**Monograph**

**S. C. Saha**, “*Scaling analysis of natural convection boundary layers: Application to attic space*” Lambert Academic Publishing, Germany, ISBN: 978-3-8465-8649-5. pages: 208.

**Book Chapters**

**S. C. Saha**and M. A. Karim, Y.T. Gu, “Mathematical modelling of intermittent drying ”, In Intermittent and Nonstationary Drying Technologies: Principles and Applications, (Eds, A. Karim), ISBN 97814987840925, (1st ed.) CRC Press, 2017, accepted

**S. C. Saha**, Y.T. Gu, M.M.K. Khan, “Heat transfer enhancement in a baffled attic shaped space”, In Application of Thermo-fluid Processes in Energy Systems: Key Issues and Recent Developments for a Sustainable Future, (Eds, M. M. K. Khan, A. Chowdhury, N.M.S. Hassan), ISBN 978-981-10-0697-5, (1st ed.) Springer, 2017, accepted.

M. F. Ismail,

**S. C. Saha**, “Enhancement of confined air jet impingement heat transfer using perforated pin fin heat sinks”, In Application of Thermo-fluid Processes in Energy Systems: Key Issues and Recent Developments for a Sustainable Future, (Eds, M. M. K. Khan, A. Chowdhury, N.M.S. Hassan), ISBN 978-981-10-0697-5, (1st ed.) Springer, 2017, accepted.

**S. C. Saha**, Y. T. Gu, M. M. Khan, “Natural Convection Heat Transfer in the Partitioned Attic Space”, In Thermofluids modeling for energy efficiency applications, (Eds, M. M. K. Khan, N.M.S. Hassan), ISBN-13: 978-0128023976, ISBN-10: 012802397X, (1st ed.) Elsevier, 2015, (Chapter 3) pp. 59 – 72.

M. F. Ismail,

**S. C. Saha**, M. A. R. Sarkar,“Effects of lateral perforation geometry on heat transfer characteristics on extended surfaces”, In Thermofluids modeling for energy efficiency applications, (Eds, M. M. K. Khan, N.M.S. Hassan), ISBN-13: 978-0128023976, ISBN-10: 012802397X, (1st ed.) Elsevier, 2015, (Chapter 5) pp. 103 – 117.

P. Das, M. M. Khan,

**S. C. Saha**, “Numerical study of flow through a reducer for scale growth suppression”, In Thermofluids modeling for energy efficiency applications, (Eds, M. M. K. Khan, N.M.S. Hassan), ISBN-13: 978-0128023976, ISBN-10: 012802397X, (1st ed.) Elsevier, 2015, (Chapter 6) pp. 119 – 148.

U. S. Mahabaleswar,

**S. C. Saha**, “Analytical solution of a Walters’ liquid B flow over a stretching sheet in a porous medium”, In Focus on Porous Media Research, (Eds, Changying Zhao). ISBN: 978-1-62618-668-2. Nova Science Publishers Inc., NY, 2013 (Chapter 3), pp. 121 – 130.

**S. C. Saha**, “Natural convection in the attic-shaped spaces” In Advances in Energy Research. Volume 9, (Eds, Morena J. Acosta), ISBN 978-1-61470-485-0. Nova Science Publishers Inc., NY, 2012 (Chapter 14), pp. 289 – 309.

**S. C. Saha**, “Periodically forced natural convection through the roof of an attic-shaped building” In Convection and Conduction Heat Transfer, (Eds, Dr. Amimul Ahsan) ISBN 978-953-307-582-2 InTech Publishers, 2011 (Chapter 2), pp. 33 – 54.

**Journal Articles:**

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, Accepted on 06.06.2019 [IF: 3.438].

C. Kumar, M. Hejazian, C. From, S. C. Saha, E. Sauret, Y. T. Gu, N-T Nguyen, “Modelling of mass transfer enhancement in a magneto-fluidic micromixer”, Physics of Fluids, 31 (2019) pp. …. [IF: 2.279]. Q1

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: 2.766] Q1

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, Online.

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.

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: 3.361] Q1

S.T.W. Kuruneru, S. C. Saha, E. Sauret, Y.T. Gu, “Transient heat transfer and nonisothermal particle-laden gas flows through porous metal foams of differing structure”. Applied Thermal Engineering, 150 (2019) pp. 888 { 903. [IF: 3.771]. Q1.

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: 5.651]. Q1.

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, available online (2018) [IF: 6.605] Q1

S. Bhowmick, S. C. Saha, M. Qiao, F. Xu, “Transition to a chaotic ow in a V-shaped triangular cavity heated from below”, International Journal of Heat and Mass Transfer, 128 (2018) pp. 76 – 86. [IF: 3.891] Q1

A. E. Mazraeh, M. Babayan, M. Yari, A. M. Sedan, 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: 6.603] Q1

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: 2.617] Q1

S. Bhowmick, F. Xu, X. Zhang, S. C. Saha, \Natural convection and heat transfer in a valley shaped cavity lled with initially stratied water”, International Journal of Thermal Sciences, 128 (2018) pp. 59 – 69. [IF: 3.361] Q1

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: 4.463] Q1

H-N. Polwaththe-Gallage, E. Sauret, N-T. Nguyen, S. C. Saha, Y. T. Gu, “A novel numerical 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:2.279] Q1.

S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “Coupled CFD-DEM simulation of oscillatory particle-laden uid ow through a porous metal foam heat exchanger: mitigation of particulate fouling”. Chemical Engineering Science, 179 (2018) pp. 32 – 52. [IF: 3.306] Q1.

M. Taghilou, A. M. Sedan, 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: 3.771]. Q1.

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: 1.676] Q2

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: 4.463] Q1

M. S. Islam, S. C. Saha, E. Sauret, T. Gemci, I. A. Yang, Y. T. Gu, “Ultrane Particle Transport and Deposition in a Large Scale 17-Generation Lung Model” Journal of Biomechanics, 64 (2017) pp. 9 { 18, [IF: 2.431]. Q1.

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: 4.463]. Q1.

Y. Ma, S. C. Saha, W. Miller, L. Guan, “Comparison of Dierent Solar-assisted Air Conditioning Systems for Australian Office Buildings”. Energies, 10 (2017), article number 1463 [IF: 2.676], Nominated for the cover page of this issue, Q1.

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: 2.409]. Q1.

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: 3.306] Q1.

S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “A coupled nite 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: 3.891] Q1.

A. M. Sedan, A. Sojoudi, S. C. Saha, M. Cholette, “Multi-layer PCM solidication in a finned triplex tube considering natural convection”. Applied Thermal Engineering, 123 (2017) pp. 901 – 916. [IF: 3.771] Q1.

C.S. From, E. Sauret, S.W. Armeld, S.C. Saha, Y.T. Gu, “Turbulent dense gas flow characteristics in swirling conical diuser computers and fluids”. Computers & Fluids, 149, (2017), pp. 100 – 118. [IF: 2.313] Q1.

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: 2.042] Q1.

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: 1.235] Q1.

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: 2.750] Q1.

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: 3.458] Q1.

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: 2.262] Q1.

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: 3.615] Q1.

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: 2.278]

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: 2.769].

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 deformation in capillary”, International Journal of Mechanics & Materials in Design, 12, (2016), pp. 477 – 494. [IF: 1.926].

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: 1.38]

**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. [IF: 1.38]

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: 5.746]

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.

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: 2.973].

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: 1.475].

S. Mojumder, K. M. Rabbi, S. Saha, M. N. Hasan, **S. C. Saha**, “Magnetic field effect on natu- ral convection and entropy generation in a half-moon shaped cavity with semi-circular bottom heater having different ferrofluid inside”, Journal of Magnetism and Magnetic Materials, 407, (2016), pp. 412 – 424. [IF: 2.357].

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: 2.973].

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: 0.963].

**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. [I.F. 2.357].

**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: 0.762].

**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: 0.484].

**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: 1.399].

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: 2.857].

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: 0.750].

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: 2.884].

**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: 2.857].

**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.

**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: 1.431].

**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.

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: 2.769].

**S. C. Saha**, Y. T. Gu, “Heat transfer analysis of viscous incompressible fluid by combined natural convection and radiation in an open cavity”, Mathematical Problems in Engineering, 2014 (2014), Article ID 412480, 14 pages [IF: 0.762].

**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 [I.F. 0.720].

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, [I.F. 1.025].

**S. C. Saha**, Y. T. Gu, “Deformation of a single red blood cell in a microvessel”, ANZIAM Journal, 55 (2014) pp. C64 – C79, [I.F. 1.025].

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: 2.857].

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: 4.292].

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.

**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: 2.857].

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: 1.450].

**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: 2.251].

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: 0.838].

**S. C. Saha**, Y. T. Gu, “Effect of an adiabatic fin on natural convection heat transfer in a triangular enclosure”, American Journal of Applied Mathematics, 1(4), (2013) pp. 78 – 83.

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: 0.640].

**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].

**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: 1.214].

**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: 1.975].

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: 1.450].

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: 0.932].

M. A. Hossain, M. Saleem, **S. C. Saha**, A. Nakayama, “Conduction-radiation effect on natural 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: 1.128].

M.A. Taher, **S. C. Saha**, Y.W. Lee, H.D. Kim, “Lattice-Boltzmann simulation of fluid flow and heat transfer in a lid-driven square cavity”. American Journal of Fluid Dynamics, 3(3) (2013) pp. 40 – 47.

S. Bhowmick, M. M. Molla, **S. C. Saha**, “Non-Newtonian natural convection flow along an isothermal horizontal circular cylinder”, American Journal of Fluid Dynamics. Vol. 3(3) (2013) pp. 20 – 30.

**S. C. Saha**, “Shear thinning and shear thickening non- Newtonian confined fluid flow over rotating cylinder”, American Journal of Fluid Dynamics, 2(6) (2012) pp. 117 – 121.

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: 0.932].

**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: 1.450].

**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: 2.857].

**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. [I.F. 1.025].

**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. [I. F. 2.857].

**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. [I.F. 1.025].

**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. [I.F. 1.025].

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: 1.214].

**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: 2.857].

**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: 2.857].

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 sur- face” International Communications in Heat and Mass Transfer, 39 (2012) pp. 368 – 377. [IF: 2.559].

**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: 1.173].

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.

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: 0.746]

**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: 2.884].

**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: 2.884].

**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: 1.450].

**S. C. Saha**, “Unsteady natural convection in a triangular enclosure under isothermal heating” Energy and Buildings, 43 (2011) pp. 695 – 703. [IF: 2.884].

M. M. Molla, **S. C. Saha**, M.A.I. Khan, M.A. Hossain, “Radiation effects on natural convec- tion laminar flow from a horizontal circular cylinder”, Desalination and Water Treatment, 30 (2011) pp. 89 – 97. [IF: 1.173].

**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: 1.412].

**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: 1.450].

**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: 2.857].

**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: 2.769].

**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: 0.946].

**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: 2.769].

**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: 2.884].

**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, [I.F. 1.025]. 2005

**S. C. Saha**, R. S. R. Gorla, “Viscous dissipation effects on natural convection from a vertical plate with uniform surface heat flux placed in a thermally stratified media” International Journal of Fluid Mechanics Research, 32 (2005) pp. 269 – 280.

**S. C. Saha**, M. A. Hossain, “Natural convection flow with combined buoyancy effects due to thermal and mass diffusion in a thermally stratified media” Nonlinear Analysis: Modelling and Control, 9 (2004) pp. 89 – 102. [IF: 1.099].

**S. C. Saha**, C. Akhter, M. A. Hossain, “Natural convection from a plane vertical porous surface in non-isothermal surroundings” Nonlinear Analysis: Modelling and Control, 9 (2004) pp. 1 – 20. [IF: 1.099].

**Refereed Conference Papers**

**S. C. Saha**, C. Lei, J. C. Patterson, “Scaling analysis of the thermal boundary layer adjacent to an abruptly heated inclined plate” *Proceeding of the 16th Australasian Fluid Mechanics Conference*, Crowne Plaza, Gold Coast, Australia, 3-7 December 2007, 117-120. (ISBN 978-1-864998-94-8).

M. M. Molla, B-C Wang, **S. C. Saha**, “Large-Eddy Simulation of physiological pulsatile non- Newtonian flow in a channel with double constriction”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp. 1084-1088.

**S. C. Saha**, “Scaling analysis of unsteady natural convection boundary layer for ramp heat- ing”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp.767-770.

M. N. Hasan, **S. C. Saha**, “Mixed convection laminar flow along a horizontal plate subject to streamwise sinusoidal surface temperature”, *Proceedings of the 9th International Conference on Mechanical Engineering*, ICME11, 18-20 December, 2011, BUET, Dhaka, Bangladesh. Paper ID: ICME 11-TH-011.

A. Sojoudi, F. Vakilimoghaddam, R. Neishabouri, **S. C. Saha**, “On the oscillatory behavior of transient Rayleigh Benard convection of air for 2D channel flow at moderate Rayleigh numbers”, *Proceedings of the World Congress on Engineering 2012*, Vol III, WCE 2012, July 4 – 6, 2012, London, U.K. pp. 1874-1878.

M. Babaie, P. Talebizadeh, **S. C. Saha**, H. Rahimzadeh, R.J. Brown, “Residence Time Inves- tigation in a Co-axial Dielectric Barrier Discharge Reactor”, *Proceedings of the 4th Interna- tional Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

PGH. Nayanajith, Y.T. Gu, **S. C. Saha**, A. Oloyede1, W. Senadeera “Simulation of red blood cell motion using particle methods: A review”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

A. Sojoudi, H. Afshin, B. Farhanieh, **S. C. Saha **“Large eddy simulation of smoke flow in a real road tunnel fire using FDS”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

M. Saleem, M. A. Hossain**S. ****C. Saha**, “Natural convection of nanofluids in open rectangular cavity”, *Proceedings of the 5th BSME International Conference on Thermal Engineering*, 21-23 December 2012, Dhaka, Bangladesh.

**S. C. Saha**, Y. T. Gu “Thermo-magnetic convection of paramagnetic fluids with non- instantaneous heating”, *Proceedings of the *18*th **A**ustralasian Fluid Mechanics Conference (*18*AFMC)*, University of Tasmania, Launceston, 3 – 7 December 2012, Australia.

M. Islam, A. Karim, **S. C. Saha**, S. Miller, P. K. D. V. Yarlagadda, “Three dimensional sim- ulation of a parabolic trough concentrator thermal collector”,*Proceedings **of the 50th Annual Solar Conference 2012 organised by the Australian Solar Council (AuSES))*, 6-7 December 2012, Swinburne University of Technology, Hawthorn Campus, Melbourne, Australia.

M. Islam, M. A. Karim, **S. C. Saha**, Sarah Miller, P. K. D. V. Yarlagaddaa, “Development of optical ray tracing model of a standard parabolic trough collector”. *Proceedings of the World Renewable Energy Congress Australia 2013*, Western Australia, 14-18 July 2013.

M. Islam, M. A. Karim, **S. C. Saha**, S. Miller, P. K. D. V. Yarlagadda, “An optical ray tracing model of parabolic trough collector applying Monte Carlo technique”, *Proceedings of the Solar 2014 Conference and Expo*, May 8 – 9, 2014, Belbourne Convention and Exibition Centre, Melbourne, Australia.

**S. C. Saha**, Y.T. Gu, “Unsteady natural convection heat transfer in a baffled triangular en- closure”, *Proceedings **of the *19*th **A**ustralasian **Fluid Mechanics Conference (*19*AFMC)*, RMIT University, Melbourne, 8 – 11 December 2014, Australia.

PGH. Nayanajith, **S. C. Saha**, Y. T. Gu, “Deformation of a three-dimensional Red Blood Cell in a stenosed micro-capillary”, *Proceedings of the 8th Australasian Congress on Applied Mechanics (ACAM8)*, Melbourne Convention and Exhibition Centre 24 — 28 November 2014, Australia.

M. S. Islam, **S. C. Saha**, E. Sauret, Y. T. Gu, “Numerical investigation of aerosol particle transport and deposition in realistic lung airway”, *Proceedings of the 6th International Conference on Computational Methods (ICCM2015)*, 14 – 17 July, 2015, Auckland, New Zealand.

P. Das, M.M.K. Khan, M.G. Rasul, **S. C. Saha**, “Fluid flow chracterictics on scale deposition in a concentric reducer using cfd approach”, *Proceedings of the 11th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics*, 20 – 23 July 2015, Kruger National Park, South Africa.

S.T.W. Kuruneru, E. Sauret, **S. C. Saha**, Y.T. Gu, “Poly-disperse particle transport and deposition in idealized porous channels”, *Proceedings **of the 2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

M.S. Islam, **S. C. Saha**, E. Sauret, Y.T. Gu, “Effects of Velocity on Diesel Exhaust Particle Transport and Deposition in the Central Airways of the Human Lung”, *Proceedings of the **2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

S. Barns, E. Sauret, **S. C. Saha**, R. Flower, Y.T. Gu, “Two-Layer Red Blood Cell Membrane Model using the Discrete Element Method”, *Proceedings of the 2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

M. Hardwick, **S. C. Saha**, “Numerical Modelling of Optimisation of Bladeless Fan Design”, *Proceedings **of the 2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

S.T.W. Kuruneru, E. Sauret, **S. C. Saha**, K. Hooman, Y.T. Gu, “A novel experimental technique to assess poly-disperse particulate deposition and aggregation in idealized porous channels,” *Proceedings **of the 17th IAHR International Conference on Cooling Tower and Heat Exchanger*, 8 – 11 September 2015, Gold Coast, Australia.

P. G. H. Nayanajith, **S. C. Saha**, E. Sauret, R. Flower, Y. T. Gu, “Numerical investigation of the critical diameter for a stenosed capillary to prevent the motion of red blood cells”, *Proceedings of the 25th Regional Congress of the ISBT*, June 27 – July 1, 2015, London, UK.

A. Zou, E. Sauret, **S. C. Saha**, Y. T. Gu, “Stochastic analysis of a radial-inflow turbine in the presence of parametric uncertainties” *Proceedings of the 6th International Conference on Computational Methods (ICCM2015)*, 14 – 17 July, 2015, Auckland, New Zealand.

**S. C. Saha**, M. Rannie, E. Sauret, Y. T. Gu, “Numerical modelling for improved underground- mine ventilation systems”, *Proceedings **of the 8th Australasian Congress on Applied Mechanics (ACAM8)*, Melbourne Convention and Exhibition Centre 24 – 28 November 2014, Australia.

S. Bhowmick, M. M. Molla, A. Biswas, **S. C. Saha**, “Non-Newtonian Natural Convection Flow from an Isothermal Sphere with Modified Power-law Viscosity Model”, *Proceedings of the 18th International Mathematics Conference*, 20 – 22 March, 2014, Independent University (IUB), Dhaka, Bangladesh.

E. Sauret, K. Hooman, **S. C. Saha**, “CFD simulations of flow and heat transfer through the porous interface of a metal foam heat exchanger”, *Proceedings **of the ASME 2014 Power Conference, Power 2014*, July 28 – 31, 2014, Baltimore, Maryland, USA.

C. Kumar, A. Karim, **S. C. Saha**, M.U.H. Joardder, R.J. Brown, D. Biswas, “Multiphysics modelling of convective drying of food materials”. *Proceedings of the Global Engineering, Science and Technology Conference*, 28-29 December 2012, Global Institute of Science and Technology, Dhaka, Bangladesh.

M. Islam, A. Karim, **S. C. Saha**, S. Miller, P. K. D. V. Yarlagadda, “Visualization of thermal characteristics around the absorber tube of a standard parabolic trough thermal collector by 3D simulation”, *Proceedings of the 4th International Conference on Computational Methods **(ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

S. Siddiqa, M. A. Hossain, **S. C. Saha**, “Mixed convection along a vertical flat plate in a non-absorbing medium”, *Proceedings of the 5th BSME International Conference on Thermal Engineering*, 21-23 December 2012, Dhaka, Bangladesh.

S. C. Paul, **S. C. Saha**, “Analysis of heat transfer and fluid flow in a triangular enclosure in presence of adiabatic fin”, *Proceedings of the 5th BSME International Conference on Thermal Engineering*, 21-23 December 2012, Dhaka, Bangladesh.

F. V. Moghaddam, **S. C. Saha**, A. Sojoudi, F. V. Moghadam, “Finite volume approach of natural convection in triangular enclosures with localized heating below”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

PGH. Nayanajith, Y.T. Gu, **S. C. Saha**, A. Oloyede1, W. Senadeera “Numerical Simulation of Red Blood Cells’ Deformation using SPH Method”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

**S. C. Saha**, Y. T. Gu, “Transient free convection heat transfer through conducting partition placed in an isosceles triangular enclosure”, *Proceedings **of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

**S. C. Saha**, Y. T. Gu, M. A. Hossain, “Free convection heat transfer through coupled ther- mal boundary layers in a partitioned triangular enclosure”, *Proceedings **of the 9th Interna- tional Conference on Mechanical Engineering*, ICME11, 18-20 December, 2011, BUET, Dhaka, Bangladesh. Paper ID: ICME 11-TH-033.

M. N. Hasan, **S. C. Saha**, Y. T. Gu, “Effect of differentially heating and consequent transient behaviour for natural convection within an enclosure of sinusoidal corrugated side walls”, *Proceedings of the 9th International Conference on Mechanical Engineering, ICME11*, 18-20 December, 2011, BUET, Dhaka, Bangladesh. Paper ID: ICME 11-TH-018.

**S. C. Saha**, F. Xu, M. M. Molla, T. P. Bednarz, “Scaling analysis of unsteady natural convection boundary layer for instantaneous heating”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp. 771-775.

T. P. Bednarz, W. Lin, **S. C. Saha**, “Scaling of thermo-magnetic convection”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp. 798-800.

**S. C. Saha**, C. Lei, J. C. Patterson, “On the natural convection boundary layer adjacent to an inclined flat plate subject to ramp heating” *Proceeding of the 16th Australasian Fluid Mechanics Conference*, Crowne Plaza, Gold Coast, Australia, 3-7 December 2007, 121-124. (ISBN 978-1-864998-94-8).

**S. C. Saha**, C. Lei, J. C. Patterson, “Natural convection in a triangular enclosure subject to periodic thermal forcing”, *Proceedings of the 13th International Heat Transfer Conference*, edited by Graham de Vahl Davis and Eddie Leonardi, Sydney, Australia, 13-18 August 2006. Paper No. NCV-43. (ISBN 1-56700-226-9).

### Theses and Reports

**S. C. Saha** (2008), “Natural convection adjacent to an inclined flat plate and in an attic space under various thermal forcing conditions” PhD thesis, James Cook University.

**S. C. Saha**, Y.T. Gu (2012), “CDF modelling of new inertial separator design” Peak3 Australia.

**S. C. Saha** (2005), “Natural convection in triangular enclosures with different media and complex thermal forcing” PhD project proposal.

**S. C. Saha** (2000), “Natural convection flow from a vertical plate embedded in stratified medium with effect of viscous dissipation and double diffusion” M.Sc. thesis, Department of Mathematics, University of Dhaka, Bangladesh.

**Monograph**

**S. C. Saha**, “*Scaling analysis of natural convection boundary layers: Application to attic space*” Lambert Academic Publishing, Germany, ISBN: 978-3-8465-8649-5. pages: 208.

### Book Chapters

**S. C. Saha**and M. A. Karim, Y.T. Gu, “Mathematical modelling of intermittent drying ”, In Intermittent and Nonstationary Drying Technologies: Principles and Applications, (Eds, A. Karim), ISBN 97814987840925, (1st ed.) CRC Press, 2017, accepted

**S. C. Saha**, Y.T. Gu, M.M.K. Khan, “Heat transfer enhancement in a baffled attic shaped space”, In Application of Thermo-fluid Processes in Energy Systems: Key Issues and Recent Developments for a Sustainable Future, (Eds, M. M. K. Khan, A. Chowdhury, N.M.S. Hassan), ISBN 978-981-10-0697-5, (1st ed.) Springer, 2017, accepted.

M. F. Ismail,

**S. C. Saha**, “Enhancement of confined air jet impingement heat transfer using perforated pin fin heat sinks”, In Application of Thermo-fluid Processes in Energy Systems: Key Issues and Recent Developments for a Sustainable Future, (Eds, M. M. K. Khan, A. Chowdhury, N.M.S. Hassan), ISBN 978-981-10-0697-5, (1st ed.) Springer, 2017, accepted.

**S. C. Saha**, Y. T. Gu, M. M. Khan, “Natural Convection Heat Transfer in the Partitioned Attic Space”, In Thermofluids modeling for energy efficiency applications, (Eds, M. M. K. Khan, N.M.S. Hassan), ISBN-13: 978-0128023976, ISBN-10: 012802397X, (1st ed.) Elsevier, 2015, (Chapter 3) pp. 59 – 72.

M. F. Ismail,

**S. C. Saha**, M. A. R. Sarkar,“Effects of lateral perforation geometry on heat transfer characteristics on extended surfaces”, In Thermofluids modeling for energy efficiency applications, (Eds, M. M. K. Khan, N.M.S. Hassan), ISBN-13: 978-0128023976, ISBN-10: 012802397X, (1st ed.) Elsevier, 2015, (Chapter 5) pp. 103 – 117.

P. Das, M. M. Khan,

**S. C. Saha**, “Numerical study of flow through a reducer for scale growth suppression”, In Thermofluids modeling for energy efficiency applications, (Eds, M. M. K. Khan, N.M.S. Hassan), ISBN-13: 978-0128023976, ISBN-10: 012802397X, (1st ed.) Elsevier, 2015, (Chapter 6) pp. 119 – 148.

U. S. Mahabaleswar,

**S. C. Saha**, “Analytical solution of a Walters’ liquid B flow over a stretching sheet in a porous medium”, In Focus on Porous Media Research, (Eds, Changying Zhao). ISBN: 978-1-62618-668-2. Nova Science Publishers Inc., NY, 2013 (Chapter 3), pp. 121 – 130.

**S. C. Saha**, “Natural convection in the attic-shaped spaces” In Advances in Energy Research. Volume 9, (Eds, Morena J. Acosta), ISBN 978-1-61470-485-0. Nova Science Publishers Inc., NY, 2012 (Chapter 14), pp. 289 – 309.

**S. C. Saha**, “Periodically forced natural convection through the roof of an attic-shaped building” In Convection and Conduction Heat Transfer, (Eds, Dr. Amimul Ahsan) ISBN 978-953-307-582-2 InTech Publishers, 2011 (Chapter 2), pp. 33 – 54.

**Journal Articles:**

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, available online (2018) [IF: 6.605] Q1

S. Bhowmick, S. C. Saha, M. Qiao, F. Xu, “Transition to a chaotic ow in a V-shaped triangular cavity heated from below”, International Journal of Heat and Mass Transfer, 128 (2018) pp. 76 – 86. [IF: 3.891] Q1

A. E. Mazraeh, M. Babayan, M. Yari, A. M. Sedan, 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: 6.603] Q1

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: 2.617] Q1

S. Bhowmick, F. Xu, X. Zhang, S. C. Saha, \Natural convection and heat transfer in a valley shaped cavity lled with initially stratied water”, International Journal of Thermal Sciences, 128 (2018) pp. 59 – 69. [IF: 3.361] Q1

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: 4.463] Q1

H-N. Polwaththe-Gallage, E. Sauret, N-T. Nguyen, S. C. Saha, Y. T. Gu, “A novel numerical 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:2.279] Q1.

S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “Coupled CFD-DEM simulation of oscillatory particle-laden uid ow through a porous metal foam heat exchanger: mitigation of particulate fouling”. Chemical Engineering Science, 179 (2018) pp. 32 – 52. [IF: 3.306] Q1.

M. Taghilou, A. M. Sedan, 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: 3.771]. Q1.

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: 1.676] Q2

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: 4.463] Q1

M. S. Islam, S. C. Saha, E. Sauret, T. Gemci, I. A. Yang, Y. T. Gu, “Ultrane Particle Transport and Deposition in a Large Scale 17-Generation Lung Model” Journal of Biomechanics, 64 (2017) pp. 9 { 18, [IF: 2.431]. Q1.

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: 4.463]. Q1.

Y. Ma, S. C. Saha, W. Miller, L. Guan, “Comparison of Dierent Solar-assisted Air Conditioning Systems for Australian Office Buildings”. Energies, 10 (2017), article number 1463 [IF: 2.676], Nominated for the cover page of this issue, Q1.

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: 2.409]. Q1.

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: 3.306] Q1.

S.T.W. Kuruneru, E. Sauret, S. C. Saha, Y.T. Gu, “A coupled nite 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: 3.891] Q1.

A. M. Sedan, A. Sojoudi, S. C. Saha, M. Cholette, “Multi-layer PCM solidication in a finned triplex tube considering natural convection”. Applied Thermal Engineering, 123 (2017) pp. 901 – 916. [IF: 3.771] Q1.

C.S. From, E. Sauret, S.W. Armeld, S.C. Saha, Y.T. Gu, “Turbulent dense gas flow characteristics in swirling conical diuser computers and fluids”. Computers & Fluids, 149, (2017), pp. 100 – 118. [IF: 2.313] Q1.

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: 2.042] Q1.

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: 1.235] Q1.

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: 2.750] Q1.

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: 3.458] Q1.

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: 2.262] Q1.

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: 3.615] Q1.

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: 2.278]

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: 2.769].

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 deformation in capillary”, International Journal of Mechanics & Materials in Design, 12, (2016), pp. 477 – 494. [IF: 1.926].

**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: 1.38]

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. [IF: 1.38]

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: 5.746]

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.

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: 2.973].

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: 1.475].

S. Mojumder, K. M. Rabbi, S. Saha, M. N. Hasan, **S. C. Saha**, “Magnetic field effect on natu- ral convection and entropy generation in a half-moon shaped cavity with semi-circular bottom heater having different ferrofluid inside”, Journal of Magnetism and Magnetic Materials, 407, (2016), pp. 412 – 424. [IF: 2.357].

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: 2.973].

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: 0.963].

**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. [I.F. 2.357].

**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: 0.762].

**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: 0.484].

**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: 1.399].

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: 2.857].

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: 0.750].

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: 2.884].

**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: 2.857].

**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.

**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: 1.431].

**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.

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: 2.769].

**S. C. Saha**, Y. T. Gu, “Heat transfer analysis of viscous incompressible fluid by combined natural convection and radiation in an open cavity”, Mathematical Problems in Engineering, 2014 (2014), Article ID 412480, 14 pages [IF: 0.762].

**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 [I.F. 0.720].

**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, [I.F. 1.025].

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, [I.F. 1.025].

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: 2.857].

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: 4.292].

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.

**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: 2.857].

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: 1.450].

**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: 2.251].

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: 0.838].

**S. C. Saha**, Y. T. Gu, “Effect of an adiabatic fin on natural convection heat transfer in a triangular enclosure”, American Journal of Applied Mathematics, 1(4), (2013) pp. 78 – 83.

**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: 0.640].

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].

**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: 1.214].

**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: 1.975].

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: 1.450].

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: 0.932].

M. A. Hossain, M. Saleem, **S. C. Saha**, A. Nakayama, “Conduction-radiation effect on natural 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: 1.128].

M.A. Taher, **S. C. Saha**, Y.W. Lee, H.D. Kim, “Lattice-Boltzmann simulation of fluid flow and heat transfer in a lid-driven square cavity”. American Journal of Fluid Dynamics, 3(3) (2013) pp. 40 – 47.

S. Bhowmick, M. M. Molla, **S. C. Saha**, “Non-Newtonian natural convection flow along an isothermal horizontal circular cylinder”, American Journal of Fluid Dynamics. Vol. 3(3) (2013) pp. 20 – 30.

**S. C. Saha**, “Shear thinning and shear thickening non- Newtonian confined fluid flow over rotating cylinder”, American Journal of Fluid Dynamics, 2(6) (2012) pp. 117 – 121.

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: 0.932].

**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: 1.450].

**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: 2.857].

**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. [I.F. 1.025].

**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. [I. F. 2.857].

**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. [I.F. 1.025].

**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. [I.F. 1.025].

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: 1.214].

**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: 2.857].

**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: 2.857].

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 sur- face” International Communications in Heat and Mass Transfer, 39 (2012) pp. 368 – 377. [IF: 2.559].

**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: 1.173].

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.

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: 0.746]

**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: 2.884].

**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: 2.884].

**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: 1.450].

**S. C. Saha**, “Unsteady natural convection in a triangular enclosure under isothermal heating” Energy and Buildings, 43 (2011) pp. 695 – 703. [IF: 2.884].

M. M. Molla, **S. C. Saha**, M.A.I. Khan, M.A. Hossain, “Radiation effects on natural convec- tion laminar flow from a horizontal circular cylinder”, Desalination and Water Treatment, 30 (2011) pp. 89 – 97. [IF: 1.173].

**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: 1.412].

**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: 1.450].

**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: 2.857].

**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: 2.769].

**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: 0.946].

**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: 2.769].

**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: 2.884].

**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, [I.F. 1.025]. 2005

**S. C. Saha**, R. S. R. Gorla, “Viscous dissipation effects on natural convection from a vertical plate with uniform surface heat flux placed in a thermally stratified media” International Journal of Fluid Mechanics Research, 32 (2005) pp. 269 – 280.

**S. C. Saha**, M. A. Hossain, “Natural convection flow with combined buoyancy effects due to thermal and mass diffusion in a thermally stratified media” Nonlinear Analysis: Modelling and Control, 9 (2004) pp. 89 – 102. [IF: 1.099].

**S. C. Saha**, C. Akhter, M. A. Hossain, “Natural convection from a plane vertical porous surface in non-isothermal surroundings” Nonlinear Analysis: Modelling and Control, 9 (2004) pp. 1 – 20. [IF: 1.099].

**Refereed Conference Papers**

**S. C. Saha**, C. Lei, J. C. Patterson, “Scaling analysis of the thermal boundary layer adjacent to an abruptly heated inclined plate” *Proceeding of the 16th Australasian Fluid Mechanics Conference*, Crowne Plaza, Gold Coast, Australia, 3-7 December 2007, 117-120. (ISBN 978-1-864998-94-8).

M. M. Molla, B-C Wang, **S. C. Saha**, “Large-Eddy Simulation of physiological pulsatile non- Newtonian flow in a channel with double constriction”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp. 1084-1088.

**S. C. Saha**, “Scaling analysis of unsteady natural convection boundary layer for ramp heat- ing”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp.767-770.

M. N. Hasan, **S. C. Saha**, “Mixed convection laminar flow along a horizontal plate subject to streamwise sinusoidal surface temperature”, *Proceedings of the 9th International Conference on Mechanical Engineering*, ICME11, 18-20 December, 2011, BUET, Dhaka, Bangladesh. Paper ID: ICME 11-TH-011.

A. Sojoudi, F. Vakilimoghaddam, R. Neishabouri, **S. C. Saha**, “On the oscillatory behavior of transient Rayleigh Benard convection of air for 2D channel flow at moderate Rayleigh numbers”, *Proceedings of the World Congress on Engineering 2012*, Vol III, WCE 2012, July 4 – 6, 2012, London, U.K. pp. 1874-1878.

M. Babaie, P. Talebizadeh, **S. C. Saha**, H. Rahimzadeh, R.J. Brown, “Residence Time Inves- tigation in a Co-axial Dielectric Barrier Discharge Reactor”, *Proceedings of the 4th Interna- tional Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

PGH. Nayanajith, Y.T. Gu, **S. C. Saha**, A. Oloyede1, W. Senadeera “Simulation of red blood cell motion using particle methods: A review”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

A. Sojoudi, H. Afshin, B. Farhanieh, **S. C. Saha **“Large eddy simulation of smoke flow in a real road tunnel fire using FDS”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

M. Saleem, M. A. Hossain**S. ****C. Saha**, “Natural convection of nanofluids in open rectangular cavity”, *Proceedings of the 5th BSME International Conference on Thermal Engineering*, 21-23 December 2012, Dhaka, Bangladesh.

**S. C. Saha**, Y. T. Gu “Thermo-magnetic convection of paramagnetic fluids with non- instantaneous heating”, *Proceedings of the *18*th **A**ustralasian Fluid Mechanics Conference (*18*AFMC)*, University of Tasmania, Launceston, 3 – 7 December 2012, Australia.

M. Islam, A. Karim, **S. C. Saha**, S. Miller, P. K. D. V. Yarlagadda, “Three dimensional sim- ulation of a parabolic trough concentrator thermal collector”,*Proceedings **of the 50th Annual Solar Conference 2012 organised by the Australian Solar Council (AuSES))*, 6-7 December 2012, Swinburne University of Technology, Hawthorn Campus, Melbourne, Australia.

M. Islam, M. A. Karim, **S. C. Saha**, Sarah Miller, P. K. D. V. Yarlagaddaa, “Development of optical ray tracing model of a standard parabolic trough collector”. *Proceedings of the World Renewable Energy Congress Australia 2013*, Western Australia, 14-18 July 2013.

M. Islam, M. A. Karim, **S. C. Saha**, S. Miller, P. K. D. V. Yarlagadda, “An optical ray tracing model of parabolic trough collector applying Monte Carlo technique”, *Proceedings of the Solar 2014 Conference and Expo*, May 8 – 9, 2014, Belbourne Convention and Exibition Centre, Melbourne, Australia.

**S. C. Saha**, Y.T. Gu, “Unsteady natural convection heat transfer in a baffled triangular en- closure”, *Proceedings **of the *19*th **A**ustralasian **Fluid Mechanics Conference (*19*AFMC)*, RMIT University, Melbourne, 8 – 11 December 2014, Australia.

PGH. Nayanajith, **S. C. Saha**, Y. T. Gu, “Deformation of a three-dimensional Red Blood Cell in a stenosed micro-capillary”, *Proceedings of the 8th Australasian Congress on Applied Mechanics (ACAM8)*, Melbourne Convention and Exhibition Centre 24 — 28 November 2014, Australia.

M. S. Islam, **S. C. Saha**, E. Sauret, Y. T. Gu, “Numerical investigation of aerosol particle transport and deposition in realistic lung airway”, *Proceedings of the 6th International Conference on Computational Methods (ICCM2015)*, 14 – 17 July, 2015, Auckland, New Zealand.

P. Das, M.M.K. Khan, M.G. Rasul, **S. C. Saha**, “Fluid flow chracterictics on scale deposition in a concentric reducer using cfd approach”, *Proceedings of the 11th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics*, 20 – 23 July 2015, Kruger National Park, South Africa.

S.T.W. Kuruneru, E. Sauret, **S. C. Saha**, Y.T. Gu, “Poly-disperse particle transport and deposition in idealized porous channels”, *Proceedings **of the 2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

M.S. Islam, **S. C. Saha**, E. Sauret, Y.T. Gu, “Effects of Velocity on Diesel Exhaust Particle Transport and Deposition in the Central Airways of the Human Lung”, *Proceedings of the **2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

S. Barns, E. Sauret, **S. C. Saha**, R. Flower, Y.T. Gu, “Two-Layer Red Blood Cell Membrane Model using the Discrete Element Method”, *Proceedings of the 2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

M. Hardwick, **S. C. Saha**, “Numerical Modelling of Optimisation of Bladeless Fan Design”, *Proceedings **of the 2nd Australasian Conference on Computational Mechanics (ACCM2015)*, 30 November – 01 December 2015, Brisbane, Australia.

S.T.W. Kuruneru, E. Sauret, **S. C. Saha**, K. Hooman, Y.T. Gu, “A novel experimental technique to assess poly-disperse particulate deposition and aggregation in idealized porous channels,” *Proceedings **of the 17th IAHR International Conference on Cooling Tower and Heat Exchanger*, 8 – 11 September 2015, Gold Coast, Australia.

P. G. H. Nayanajith, **S. C. Saha**, E. Sauret, R. Flower, Y. T. Gu, “Numerical investigation of the critical diameter for a stenosed capillary to prevent the motion of red blood cells”, *Proceedings of the 25th Regional Congress of the ISBT*, June 27 – July 1, 2015, London, UK.

A. Zou, E. Sauret, **S. C. Saha**, Y. T. Gu, “Stochastic analysis of a radial-inflow turbine in the presence of parametric uncertainties” *Proceedings of the 6th International Conference on Computational Methods (ICCM2015)*, 14 – 17 July, 2015, Auckland, New Zealand.

**S. C. Saha**, M. Rannie, E. Sauret, Y. T. Gu, “Numerical modelling for improved underground- mine ventilation systems”, *Proceedings **of the 8th Australasian Congress on Applied Mechanics (ACAM8)*, Melbourne Convention and Exhibition Centre 24 – 28 November 2014, Australia.

S. Bhowmick, M. M. Molla, A. Biswas, **S. C. Saha**, “Non-Newtonian Natural Convection Flow from an Isothermal Sphere with Modified Power-law Viscosity Model”, *Proceedings of the 18th International Mathematics Conference*, 20 – 22 March, 2014, Independent University (IUB), Dhaka, Bangladesh.

E. Sauret, K. Hooman, **S. C. Saha**, “CFD simulations of flow and heat transfer through the porous interface of a metal foam heat exchanger”, *Proceedings **of the ASME 2014 Power Conference, Power 2014*, July 28 – 31, 2014, Baltimore, Maryland, USA.

C. Kumar, A. Karim, **S. C. Saha**, M.U.H. Joardder, R.J. Brown, D. Biswas, “Multiphysics modelling of convective drying of food materials”. *Proceedings of the Global Engineering, Science and Technology Conference*, 28-29 December 2012, Global Institute of Science and Technology, Dhaka, Bangladesh.

M. Islam, A. Karim, **S. C. Saha**, S. Miller, P. K. D. V. Yarlagadda, “Visualization of thermal characteristics around the absorber tube of a standard parabolic trough thermal collector by 3D simulation”, *Proceedings of the 4th International Conference on Computational Methods **(ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

S. Siddiqa, M. A. Hossain, **S. C. Saha**, “Mixed convection along a vertical flat plate in a non-absorbing medium”, *Proceedings of the 5th BSME International Conference on Thermal Engineering*, 21-23 December 2012, Dhaka, Bangladesh.

S. C. Paul, **S. C. Saha**, “Analysis of heat transfer and fluid flow in a triangular enclosure in presence of adiabatic fin”, *Proceedings of the 5th BSME International Conference on Thermal Engineering*, 21-23 December 2012, Dhaka, Bangladesh.

F. V. Moghaddam, **S. C. Saha**, A. Sojoudi, F. V. Moghadam, “Finite volume approach of natural convection in triangular enclosures with localized heating below”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

PGH. Nayanajith, Y.T. Gu, **S. C. Saha**, A. Oloyede1, W. Senadeera “Numerical Simulation of Red Blood Cells’ Deformation using SPH Method”, *Proceedings of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

**S. C. Saha**, Y. T. Gu, “Transient free convection heat transfer through conducting partition placed in an isosceles triangular enclosure”, *Proceedings **of the 4th International Conference on Computational Methods (ICCM2012)*, 25 – 28 November 2012, Crowne Plaza, Gold Coast, Australia.

**S. C. Saha**, Y. T. Gu, M. A. Hossain, “Free convection heat transfer through coupled ther- mal boundary layers in a partitioned triangular enclosure”, *Proceedings **of the 9th Interna- tional Conference on Mechanical Engineering*, ICME11, 18-20 December, 2011, BUET, Dhaka, Bangladesh. Paper ID: ICME 11-TH-033.

M. N. Hasan, **S. C. Saha**, Y. T. Gu, “Effect of differentially heating and consequent transient behaviour for natural convection within an enclosure of sinusoidal corrugated side walls”, *Proceedings of the 9th International Conference on Mechanical Engineering, ICME11*, 18-20 December, 2011, BUET, Dhaka, Bangladesh. Paper ID: ICME 11-TH-018.

**S. C. Saha**, F. Xu, M. M. Molla, T. P. Bednarz, “Scaling analysis of unsteady natural convection boundary layer for instantaneous heating”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp. 771-775.

T. P. Bednarz, W. Lin, **S. C. Saha**, “Scaling of thermo-magnetic convection”, *Proceedings of the 13th Asian Congress of Fluid Mechanics*, 17-21 December 2010, Dhaka, Bangladesh. (ISBN 978-984-33-2214-2) pp. 798-800.

**S. C. Saha**, C. Lei, J. C. Patterson, “On the natural convection boundary layer adjacent to an inclined flat plate subject to ramp heating” *Proceeding of the 16th Australasian Fluid Mechanics Conference*, Crowne Plaza, Gold Coast, Australia, 3-7 December 2007, 121-124. (ISBN 978-1-864998-94-8).

**S. C. Saha**, C. Lei, J. C. Patterson, “Natural convection in a triangular enclosure subject to periodic thermal forcing”, *Proceedings of the 13th International Heat Transfer Conference*, edited by Graham de Vahl Davis and Eddie Leonardi, Sydney, Australia, 13-18 August 2006. Paper No. NCV-43. (ISBN 1-56700-226-9).

### Theses and Reports

**S. C. Saha** (2008), “Natural convection adjacent to an inclined flat plate and in an attic space under various thermal forcing conditions” PhD thesis, James Cook University.

**S. C. Saha**, Y.T. Gu (2012), “CDF modelling of new inertial separator design” Peak3 Australia.

**S. C. Saha** (2005), “Natural convection in triangular enclosures with different media and complex thermal forcing” PhD project proposal.

**S. C. Saha** (2000), “Natural convection flow from a vertical plate embedded in stratified medium with effect of viscous dissipation and double diffusion” M.Sc. thesis, Department of Mathematics, University of Dhaka, Bangladesh.