. C. Saha, “Comparison of wake structures and force measurements behind three side-by-side cylinders”, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 38, (2016), pp. 843 – 858. [IF: 1.743] Q2.
  146. M. Bovand, S. Rashidi, J. A. Esfahani, S. C. Saha, Y. T. Gu, M. Dehesht, “Control of flow around a circular cylinder wrapped with a porous layer by Magnetohydrodynamic”, Journal of Magnetism and Magnetic Materials, 401, (2016), pp. 1078 – 1087. [IF: 2.683] Q2.
  147. S. Hussain, N. C. Roy, M. A. Hossain, S. C. Saha, “Effect of fluctuating surface heat and mass flux on natural convection flow along a vertical flat plate”, Mathematical Problems in Engineering, 2015, (2015), pp. 258016, 15 pages [IF: 1.179] Q2.
  148. H. Rahman, S-Ul Islam, Z. C. Ying, T. Kiyani, S. C. Saha,“On the effect of Reynolds number for flow past three side-by-side square cylinders for unequal gap spacings” KSCE Journal of Civil Engineering, 19 (2015) pp. 233 – 247, [IF: 1.428] Q2.
  149. S. Siddiqa, M. A. Hossain, S. C. Saha, “Two-phase natural convection flow of a dusty fluid”, International Journal of Numerical Methods for Heat and Fluid Flow, 25 (2015) pp. 1542 – 1556. [IF: 1.958] Q2.
  150. H. Cui, F. Xu, S. C. Saha, “A three-dimensional simulation of transient natural convection in a triangular cavity” International Journal of Heat and Mass Transfer, 85 (2015) pp. 1012 – 1022, [IF: 4.346] Q1.
  151. P. G. H. Nayanajith, S. C. Saha, E. Sauret, R. Flower, Y. T. Gu, “Numerical investigation of motion and deformation of a single red blood cell in a stenosed capillary”, International Journal of Computational Methods, 12, (2015), pp. 1540003, [IF: 1.221] Q1.
  152. A. Sojoudi, S. C. Saha, Y. T. Gu, “Natural convection due to differential heating of inclined walls and heat source placed on bottom wall of an attic shaped space”, Energy and Buildings, 89 (2015) pp. 153 – 162. [IF: 4.495] Q1.
  153. S. C. Saha, Y. T. Gu, “Natural convection in a triangular enclosure heated from below and non-uniformly cooled from top”, International Journal of Heat and Mass Transfer, 80 (2015) pp. 529 – 538. [IF: 4.346] Q1.
  154. S. Bhowmick, M. M. Molla, M. Mia, S. C. Saha, “Non-Newtonian mixed convection flow from a horizontal circular cylinder with uniform surface heat flux”, Procedia Engineering, 90 (2014) pp. 516 – 522.
  155. A. Sojoudi, S. C. Saha, M. Khezerloo, Y. T. Gu, “Unsteady natural convection within a porous enclosure of sinusoidal corrugated side walls”, Transport in Porous Media, 104 (2014) pp. 537 – 552. [IF: 1.997] Q1.
  156. S. C. Saha, E. Sauret, Y. T. Gu, “Magnetic convection heat transfer in an open ended enclosure filled with paramagnetic fluids”, Applied Mechanics and Materials, 553 (2014) pp. 109 – 114, Q4.
  157. S. Siddiqa, M. A. Hossain, S. C. Saha, “The effect of thermal radiation on the natural convection boundary layer flow over a wavy horizontal surface”, International Journal of Thermal Sciences, 84 (2014) pp. 143 – 150. [IF: 3.488] Q1.
  158. M. Saleem, M. A. Hossain, S. C. Saha, Y. T. Gu, “Heat transfer analysis of viscous incom- pressible fluid by combined natural convection and radiation in an open cavity”, Mathematical Problems in Engineering, 2014 (2014), Article ID 412480, 14 pages [IF: 1.179] Q2.
  159. A. Sojoudi, A. Mazloomi, S. C. Saha, Y. T. Gu, “Similarity solutions for flow and heat transfer of non-Newtonian fluid over a stretching surface”, Journal of Applied Mathematics, 2014 (2014), Article ID 718319, 8 pages [IF: 0.720] Q4.
  160. P. G. H. Nayanajith, S. C. Saha, Y. T. Gu, “Formation of the three-dimensional geometry of the red blood cell’s membrane”, ANZIAM Journal, 55 (2014) pp. C80 – C95, [IF: 0.333] Q4.
  161. P. G. H. Nayanajith, S. C. Saha, Y. T. Gu, “Deformation of a single red blood cell in a microvessel”, ANZIAM Journal, 55 (2014) pp. C64 – C79, [IF: 0.333] Q4.
  162. F. Xu, S. C. Saha, “Transition to an unsteady flow induced by a fin on the sidewall of a differentially heated air-filled cavity and heat transfer”, International Journal of Heat and Mass Transfer, 71 (2014) pp. 236 – 244. [IF: 4.346] Q1.
  163. M. F. Ismail, M. N. Hasan, S. C. Saha, “Numerical study of turbulent fluid flow and heat transfer in lateral perforated extended surfaces”, Energy, 64 (2014) pp. 632 – 639. [IF: 5.537] Q1.
  164. M. Islam, M. A. Karim, S. C. Saha, S. Miller, and P. K. D. V. Yarlagadda, “Development of empirical equations for irradiance profile of a standard parabolic trough collector using Monte Carlo ray tracing technique”, Advanced Materials Research, 860-863 (2014) pp. 180 – 190, Q4.
  165. S. C. Saha, M. M. K. Khan, Y. T. Gu, “Unsteady buoyancy driven flows and heat transfer through coupled thermal boundary layers in a triangular enclosure”, International Journal of Heat and Mass Transfer, 68 (2014) pp. 375 – 382., [IF: 4.346] Q1.
  166. M. Saleem, M. A. Hossain, S. C. Saha, “Double diffusive Marangoni convection flow of electrically conducting fluid in a square cavity with chemical reaction and heat generation”, Journal of Heat Transfer – Transactions of the ASME, 136 (2014) pp. 062001, [IF: 1.479] Q2.
  167. S. C. Saha, Y. T. Gu, “Transient air flow and heat transfer in a triangular enclosure with a conducting partition”, Applied Mathematical Modelling, 38 (2014) pp. 3879 – 3887 [IF: 2.841] Q1.
  168. W. S. Abbasi, S.-Ul-Islam, S. C. Saha, Y. T. Gu, Z. C. Ying, “Effect of Reynolds numbers on flow past four square cylinders in an in-line square configuration for different gap spacings”, Journal of Mechanical Science and Technology, 28 (2014) pp. 539 – 552. [IF: 1.221] Q2.
  169. A. Sojoudi, S. C. Saha, Y. T. Gu, M. A. Hossain, “Steady natural convection of non- Newtonian Power-law fluid in a trapezoidal enclosure”, Advances in Mechanical Engineering, 2013 (2013) Article ID: 653108, [IF: 1.024] Q3.
  170. E. Sauret, S. C. Saha, Y. T. Gu, “Numerical simulations of particle deposition in metal foam heat exchangers”, International Journal of Computational Materials Science and Engineering, 02 (3 & 4) (2014) pp.1350016 [9 pages]. Q3.
  171. S. C. Saha, “Effect of MHD and heat generation on natural convection flow in an open square cavity under microgravity condition” Engineering Computations, 30 (2013). pp. 5 – 20. [IF: 1.246] Q1.
  172. S. Siddiqa, M. A. Hossain, S. C. Saha, “Natural convection flow with surface radiation along a vertical wavy surface” Numerical Heat Transfer, Part A: Applications, 64 (2013) pp. 400 – 415. [IF: 1.953] Q1.
  173. M. N. Hasan, S. C. Saha, Y. T. Gu, “Mixed convection over a horizontal plate with stream- wise non-uniform surface temperature”, Journal of Heat Transfer – Transactions of the ASME, 135, (2013) pp. 072501 (9 pages) [IF: 1.479] Q2.
  174. S. Siddiqa, M. A. Hossain, S. C. Saha, “Natural convection flow in a strong cross magnetic field with radiation”, Journal of Fluids Engineering – Transactions of the ASME, 135, (2013) pp. 051202 (9 pages) [IF: 1.720] Q1.
  175. M. A. Hossain, M. Saleem, S. C. Saha, A. Nakayama, “Conduction-radiation effect on natu- ral convection flow in a fluid-saturated non-Darcy porous medium enclosed by non-isothermal walls”. Applied Mathematics and Mechanics (English edition), 34(6), (2013) pp. 687 – 702. [IF: 1.699] Q2.
  176. M. Saleem, M. A. Hossain, S. C. Saha, “Mixed convection flow of micropolar fluid in an open ended arc-shape cavity” Journal of Fluids Engineering – Transactions of the ASME, 134 (2012) pp. 091101 (9 pages) [IF: 1.720] Q1.
  177. S. Siddiqa, M. A. Hossain, S. C. Saha, “Double diffusive magneto-convection fluid flow in a strong cross magnetic field with uniform surface heat and mass flux”, Journal of Heat Transfer – Transactions of the ASME, 134 (2012) pp. 114506 (9 pages) [IF: 1.479] Q2.
  178. S. C. Saha, R. J. Brown, Y. T. Gu, “Prandtl number scaling of the unsteady natural con- vection boundary layer adjacent to a vertical flat plate for Pr > 1 subject to ramp surface heat flux”. International Journal of Heat and Mass Transfer, 55 (2012) pp. 7046 – 7055. [IF: 4.346] Q1.
  179. S. C. Saha, Y. T. Gu, “Prandtl number scaling of natural convection of an inclined flat plate due to uniform surface heat flux”. ANZIAM J, 53 (2012) pp. C387 – C403. [IF: 0.333] Q4.
  180. M. N. Hasan, S. C. Saha, Y. T. Gu, “Unsteady natural convection within an differentially heated enclosure of sinusoidal corrugated side walls”. International Journal of Heat and Mass Transfer, 55 (2012) pp. 5696 – 5708. [IF: 4.346] Q1.
  181. S. C. Saha, Y. T. Gu, “Free convection in a triangular enclosure with fluid-saturated porous medium and internal heat generation”, ANZIAM J. 53 (2012) C127 – C141. [IF: 0.333]. Q4.
  182. S. C. Saha, Y. T. Gu, “Natural convection in a triangular enclosure due to non-uniform cooling on top”, ANZIAM J. 53 (2012) pp. C53 – C68. [IF: 0.333] Q4.
  183. M. M. Molla, S. C. Saha, M. A. I. Khan, “MHD natural convection flow from an isothermal horizontal circular cylinder under consideration of temperature dependent viscosity”, Engi- neering Computations, 29(8) (2012) pp. 875 – 887 [IF: 1.246] Q1.
  184. S. C. Saha, R. J. Brown, Y. T. Gu, “Scaling for the Prandtl number of the natural convection boundary layer of an inclined flat plate under uniform surface heat flux”. International Journal of Heat and Mass Transfer, 55 (2012) pp. 2394 – 2401. [IF: 4.346] Q1.
  185. S. C. Saha, M. M. K. Khan, “An improved boundary layer scaling with ramp heating on a sloping plate” International Journal of Heat and Mass Transfer, 55 (2012) pp. 2268 – 2284. [IF: 4.346] Q1.
  186. M. N. Hasan, S. Saha, S. C. Saha, “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 (2012) pp. 368 – 377. [IF: 4.127] Q1.
  187. S. C. Saha, Y. T. Gu, M. M. Molla, S. Siddiqa, M. A. Hossain, “Natural convection from a vertical plate embedded in a stratified medium with uniform heat source.” Desalination and Water Treatment, 44 (2012) pp. 7 – 14. [IF: 1.234] Q2.
  188. M. M. Molla, S. C. Saha, M. A. I. Khan, “Natural convection flow in a porous enclosure with localized heating from below”, JP Journal of Heat and Mass Transfer, 6 (2012) pp. 1 – 16. Q4.
  189. M. M. Molla, S. C. Saha, M. A. Hossain, “The effect of temperature dependent viscosity on MHD natural convection flow from an isothermal sphere”, Journal of Applied Fluid Mechanics, 5 (2012) pp. 25 – 31. [IF: 0.914] Q2.
  190. S. C. Saha, “Scaling of free convection heat transfer in a triangular cavity for Pr > 1” Energy and Buildings, 43 (2011) pp. 2908 – 2917. [IF: 4.495] Q1.
  191. S. C. Saha, M. M. K. Khan, “A review of natural convection and heat transfer in attic-shaped space” Energy and Buildings, 43 (2011) pp. 2564 – 2571. [IF: 4.495] Q1.
  192. S. C. Saha, F. Xu, M. M. Molla, “Scaling analysis of the unsteady natural convection boundary layer adjacent to an inclined plate for Pr > 1 following instantaneous heating”, Journal of Heat Transfer – Transactions of the ASME, 133, (2011) pp. 112501. [IF: 1.479] Q2.
  193. S. C. Saha, “Unsteady natural convection in a triangular enclosure under isothermal heating” Energy and Buildings, 43 (2011) pp. 695 – 703. [IF: 4.495] Q1.
  194. M. M. Molla, S. C. Saha, M.A.I. Khan, M.A. Hossain, “Radiation effects on natural con- vection laminar flow from a horizontal circular cylinder”, Desalination and Water Treatment, 30 (2011) pp. 89 – 97. [IF: 1.234] Q2.
  195. M. M. Molla, S. C. Saha, M. A. Hossain, “Radiation effect on free convection laminar flow along a vertical flat plate with streamwise sinusoidal surface temperature” Mathematical and Computer Modelling, 53 (2011) pp. 1310 – 1319. [IF: 1.366] Q2.
  196. S. C. Saha, J. C. Patterson, C. Lei, “Scaling of natural convection of an inclined flat plate: Sudden cooling condition”, Journal of Heat Transfer – Transactions of the ASME, 133 (4) (2011) pp. 041503. [IF: 1.479] Q2.
  197. S. C. Saha, J. C. Patterson, C. Lei, “Scaling of natural convection of an inclined flat plate: Ramp cooling condition”, International Journal of Heat and Mass Transfer, 53 (2010) pp. 5156 – 5166. [IF: 4.346] Q1.
  198. S. C. Saha, J. C. Patterson, C. Lei, “Natural convection boundary-layer adjacent to an inclined flat plate subject to sudden and ramp heating” International Journal of Thermal Sciences, 49 (2010) pp. 1600 – 1612. [IF: 3.488] Q1.
  199. S. C. Saha, J. C. Patterson, C. Lei, “Natural convection in attic-shaped spaces subject to sudden and ramp heating boundary conditions”, Heat and Mass Transfer, 46 (2010) pp. 621 – 638. [IF: 1.551] Q1.
  200. S. C. Saha, J. C. Patterson, C. Lei, “Natural convection and heat transfer in attics subject to periodic thermal forcing”, International Journal of Thermal Sciences, 49 (2010) pp. 1899 – 1910. [IF: 3.488] Q1.
  201. S. C. Saha, J. C. Patterson, C. Lei, “Natural convection in attics subject to instantaneous and ramp cooling boundary conditions”, Energy and Buildings, 42 (2010) pp. 1192 – 1204. [IF: 4.495] Q1.
  202. S. C. Saha, C. Lei, J. C. Patterson, “Effect of aspect ratio on natural convection in attics subject to periodic thermal forcing”, ANZIAM J., 48 (2007) pp C677 – C691, [IF: 0.333] Q4.
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