CV - GB 27 08 19n
CV - GB 27 08 19n
CV - GB 27 08 19n
A. FIELDS OF INTEREST:
Enhancement of Heat Transfer, Computational Fluid Dynamics, Boiling Heat Transfer, Free
Surface Flows, Bubbles and Drops, Fluid Mechanics, Microfluidics and Turbulence.
1994: JSPS Invitation Fellowship Award, Japan Society for the Promotion of Science,
5-3-1 Kojimachi, Chiyoda-ku, Tokyo 102, Japan
2002: Keynote speaker at the Twelfth International Heat Transfer Conference at Grenoble,
France (August 18-23, 2002)
2006: Appointed as the Associate Editor of the Journal of Heat Transfer (Transactions of
the ASME).
2006: Invited Speaker at the Eleventh Asian Congress of Fluid Mechanics (11ACFM), Kuala
Lumpur, Malaysia (22-25 May, 2006).
2007: Dr. Gurmukh D. and Veena M. Mehta Endowed Chair in Mechanical Engineering
2008: President, Indian Society for Theoretical and Applied Mechanics (ISTAM), India
2008: Member of the Editorial Board of Computational Thermal Sciences (Begell House)
2010: Member of the Editorial Board of Indian Journal of Engineering and Materials
Sciences (IJEMS)
2010: Acting Director, Academy of Scientific and Innovative Research (AcSIR), New Delhi
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2011: Member of the Working Group on S & T Human Resource Development of the
Planning Commission, Govt of India.
2011: Delivered Prof. B.R. Seth Memorial Institute Lecture at IIT Kharagpur
2012: Fellow of the Indian National Science Academy (INSA), New Delhi, India.
2014: Prof. A.S. Gupta Memorial Lecture, 59th Congress of ISTAM, Bangalore
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2018: Twenty seventh Dr. Amitabha Bhattacharyya Memorial Lecture of IEI, Indian
Engineering Congress, India
2019: Invited Talk at the Taiwan-India Joint Conference at CASTS, National Taiwan
University, Taiwan
2019: National Technology Day Lecture at the CSIR- National Geophysical Research
Institute (NGRI), Hyderabad.
Refereed Journals:
3. B. Nath, G. Biswas and A. Dalal, Influence of electric field on deformation of a drop in shear
flow, Physics of Fluids, Vol. 31, pp. 042102-1—042102-13, (2019)
4. H. Deka, P.-H. Tsai, G. Biswas, A. Dalal, B. Ray, A.-B. Wang, Dynamics of formation and
oscillation of non-spherical drops, Chemical Engineering Science, Vol. 201, pp. 413–423, (2019)
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6. R. K. Arun, V. Gupta, P. Singh, G. Biswas and N. Chanda, Selection of Graphite Pencil Grades
for the Design of Suitable Electrodes for Stacking Multiple Single-Inlet Paper-Pencil Fuel Cells,
Chemistry Select, Vol. 4, pp. 152—159, (2019)
10. M. P. Borthakur, G. Biswas, D. Bandyopadhyay and K.C. Sahu, Dynamics of an arched liquid
jet under the influence of gravity, European Journal of Mechanics / B Fluids, Vol. 74, pp. 1-9,
(2019).
11. V. Pandey, G. Biswas and A. Dalal, Effect of surface wettability and electric field on transition
of film boiling to nucleate boiling, Numerical Heat Transfer, Part A, Vol. 74, pp. 1105-1120
(2018).
13. V. Pandey, G. Biswas, A. Dalal and S.W.J. Welch, Bubble Lifecycle During Heterogeneous
Nucleate Boiling, Journal of Heat Transfer (ASME), Vol. 140, pp. 121503-1—121503-17, (2018)
14. B. Nath, G. Biswas, A. Dalal, and K. C. Sahu, Cross-stream migration of drops suspended in
Poiseuille flow in the presence of an electric field, Physical Review E, Vol. 97, pp. 063106-1--
063106-13, (2018)
15. H. Deka, B. Ray, G. Biswas, and A. Dalal, Dynamics of tongue shaped cavity generated
during the impact of high-speed microdrops, Physics of Fluids, Vol. 30, pp. 042103-1 –
042103-14, (2018)
17. M.P. Borthakur, D. Bandyopadhyay and G. Biswas, Electric field mediated separation of
water–ethanol mixtures in carbon nanotubes integrated in nanoporous graphene membranes,
Faraday Discuss., 209, 259–271, (2018)
18. H. Deka, B. Ray, G. Biswas, A. Dalal, P.-H. Tsai, and A.-B. Wang, The regime of large
bubble entrapment during a single drop impact on a liquid pool, Physics of Fluids, Vol. 29,
(Issue 9) pp. 092101-1- 092101-13, (2017).
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19. M. P. Borthakur, G. Biswas, and D. Bandyopadhyay, Formation of liquid drops at an orifice and
dynamics of pinch-off in liquid jets, Physical Review E, Vol. 96, pp. 013115-1— 013115-11,
(2017).
23. B. Nath, G. Biswas, A. Dalal and K. C. Sahu, Migration of a droplet in a cylindrical tube in the
creeping flow regime, Physical Review E, Vol. 95, pp. 033110-1—033110-11, (2017)
24. V. Pandey, G. Biswas, and A. Dalal, Saturated film boiling at various gravity levels under the
influence of electrohydrodynamic forces, Physics of Fluids, Vol. 29, pp. 032104-1- 032104-13,
(2017)
25. H. Srivastava, A. Dalal, K. C. Sahu and G. Biswas, Temporal linear stability analysis of an
entry flow in a channel with viscous heating, International Journal of Heat and Mass
Transfer, Vol. 109, pp. 922-929, (2017).
26. P. Saha, G. Biswas, A.C. Mandal and S. Sarkar, Investigation of coherent structures in a
turbulent channel with built-in longitudinal vortex generators, International Journal of Heat and
Mass Transfer, Vol. 104, pp. 178-198, (2017).
27. R.K. Arun, P. Singh, G. Biswas, N. Chanda and S. Chakraborty, Energy generation from water
flow over a reduced graphene oxide surface in a paper–pencil device, Lab-on-a-Chip, Vol. 16, pp.
3589-3596, (2016).
29. V. Pandey, G. Biswas, and A. Dalal, Effect of superheat and electric field on saturated film
boiling, Physics of Fluids , Vol. 28, 052102-1- 052102-18, (2016)
31. S. Sarkar, S. Ganguly, G. Biswas and P. Saha, Effect of cylinder rotation during mixed
convective flow of nanofluids past a circular cylinder, Computers and Fluids, Vol. 127, pp. 47-
64 (2016)
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33. I.Chakraborty, G. Biswas, S. Polepalle and P.S. Ghoshdastidar, Bubble Formation and
Dynamics in a Quiescent High-Density Liquid, AIChE Journal, Vol. 61, pp. 3996 - 4012, (2015).
34. A. Hens, G. Biswas and S. De, Evaporation of water droplets on Pt-surface in presence of
external electric field – A molecular dynamics study, The Journal of Chemical Physics, Vol. 143,
094702-1 – 094702-11, (2015)
35. P. Randive, A. Dalal, K.C. Sahu, G. Biswas, P. Mukherjee, Wettability effects on contact line
dynamics of droplet motion in an inclined channel, Physical Review E, Vol. 91, pp. 053006-1 –
053006-16, (2015)
36. S. Biswas, P. Sharma, B. Mondal and G. Biswas, Analysis of Mixed Convective Heat Transfer
in a Ribbed Channel using The Lattice Boltzmann Method, Numerical Heat Transfer Part A, Vol.
68, pp. 75-98, (2015)
37. B. Ray, G. Biswas and A. Sharma, Regimes during liquid drop impact on a liquid pool, Journal
of Fluid Mechanics, Vol. 768, pp. 492-523, (2015).
38. D. Chatterjee and G. Biswas, Dynamic behavior of flow around rows of square cylinders kept
in staggered arrangement, Journal of Wind Engineering and Industrial Aerodynamics, Vol.
136, pp. 1-11, (2015).
39. P. Saha, G. Biswas and S. Sarkar, Comparison of winglet-type vortex generators periodically
deployed in a plate-fin heat exchanger – A synergy based analysis, International Journal of Heat
and Mass Transfer, Vol. 74, pp. 292-305, (2014)
40. R.K. Arun, K. Chaudhury, M. Ghosh, G. Biswas, N. Chanda and S. Chakraborty, Controlled
splitting and focusing of a stream of nanoparticles in a converging-diverging microchannel, Lab on
a Chip, Vol. 14, pp. 3800-3808, (2014).
41. A. Hens, G. Biswas and S. De, Analysis of interfacial instability and multimode bubble
formation in saturated pool boiling using Coupled Level Set and Volume- of- Fluid approach,
Physics of Fluids, Vol. 26, pp. 012105-1 – 012105-14, (2014)
42. A. Hens, R. Agarwal and G. Biswas, Nanoscale study of boiling and evaporation in a liquid Ar
film on a Pt heater using molecular dynamics simulation, International Journal of Heat and Mass
Transfer, Vol. 71, pp. 303-312 (2014)
43. S. Sarkar, S. Ganguly and G. Biswas, Buoyancy driven convection of nanofluids in an infinitely
long channel under the effect of a magnetic field, International Journal of Heat and Mass
Transfer, Vol. 71, pp. 328-340, (2014)
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45. S. P. Singh and G. Biswas, Vortex induced vibrations of a square cylinder at subcritical
Reynolds numbers, Journal of Fluids and Structures, Vol. 41, pp. 146-155, (2013)
46. S. P. Singh, G. Biswas and P. Nithiarasu, A numerical study of vortex shedding from a circular
cylinder vibrating in the in-line direction, International Journal of Numerical Methods for Heat &
Fluid Flow, Vol. 23, pp. 1449 - 1462, (2013)
47. I. Chakraborty, G. Biswas and P.S. Ghoshdastidar, A coupled level-set and volume-of-fluid
method for the buoyant rise of gas bubbles in liquids, International Journal of Heat and Mass
Transfer, Vol. 58, pp. 240–259, (2013).
49. B. Ray, G. Biswas, A. Sharma, and S.W.J. Welch, CLSVOF method to study consecutive drop
impact on liquid pool, International Journal of Numerical Methods for Heat & Fluid Flow, Vol.
23, pp. 143 - 158, (2013).
50. B. Ray, G. Biswas and A. Sharma, Bubble pinch-off and scaling during liquid drop impact on
liquid pool, Physics of Fluids, Vol. 24, pp. 082108-1 – 082108-11, (2012)
51. A Pal, D. Bandyopadhyay, G. Biswas and V. Eswaran, Enhancement of Heat Transfer Using
Delta-Winglet Type Vortex Generators with a Common Flow Up Arrangement, Numerical Heat
Transfer Part A, Vol. 61, pp. 912-928, (2012).
52. D. Chatterjee, G. Biswas and S. Amiroudine, Mixed Convection Heat Transfer from an In-line
Row of Square Cylinders in Cross-Flow at Low Reynolds Number, Numerical Heat Transfer Part
A, Vol. 61, pp. 891-911, (2012).
53. S. Sarkar, S. Ganguly and G. Biswas, Mixed Convective Heat Transfer of Nanofluids Past a
Circular Cylinder in Cross Flow in Unsteady Regime, International Journal of Heat and Mass
Transfer, Vol. 55, pp. 4783 – 4799, (2012)
55. B. Ray, G. Biswas and A. Sharma, Oblique Drop Impact on Deep and Shallow Liquid,
Commun. Comput. Phys., Vol. 11, pp. 1386 – 1396, (2012).
56. K. Arul Prakash, B. V. Ratish Kumar and G. Biswas, Parallel numerical simulation of conjugate
heat transfer in the target system of an ADS by domain decomposition method, International
Journal of Numerical Analysis and Modeling, Series B, 3 (3), 259 – 269, (2012).
57. B. Ray, P.D.S. Reddy, D. Bandyopadhyay, S.W. Joo, A. Sharma, S. Qian and G. Biswas,
Instabilities in Free-surface Electroosmotic Flows, Theor. Comput. Fluid Dyn., Vol. 26, pp. 311-
318, (2012).
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58. B. Ray, P.D.S. Reddy, D. Bandyopadhyay, A. Sharma, S. Qian and G. Biswas, Surface
Instability of a Thin Electrolyte Film Undergoing Coupled Electroosmotic and Electrophoretic Flows
in a Microfluidic Channel, Electrophoresis, Vol. 32, pp. 3257 - 3267, (2011).
59. S. Sen, S. Mittal, and G. Biswas, Flow past a Square Cylinder at Low Reynolds Numbers,
International Journal for Numerical Methods in Fluids, Vol. 67, pp. 1160–1174, (2011).
60. I. Chakraborty, G. Biswas, and P. S. Ghoshdastidar, Bubble generation in quiescent and co-
flowing liquids, International Journal of Heat and Mass Transfer , Vol. 54, pp. 4673 – 4688,
(2011).
61. A. Patra, D. Bandyopadhyay, G. Tomar, A. Sharma, and G. Biswas, Instability and dewetting
of ultrathin solid viscoelastic films on homogeneous and heterogeneous substrates, The Journal
of Chemical Physics, Vol. 134, 064705-1 - 064705-11, (2011).
62. D. Chatterjee and G. Biswas, The Effects of Reynolds and Prandtl Numbers on Flow and Heat
Transfer Across Tandem Square Cylinders in the Steady Flow Regime, Numerical Heat Transfer,
Part A, Vol. 59, pp. 421–437, (2011).
63. S. Sarkar, A. Dalal and G. Biswas, Unsteady wake dynamics and heat transfer in forced and
mixed convection past a circular cylinder in cross flow for high Prandtl numbers, International
Journal of Heat and Mass Transfer, Vol. 54, pp. 3536–3551 (2011).
64. B. Ray, G. Biswas and A. Sharma, Generation of secondary droplets in coalescence of a drop
at a liquid/ liquid interface, Journal of Fluid Mechanics, Vol. 655, pp. 72-104, (2010)
65. P. Saha and G. Biswas, Assessment of a Shear-Improved Subgrid Stress Closure for
Turbulent Channel Flows, International Journal of Heat and Mass Transfer, Vol. 53, 4856 –
4863, (2010)
66. S. Jayavel, S. Tiwari, G. Biswas and M. Sen, Kinematics of a fluid particle due to interaction of
fixed inviscid vortex filaments in presence of external translation and pulsation, International
Journal of Fluid Mechanics Research, Vol. 37, pp.127-148, 2010.
67. S. Sarkar, A. Dalal and G. Biswas, Mixed Convective Heat Transfer from Two Identical Square
Cylinders in Cross Flow at Re=100, International Journal of Heat and Mass Transfer, Vol. 53,
pp. 2628-2642, (2010)
68. D. Chatterjee, G. Biswas and S. Amiroudine, Numerical simulation of flow past row of square
cylinders for various separation ratios, Computers and Fluids, Vol. 39 pp. 49–59, (2010)
69. G. Gandikota, S. Amiroudine, D. Chatterjee and G. Biswas, The Effect of Aiding/ Opposing
Buoyancy on Two-Dimensional Laminar Flow Across a Circular Cylinder, Numerical Heat
Transfer, Part A, Vol. 58, pp. 385-402, (2010)
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under Normal and Reduced Gravity, Physics of Fluids, Vol. 21, pp. 062103-1 – 062103-17,
(2009)
72. G. Tomar, G. Biswas, A. Sharma and S.W.J. Welch, Influence of Electric Field on Saturated
Film Boiling, Physics of Fluids, Vol. 21, 032107-1 – 032107-8 (2009).
73. G. Biswas and S. Sarkar, Effect of Thermal Buoyancy on Vortex Shedding Past a Circular
Cylinder in Cross Flow at Low Reynolds Numbers, International Journal of Heat and Mass
Transfer, Vol. 52, pp. 1897-1912, (2009).
74. R.M. Bhatnagar, B. Bhattacharya and G. Biswas, Analysis of Pilot Valve and Taper Groove
Based Damper, Proceedings of I Mech E London Part C, J. Mechanical Engineering Science,
Vol. 223 (C4), pp 859-871, (2009).
75. S. Sen, S. Mittal and G. Biswas, Steady Separated Flow Past a Circular Cylinder at Low
Reynolds Numbers, Journal of Fluid Mechanics, Vol. 620, pp. 89-119, (2009).
76. G. Tomar, G. Biswas, A. Sharma and S.W.J. Welch, Multi-mode Analysis of Bubble Growth in
Saturated Film Boiling, Physics of Fluids, Vol. 20, 092101-1 – 092101-7, (2008).
77. M. Nishi, B. Uensal, F. Durst and G. Biswas, Laminar-to-Turbulent Transition of Pipe Flows
through Puffs and Slugs, Journal of Fluid Mechanics, Vol. 614, pp. 425-446, (2008)
78. R. Ranjan, A. Dalal and G. Biswas, A Numerical Study of Fluid flow and Heat Transfer around
a Square Cylinder at Incidence using Unstructured Grids, Numerical Heat Transfer Part A, Vol.
54, pp. 890-913, (2008).
79. N. Senthil Kumar and G. Biswas, A Finite Element Study of the Onset of Vortex Shedding in a
Flow Past Two-dimensional Circular Cylinder, Progress in Computational Fluid Dynamics, Vol.
8, pp. 288-298, (2008).
80. A. Dalal, V. Eswaran and G. Biswas, A Finite Volume Method for Navier-Stokes Equations on
Unstructured Meshes, Numerical Heat Transfer Part B, Vol. 54, pp. 238-259, (2008).
82. S.W.J. Welch and G. Biswas, Direct Simulation of Film Boiling Including
Electrohydrodynamic Forces, Physics of Fluids, Vol. 19, 012106-1 – 012106-11, (2007).
83. G. Tomar, A. Sharma, V. Shenoy and G. Biswas, Surface Instability of Confined Elastic
Bilayers: Theory and Simulations, Physical Review E, Vol. 76, 011607, (2007).
84. S.R. Hiravennavar, E.G. Tulapurkara, G. Biswas, A Note on the Flow and Heat Transfer
Enhancement in a Channel with Built-in Winglet Pair, Int. J. Heat and Fluid Flow , Vol. 28, pp.
299–305, (2007).
85. K. Arul Prakash, G. Biswas and B.V. Rathish Kumar, Numerical Prediction of Fluid Flow and
Heat Transfer in the Target System of an Axisymmetric Accelerator Driven Subcritical System,
Journal of Heat Transfer (ASME), Vol. 129, pp. 582-588, (2007).
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87. K. Arul Prakash, G. Biswas and B.V. Rathish Kumar, Thermal Hydraulics of the Spallation
Target Module of an Accelerator Driven Sub-critical System: A Numerical Study, International
Journal of Heat and Mass Transfer, Vol. 49, pp. 4633-4652, (2006).
88. K. Arul Prakash, G. Biswas and B.V. Rathish Kumar, Numerical Simulation of the Target
System of an ADSS, International Journal of Computational Fluid Dynamics, Vol. 20, pp.
513-520, (2006).
89. A. Maheshwari, R.P. Chhabra and G. Biswas, Effect of Blockage on Drag and Heat Transfer
from a Single Sphere and an In-line Array of Three Spheres, Powder Technology, Vol. 168,
pp. 74-83, (2006).
90. G. Tomar, V. Shankar, S.K. Shukla, A. Sharma, G. Biswas, Instability and Dynamics of Thin
Viscoelastic Liquid Films, European Physical Journal E, Vol. 20, pp. 185-200, (2006).
91. K. Arul Prakash, S. De, B.V. Rathish Kumar and G. Biswas, A SUPG – Finite Element Study
of an ADSS, Finite Element in Analysis and Design, Vol. 42, pp. 1123-1136, (2006).
92. Y. Srinivas, G. Biswas, A.S. Parihar and R. Ranjan, Large-Eddy Simulation of High
Reynolds Number Turbulent Flow Past a Square Cylinder, Journal of Engineering Mechanics
(ASCE), Vol. 132, pp. 327-335, (2006).
93. D. Gerlach, G. Tomar, G. Biswas, and F. Durst, Comparison of Volume-of-Fluid Methods for
Computing Surface Tension-Dominant Two-Phase Flows, International Journal of Heat and
Mass Transfer, Vol. 49, pp. 740-754, (2006).
94. G. Tomar, G. Biswas, A. Sharma and A. Agrawal, Numerical Simulation of Bubble Growth in
Film Boiling Using CLSVOF Method, Physics of Fluids, Vol. 17, 112103-1 – 112103-13,
(2005).
95. J. Srikanth, E.G. Tulapurkara and G. Biswas, Large Eddy Simulation of Flow Past Built-In
Winglet-Pair in a Rectangular Channel, International Journal of Fluid Mechanics Research,
Vol. 32, pp. 310-326, (2005).
96. K. Senthil Kumar, E. G. Tulapurkara, G. Biswas and B.H.L. Gowda, Reverse Flow in
Channel with Obstruction at Entry, Fluid Dynamics Research, Vol. 37, pp. 387-398, (2005).
98. S. Tiwari, D. Chakraborty, G. Biswas and P.K. Panigrahi, Numerical Prediction of Flow and
Heat Transfer in a Channel in the Presence of a Built-in Wake Splitter, International Journal of
Heat and Mass Transfer, Vol. 48, pp. 439-453, (2005).
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99. J. M. Shi, D. Gerlach, M. Breuer, G. Biswas and F. Durst, Heating Effect on Steady and
Unsteady Horizontal Laminar Flow of Air Past a Circular Cylinder, Physics of Fluids, Vol. 16,
pp. 4331-4345, (2004).
100. D. Agarwal, S.W.J. Welch, G. Biswas, and F. Durst, Planar Simulation of Bubble Growth in
Film Boiling in Near-Critical Water Using a Variant of the VOF Method, Journal of Heat
Transfer (ASME), Vol. 126, pp. 329-338, (2004).
101. G. Biswas, M. Breuer and F. Durst, Backward-Facing Step Flows for Various Expansion
Ratios at Low and Moderate Reynolds Numbers, Journal of Fluids Engineering (ASME), Vol.
126, pp. 362-374, (2004).
103. S. Tiwari, G. Biswas, P.L.N. Prasad and S. Basu, Numerical Prediction of Flow and Heat
transfer in a Rectangular Channel with a Built-in Circular Tube, Journal of Heat Transfer
(ASME), Vol. 125, pp. 413-421, (2003).
104. S. Tiwari, P.L.N. Prasad and G. Biswas, A Numerical Study of Heat Transfer in Fin-Tube
Heat Exchangers using Winglet-Type Vortex Generators in Common-Flow-Down Configuration,
Progress in Computational Fluid Dynamics, Vol. 3, pp. 32-41, (2003).
105. T. Cziesla, H. Chattopadhyay, N.K. Mitra and G. Biswas, Prediction of Heat Transfer from
Impinging Knife-Jets Using a Dynamic Subgrid Stress Model, Progress in Computational
Fluid Dynamics, Vol. 3, pp. 22-31, (2003).
106. S. Tiwari, D. Maurya, G. Biswas and V. Eswaran, Heat Transfer Enhancement in Crossflow
Heat Exchangers using Oval Tubes and Multiple Delta Winglets, International Journal of Heat
and Mass Transfer, Vol. 46, pp. 2841-2856, (2003).
109. A. Jain, G. Biswas and D. Maurya, Winglet-Type Vortex Generators with Common-Flow-Up
Configuration for Fin-Tube Heat Exchangers, Numerical Heat Transfer, Part A, Vol. 43, pp.
201-219, (2003).
110. A. K. Saha, G. Biswas, and K. Muralidhar, Three-dimensional Study of Flow Past a Square
Cylinder at Low Reynolds Numbers, Int. J. Heat and Fluid Flow, Vol. 24, pp. 54-66, (2003).
111. H. Chattopadhyay, G. Biswas and N.K. Mitra, Heat Transfer from a Moving Surface due to
Impinging Slot Jets, Journal of Heat Transfer (ASME), Vol. 124, pp. 433-440, (2002).
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113. A.K. Saha, G. Biswas, and K. Muralidhar, Two-Dimensional Study of the Turbulent Wake
Behind a Square Cylinder Subject to Uniform Shear, Journal of Fluids Engineering (ASME),
Vol. 123, pp. 595-603, (2001).
114. T. Cziesla, G. Biswas, H. Chattopadhyay and N.K. Mitra, Large-Eddy Simulation of Flow
and Heat Transfer in an Impinging Slot Jet, Int. J. Heat and Fluid Flow, Vol. 22, pp. 500-508,
(2001).
115. P. Sandilya, D.P. Rao, A. Sharma and G. Biswas, Gas-Phase Mass Transfer in a
Centrifugal Contractor, Ind. Eng. Chem. Res., Vol. 40, pp. 384-392, (2001).
116. P. Sandilya, G. Biswas, D.P. Rao and A. Sharma, Numerical Simulation of the Gas Flow
and Mass Transfer between Two Coaxially Rotating Disks, Numerical Heat Transfer, Part A,
Vol. 39, pp. 285-305, (2001).
117. R. Vasudevan, V. Eswaran, and G. Biswas, Winglet Type Vortex Generators for Plate-Fin
Heat Exchangers Using Triangular Fins, Numerical Heat Transfer, Part A, Vol. 38, pp. 533-
555, (2000).
118. A.K. Saha, K. Muralidhar,and G. Biswas, Experimental Study of Flow Past a Square
Cylinder at High Reynolds Numbers, Experiments in Fluids, Vol. 29, pp. 553-563, (2000).
119. P.K. Maji and G. Biswas, Analysis of Flow in the Plate-Spiral of a Reaction Turbine Using a
Streamline Upwind Petrov-Galerkin Method, International Journal for Numerical Methods in
Fluids, Vol. 34, pp. 113-144, (2000).
120. A.K. Saha, K. Muralidhar,and G. Biswas, Transition and Chaos in Two-Dimensional Flow
Past a Square Cylinder, Journal of Engineering Mechanics (ASCE), Vol. 126, pp. 523-532,
(2000).
121. A.K. Saha, G. Biswas and K. Muralidhar, Numerical Study of the Turbulent Unsteady Wake
Behind a Partially Enclosed Square Cylinder using RANS, Computer Methods in Applied
Mechanics and Engineering, Vol. 178, pp. 323-341, (1999).
122. T. Cziesla, G. Biswas and N.K. Mitra, Large Eddy Simulation in a Turbulent Channel Flow
Using Exit Boundary Conditions, International Journal for Numerical Methods in Fluids, Vol.
30, pp. 763-773, (1999).
123. P.K. Maji and G. Biswas, Analysis of Flow in the Spiral Casing Using a Streamline Upwind
Petrov-Galerkin Method, International Journal for Numerical Methods in Engineering, Vol.
45, pp. 147-174, (1999).
124. A.K. Saha, G. Biswas, and K. Muralidhar, Influence of Inlet Shear on the Structure of
Wake behind a Square Cylinder, Journal of Engineering Mechanics (ASCE), Vol. 125, pp.
359-363, (1999).
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125. A.K. Saha, K. Muralidhar,and G. Biswas, Vortex Structures and Kinetic Energy Budget in
Two-Dimensional flow Past a Square Cylinder, Computers and Fluids , Vol. 29, pp. 669-
694, (2000).
126. A.A. Bastani Jahromi, N.K. Mitra and G. Biswas, Numerical Investigations on
Enhancement of Heat Transfer in a Compact Fin-and-Tube Heat Exchanger Using Delta
Winglet Type Vortex Generators, Enhanced Heat Transfer, Vol.6, pp. 1-11, (1999).
127. S. Singh, G. Biswas, and A. Mukhopadhyay, Effect of Thermal Buoyancy on the Flow
through a Vertical Channel with a built-in Circular Cylinder, Numerical Heat Transfer, Part A,
Vol. 34, pp. 769-789, (1998).
128. P.K. Maji and G. Biswas, Three-dimensional Analysis of Flow in the Spiral Casing of a
Reaction Turbine using a Differently Weighted Petrov Galerkin Method, Computer Methods
in Applied Mechanics and Engineering, Vol. 167/ 1-2, pp 167-190, (1998).
129. G. Biswas, V. Eswaran, G. Ghai and A. Gupta, A Numerical Study on Flow Through the
Spiral Casing of a Hydraulic Turbine, International Journal for Numerical Methods in Fluids,
Vol. 28, pp. 143-156, (1998).
130. B.L. Owsenek, T. Cziesla, N.K. Mitra and G. Biswas, Numerical Investigation of Heat
Transfer in Impinging Axial and Radial Jets with Superimposed Swirl, International Journal of
Heat and Mass Transfer, Vol. 40, pp. 141-147, (1997).
131. H. Laschefski, T. Cziesla, G. Biswas and N.K. Mitra, Numerical Investigation of Heat
Transfer by Rows of Rectangular Impinging Impinging Jets, Numerical Heat Transfer, Part A,
vol. 30, pp. 87 - 101, (1996).
132. G. Biswas, K. Torii, D. Fujii and K. Nishino, Numerical and Experimental Determination of
Flow Structure and Heat Transfer Effects of Longitudinal Vortices in a Channel Flow,
International Journal of Heat and Mass Transfer, vol. 39, pp. 3441-3451, (1996).
133. P. Deb, G. Biswas and N.K. Mitra, Heat Transfer and Flow Structure in Laminar and
Turbulent Flows in a Rectangular Channel with Longitudinal Vortices, International Journal of
Heat and Mass Transfer, vol. 38, pp. 2427-2444, (1995).
134. S. Chakraborty, S.P.Sengupta and G. Biswas, Fluid Flow and Heat Transfer in a
Laminar Radial Impinging Jet, Int. Journal of Numerical Methods for Heat and Fluid Flow,
vol. 4, pp. 173-185, (1994).
135. F. Potthast, H. Laschefski, N.K. Mitra and G. Biswas, Numerical Investigation of Flow
Structure and Mixed Convection Heat Transfer of Impinging Radial and Axial Jets, Numerical
Heat Transfer, Part-A, vol. 26, pp 123-140, (1994).
136. G. Biswas, N.K. Mitra and M. Fiebig, Heat Transfer Enhancement in Fin-Tube Heat
Exchangers by Winglet Type Vortex Generators, International Journal of Heat and Mass
Transfer, vol.37, pp. 283-291, (1994).
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140. G. Biswas and H. Chattopadhyay, Heat Transfer in a Channel Flow with Built-in Wing-Type
Vortex Generators, International Journal of Heat and Mass Transfer, vol. 35, pp. 803-814,
(1992).
141. G. Biswas, H. Laschefski, N.K. Mitra and M. Fiebig, Numerical Investigation of Mixed
Convection Heat Transfer in a Horizontal Channel with a Built-in Square Cylinder, Numerical
Heat Transfer - Part A, vol. 18, pp. 173-188, (1990).
142. G. Biswas, N.K. Mitra and M. Fiebig, Computation of Laminar Mixed Convection Flow in a
Channel with Wing-Type Built-in Obstacles, Journal of Thermophysics and Heat Transfer
(AIAA), vol. 3, pp. 447-453, (1989).
143. G.Biswas, N.K.Mitra and M.Fiebig, Mixed Convection Flows in a Channel with a Vortex
Generator, ZAMM, vol. 69, pp. T 643-645, (1989).
145. P. Mukherjee, G.Biswas and P.K.Nag, Second Law Analysis of Heat Transfer in Swirling
Flow through a Cylindrical Duct, Journal of Heat Transfer (Trans ASME),vol. 109, pp. 308-
313,(1987).
146. G. Biswas, P.K. Nag and A.S.Gupta, Heat Transfer in a Corner Flow, Warme und
Stoffubertragung, vol. 21, pp. 13-14, (1987).
147. S.K. Som and G. Biswas, Dispersion of Spray from Swirl Nozzles, Chemical Engineering
and Processing, vol. 20, pp. 191-200, (1986).
148. G. Biswas and S. K. Som, Coefficient of Discharge and Spray Cone Angle of a Pressure
Nozzle with Combined Axial and Tangential Entry of Power-Law Fluids, Applied Sci Res, vol.
43, pp. 3-22, (1986).
149. G. Biswas, S. K. Som and A. S. Gupta, Instability of a Moving Cylindrical Liquid Sheet,
Journal of Fluids Engineering (ASME), vol. 107, pp. 451-454, (1985).
150. S. K. Som and G. Biswas, Convective Heat Transfer in a Superimposed Streaming and
Swirling Flow Through a Cylindrical Duct, Warme und Stoffubertragung, vol.19, pp. 31-39,
(1985).
151. S. K. Som and G. Biswas, Initiation of Air Core in a Swirl Nozzle Using Time-Independent
Power-Law Fluids, Acta Mechanica, vol. 51, pp. 179-197, (1984).
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152. T. Cziesla, H. Braun. G. Biswas and N.K. Mitra, Large Eddy Simulation in a Channel with
Exit Boundary Conditions, ICASE Report No. 96-18, NASA Contract No. NASI-19480, Langley
Research Center, Hampton, Virginia, USA, (1996)
153. K Arul Prakash, B V Rathish Kumar and G Biswas, A Numerical Study of the Target
System of an ADSS with Different Flow Guides, PRAMANA, Vol. 68, pp. 365-376, (2007).
154. G. Biswas, Heat Transfer and Fluid Mechanics related to Turbulent Flow, Annals of the
Indian National Academy of Engineering, Vol. II, pp. 19-25, (2005).
155. G. Biswas and P. Deb, Heat Transfer and Flow Structure in a Turbulent Channel flow with
Embedded Longitudinal Vortices, Journal of Energy Heat and Mass Transfer, Vol. 22, pp.
141-148, (2000).
156. A.K.Saha, and G.Biswas, Application of a Multigrid Method for Flows Behind Bluff Bodies
in a Channel, Journal of Institution of Engineers (Aerospace), Vol. 77, pp. 13-21, (1996).
158. G.Biswas, N. K. Mitra, and M. Fiebig, Computation of Laminar Mixed Convection Flows in
a Duct with a Built-in Wing Generator, Journal of Energy Heat and Mass Transfer, Vol. 13,
pp. 47-55, (1991).
159. A. K. Chattopadhyay, D. N. Roy and G. Biswas, Radial Flow of a Viscous Fluid Between
Two Co axially Rotating Discs, Indian Journal of Technology, Vol. 29, pp. 221-227, (1991).
(d) BOOKS:
1. Two Major Chapters in “Computational Fluid Flow and Heat Transfer” , Edited by K.
Muralidhar and T. Sundararajan under the auspices of IIT Kanpur Series, Narosa, India (1995),
Revised Edition (2003).
2. K. Muralidhar and G. Biswas, Advanced Engineering Fluid Mechanics , Narosa, New Delhi
and London (1996).
3. G. Biswas, S. Srinivasa Murthy, K. Muralidhar and V.K. Dhir, Heat and Mass Transfer 97,
Proceedings of the Third ISHMT-ASME Heat and Mass Transfer Conference and 14th National
Heat and Mass Transfer Conference-IIT Kanpur, Narosa, New Delhi and London (1997).
4. S.K. Som and G. Biswas, Introduction to Fluid Mechanics and Fluid Machines, Tata McGraw-
Hill Publishing Company, New Delhi, 1998.
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6. S.K. Som and G. Biswas, Introduction to Fluid Mechanics and Fluid Machines, Second
Edition, Tata McGraw-Hill Publishing Company, New Delhi, 2004.
8. S.K. Som, G. Biswas and S. Chakraborty, Introduction to Fluid Mechanics and Fluid
Machines, Third Edition, Tata McGraw-Hill Publishing Company, New Delhi, 2011
9. G. Biswas, K.L. Chopra, C.J. Jha and D.V. Singh, Profile of Engineering Education in
India: Status, Concerns and Recommendations, Indian National Academy of Engineering
and Narosa, 2010
11. G. Biswas, A. Dalal and V.K. Dhir, Fundamentals of Convective Heat Transfer, CRC
Press (Taylor and Francis Group), Boca Raton, Florida, USA, 2019
1. Created Web-based Course on Fluid Mechanics for the sophomore students (under the
auspices of MHRD sponsored NPTEL-I Project)
2. Created Web-based Course on Fluid Machinery for the senior students (under the
auspices of MHRD sponsored NPTEL-I Project)
3. Created Web-based Course on Thermodynamics for the senior students (under the
auspices of MHRD sponsored NPTEL-I Project
4. Created Web-based Course on Turbulence for the senior students (under the auspices of
MHRD sponsored NPTEL-I Project
5. Created Web-based Course on Computational Fluid Mechanics and Heat Transfer for
the post-graduate and advanced undergraduate students (under the auspices of MHRD
sponsored NPTEL-II Project
6. Created Web-based Course on Convective Heat and Mass Transfer for the post-graduate
and advanced undergraduate students (under the auspices of MHRD sponsored NPTEL-II
Project
D. PROJECTS:
SPONSORED RESEARCH:
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3. Noise Removal, Three Dimensional Reconstruction and Data Retrieval for Optical Images of
Stratified Fluids, Sponsored by Department of Science and Technology (New Delhi), India;
Other Investigators: Dr. K. Muralidhar (Completed).
4. Modeling and Simulation of Enhanced Oil Recovery using Parallel Computers, Department of
Science and Technology (New Delhi), India; Other Investigators: Dr. K. Muralidhar
(Completed).
5. Unsteady Separated Flow in the Wake of a Square Cylinder in a Channel: Numerical and
Experimental Study, AR& DB, India (Completed).
7. CFD Code for Thermal Hydraulics of Neutron Spallation Target for Accelerator Driven Sub-
critical System, Other Investigators: Dr. B.V. Rathish Kumar, BRNS (Mumbai), India,
(Completed).
8. Large Eddy Simulation of Flows in a Rectangular Channel with a Built-in Winglet Pair,
AR&DB, India (Completed).
9. Development of a Computer Code on Pressure Based Solvers for the NS Equations, Fluent-
India (Completed).
10. Numerical Simulation of Heterogeneous Bubble Growth (MHRD, R&D), India (Completed).
11. Numerical and Experimental Studies on Boiling Heat Transfer for Improved Heat
Exchangers sponsored by (DAAD-DST Project based Exchange Programme) (Completed).
CONSULTING:
1. Analysis and Modified Design of Water Cooled Roof Panels at EOF for Steel Making,
Sponsored by TISCO (Jamshedpur), India; Other Investigators: Dr. P.M.Dixit and Dr. Amitabha
Mukherjee.
2. Environmental Control System Analysis for the LCA, Sponsored by HAL (Lucknow), India;
Other Investigators: Dr.S.G.Dhande, Dr. S. Mukherjee.
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3. Development of Design Methodology & CAD Software for Centrifugal Blowers Sponsored by
Singhasini Machines (Kanpur), India; Other Investigators: Dr. S.G. Dhande.
4. Analysis of KADECS Vapour Core Pump, Sponsored by HAL (Lucknow), India; Other
Investigators: Dr. P.M. Dixit.
5. Vetting of Computational Fluid Dynamic Analysis of a Hydro Turbine Runner Flow Profiles
thereby validating its Design (BHEL Bhopal, India), other investigators: Dr. Amaresh Dalal
E. TEACHING:
EXPERIENCE:
Dec 95 – Date: Professor, Mechanical Engineering, Indian Institute of Technology,
Kanpur, 208016, India
Sept 2013 – June 2019: Director and Professor, Indian Institute of Technology Guwahati,
Guwahati – 781039, India
Mar 93 - Dec 95: Associate Professor, Mechanical Engineering, Indian Institute of
Technology, Kanpur (U.P.) 208016, India
May 90- Mar 93: Assistant Professor, Mechanical Engineering, Indian Institute of
Technology, Kanpur (U.P.) 208016, India
Jan 84- Apr 90: Lecturer, Dept of Mechanical Engineering, Indian Institute of
Technology, Kharagpur (W.B.) 721302, India
May 08 – June 08: Visiting Professor, Dept of Mechanical and Materials Engineering,
University of Western Ontario, Canada
Nov 2008 Visiting Professor, ENSAM, Angers, France
Dec 01 – Oct 02: Guest Professor at the LSTM, University of Erlangen-Nuremberg,
Germany
July 94 - Dec 94: JSPS Visiting Scientist, Dept of Mech Engg, Yokohama National
University, Japan
July 92- Dec 92: Alexander von Humboldt Fellow, Inst fur Thermo und Fluiddynamik,
Ruhr Universitat Bochum, Germany
Feb 87- Nov 88: Alexander von Humboldt Fellow, Inst fur Thermo und Fluiddynamik,
Ruhr Universitaet Bochum, Germany
May 1999: Visiting Scientist at the Inst fur Thermo und Fluiddynamik,
Ruhr Universitaet Bochum, Germany (under INSA-DFG programme)
Courses Taught:
Indian Institute of Technology Kharagpur
Basic Fluid Mechanics (UG, core level)
Advanced Fluid Mechanics (UG, professional)
Fluid Mechanics (Post Graduate level)
Applied Thermodynamics (UG, professional)
Measurements and Controls (UG, professional)
Computational Methods in Thermal Engineering (Post Graduate level)
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F. PERSONAL INFORMATION:
Education:
Sex: Male
Marital Status: Married
Children: One daughter
Nationality: Indian (Passport Number Z4583100)
G. ADMINISTRATION:
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H. GUIDANCE:
2. P. Deb, Three Dimensional Computation of Laminar and Turbulent Flows with Heat
Transfer in a Channel with Built-in Longitudinal Vortex Generators, Dept of
Mechanical Engineering, Indian Institute of Technology, Kanpur-208016, April, 1994
(Present email address: pdeb@wsuhub.uc.twsu.edu).
7. Shaligram Tiwari, Application of Vortex Generators and the Tubes of Different Shapes
to Enhance Performance of Fin-tube Heat Exchangers Dept of Mechanical Engineering,
Indian Institute of Technology, Kanpur-208016, February, 2004 (Present email address:
shaligt@iitm.ac.in).
8. K Arul Prakash, Finite Element Analysis of Flow and Heat Transfer Characteristics in
the Spallation Target Module of an Accelerator Driven Sub-critical System, Dept of
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12. Subhankar Sen, Flow Past Stationary and Vibrating Cylinders of Various Cross-
Sections at Low Reynolds Numbers, Department of Mechanical Engineering, Indian
Institute of Technology, Kanpur-208016, June 2010 (Present email address:
subhankars@gmail.com)
14. Bahni Ray, Free Surface Flows in Drop Impact and Microchannel Electrokinetics,
Department of Mechanical Engineering, Indian Institute of Technology, Kanpur-208016,
February 2012 (Present email address: bray@iitk.ac.in)
15. Pankaj Saha, Analysis of flow and heat transfer in a channel with periodically placed
built-in vortex generators in laminar and turbulent regimes, Department of Mechanical
Engineering, Indian Institute of Technology, Kanpur-208016, May 2013 (present email
address: (pankajonline2@gmail.com).
16. Abhiram Hens, A Study on Phase Change and Instabilities using Continuum and
Molecular Dynamics Simulations, Academy of Scientific and Innovative Research
(AcSIR), New Delhi-Chennai, May 2016 (Present email: hens.abhiram@gmail.com).
17. Anupam Sinha, Analysis of Fluid Flow & Heat Transfer in the representative
modules of heat exchangers, Department of Mechanical Engineering, Jadavpur
University, Kolkata, December 2016 (Present email: anupam_cmeri@yahoo.com)
18. Ravi Kumar Arun, Paper based Microfluidics for Enhanced Mixing and Energy Conversion,
Academy of Scientific and Innovative Research (AcSIR), New Delhi-Chennai, November, 2017
(Present email: rarun.iitk@gmail.com ).
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19. Vinod Pandey, Dynamics of vapor bubbles and associated heat transfer in various
regimes of boiling, Indian Institute of Technology Guwahati, July, 2018 (email:
pandeyvinod4@gmail.com).
20. Hiranya Deka, Analysis of Free Surface Flows in Formation, Coalescence and
Impact of Drops on Liquid Surfaces, Indian Institute of Technology Guwahati,
September, 2018 (email: hiranyadeka.mech@gmail.com).
21. Manash PratimM Borthakur, Dynamics of two immiscible and miscible fluids in two
component flows, Indian Institute of Technology Guwahati, April, 2019 (email:
manash.pborthakur@gmail.com).
22. Binita Nath, Migration of liquid drops through narrow passages and flow dynamics of
cancer cells through constricted microchannel, Indian Institute of Technology Guwahati,
May, 2019 (email: nath.bini@gmail.com)
6. A.K.Saha, A Multigrid Method for Two and Three Dimensional Flows Behind Bluff
Bodies in a Channel, Dept of Mechanical Engineering, IIT Kanpur, June 1994.
10. Sriraj K. Bhadra, Reconstruction of the Temperature Fields Using Mach Zehnder
Interferometer, Dept. Mechanical Engineering, IIT Kanpur, April, 1997.
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12. Bipin. S. Lokhande, Numerical Simulation of Turbulent Flow Past a Backward Facing
Step and Through a Parallel Plate Channel, Dept. Mechanical Engineering, IIT Kanpur,
March 1997.
14. Veerabathra Swamy K., Numerical Investigation of Heat Transfer and Passive
Control of Vortex Shedding in the Wake of a Circular Cylinder, Dept. Mechanical
Engineering, IIT Kanpur, May 1997.
15. Suresh Singh, The Effect of Thermal Buoyancy in the Mixed Convective Flows
through a Vertical Channel with a Built-in Circular Cylinder, Dept. Mechanical
Engineering, IIT Kanpur, April 1998.
16. Partha Pratim Mukherjee, Enhanced Oil Recovery from Porous Formation, Dept.
Mechanical Engineering, IIT Kanpur, April 1999.
17. Meena Singh, Flow and Heat Transfer Characteristics in a Three Dimensional
Ribbed Channel, Dept. Mechanical Engineering, IIT Kanpur, February, 2000.
19. Vivek Rajan Singh, Experimental Studies on Flow around Circular Cylinder, Dept.
Mechanical Engineering, IIT Kanpur, December, 2000.
20. Sudipta Basu, Flow and Heat Transfer in a Crossflow past a Circular Tube placed in
a Channel, Dept. Mechanical Engineering, IIT Kanpur, February 2001.
21. P.L.N. Prasad, Enhancement of Heat Transfer in a Fin-Tube Heat Exchanger using
Winglets in Common-Flow-Down Arrangement, Dept. Mechanical Engineering, IIT
Kanpur, October, 2001.
22. Y. Srinivas, Large-eddy Simulation of High Reynolds Number Turbulent Flow Past a
Square Cylinder, Dept. Mechanical Engineering, IIT Kanpur, December 2001.
24. Dalton Maurya, Enhancement of Heat Transfer using Oval Tube and Vortex
Generators, Dept. Mechanical Engineering, IIT Kanpur, December, 2001.
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25. Suman Basu, Analysis of Flow Structure and Heat Transfer in Tube Banks and a
Tube in Rotating Configuration, Dept. Mechanical Engineering, IIT Kanpur, February
2003.
26. Debadi Chakraborty, Influence of an Integral Splitter Plate and an Annular Fin on
Heat and Momentum Transport for the Case of Flow Past a Tube, Dept. Mechanical
Engineering, IIT Kanpur, February 2003.
27. Deepak K. Agarwal, Planar Simulation of Bubble Growth in Film Boiling Using a
Variant of VOF Method, Dept. Mechanical Engineering, IIT Kanpur, May 2004.
28. Somnath Roy, Large Eddy Simulation of Flow and Heat Transfer in a Channel with
Embedded Longitudinal Vortices, Dept. Mechanical Engineering, IIT Kanpur, May 2004.
29. Santanu De, Finite Element Analysis of Flow and Heat Transfer in a Complex ADSS
Geometry, Dept. Mechanical Engineering, IIT Kanpur, May 2004.
30. Akshika Maheshwari, Flow Over a Single and Multiple Spheres: Drag and Heat
Transfer, Dept. Chemical Engineering, IIT Kanpur, May 2004.
32. Siddhartha Pal, Laminar and Turbulent Analysis of Flow and Heat Transfer in the
Spallation Region of the Target System, Dept. of Mechanical Engineering, IIT Kanpur,
May 2005.
33. Hemant Kumar Patel, Thermal Hydraulics Analysis of Liquid Metal Cooled Fast
Breeder Reactors, Dept. of Mechanical Engineering, IIT Kanpur, May 2006.
34. G. S. Chaitanya, Large Eddy Simulation of Flow and Heat Transfer in a Channel with
a Built-in Winglet Pair, Dept. of Mechanical Engineering, IIT Kanpur, May 2006.
35. Prakash C. Rastogi, Flow and Heat Transfer in a Ribbed Channel, Dept. of
Mechanical Engineering, IIT Kanpur, May 2006.
36. Ram Ranjan, Fluid Flow and Heat Transfer around a Square Cylinder at Incidence
Using Unstructured Grids, Dept. Mechanical Engineering, May 2007.
37. N. Senthil Kumar, Finite Element Analysis of the Onset of Vortex Shedding in Flow
Past a Circular Cylinder, Dept. Mechanical Engineering, IIT Kanpur, May 2007.
38. Ajoy Patra, Electrostatic and Intermolecular Interaction Induced Instabilities in Thin
Viscoelastic Films, Dept. Mechanical Engineering, IIT Kanpur, May 2007.
40. S. Sarkar, Effect of Buoyancy on Vortex Shedding Past a Circular Cylinder in Cross
Flow at Low Reynolds Numbers, May 2008.
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41. S. Kushwaha, Lattice Boltzmann Simulation for Flow Past Single and Multiple
Square Cylinders, May 2008.
45. Prateek Sharma, Flow and Heat Transfer past a Bluff Body and Ribbed Channel with Lattice
Boltzmann Modeling, IIT Kanpur, April 2011
47. Pabitra Ghorai, Numerical Simulation of Bulb Turbine using Two equations Turbulent Model,
IIT Guwahati, June 2016.
48. Dhrubajyoti Das, Flow Analysis of Gas Bubbles and Metastatic Cancer Cells in Capillary Tubes
and Microchannels, Indian Institute of Technology Guwahati, June 2017
49. D.N. Sarkar, Fabrication of Valve less Micropump and Drop Formation in Microchannel, Indian
Institute of Technology Guwahati, July 2017
50. Vishal Sethi, Comparative studies of migration and deformation profiles of HeLa, MCF-7 and
MDAMB-231 cells in constricted microchannel, Indian Institute of Technology Guwahati, June
2018.
51. Nihal V Khandhar, Numerical Investigation of route to Chaos in radial impinging jet, Indian
Institute of Technology Guwahati, June 2018.
53. Vikash Kumar, Epithelial –Mesenchymal Transition of Metastatic Tumor Cells and Their
Deformation in Constricted Microcapillary, Indian Institute of Technology Guwahati, June 2019.
54. Kishan Kumar Singh, Numerical Modelling of Microbial Fuel Cell, Indian Institute of Technology
Guwahati, June 2019.
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