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International Journal Publications 

2022

99.    Bhattacharya, S., M, Kiran Raj, Priyadarshani, J., Ganguly, R., Chakraborty, S., “Targeting Magnetic Nanoparticles in Physiologically Mimicking Tissue Micro-environment,” ACS Applied Materials & Interfaces, Accepted for publication, 2022.

98.      Dutta, A., Santa, A.K., Ganguly, R., “Non-linear temperature gradient focusing of DNA in a microfluidic channel with patterned surface charges: a numerical approach,” Journal of Thermal Science and Engineering Applications, Accepted for Publication, 2022.

97.     Das, C., Halder, S, Datta, A., Ganguly, R., “Influence of surface wettability on the transient characteristics of vapor condensation from humid air,” Accepted for publication in Experimental Heat Transfer. 2022. https://doi.org/10.1080/08916152.2022.2086945

96.     Das, P.K., Mallik, A.K., Hossain, A., Santra, A.K., Ganguly, R., Saha, A., Kumar, S., Aswal, V.K., “Experimental investigation for stability and surface properties of TiO2 and Al2O3 water based nanofluids,” Journal of Thermal Analysis and Calorimetry. 147, pp. 5617–5635, 2022.

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2021

95.     Moitra, S., Roy, T., Ganguly, R., Megaridis, C.M., “Jet impact on superhydrophobic metal mesh,” Langmuir, 37(9), pp. 2891-2899, 2021.

94.     Das, C., Gupta, R., Halder, S, Datta, A., Ganguly, R., “Filmwise condensation from humid air on a vertical superhydrophilic surface: explicit roles of the humidity ratio difference and the degree of subcooling,” Journal of Heat Transfer, Transactions of ASME, 143(6): 061601 (1—9), 2021.

93.    Dutta, A., Santra, A.K., Ganguly, R., “Microfluidic concentration enhancement of bio-analyte by temperature gradient focusing via Joule heating by DC plus AC field: A numerical approach,” Journal of Thermal Science and Engineering Applications, 13 (6), 061002, 2021, https://doi.org/10.1115/1.4050415.

92.    Sarkar, S., Roy, T., Roy, A., Moitra, S., Ganguly, R., Megaridis, C.M., “Revisiting the Supplementary Relationship of Dynamic Contact Angles Measured by Sessile-Droplet and Captive-Bubble Methods: Role of Surface Roughness,” Journal of Colloid & Interface Science, 581, pp. 690–697, 2021.

91.    Das, M., Ganguly, R., Datta, A., Verma, M.M., Bera, A.K., "Performance improvement of a domestic Liquefied Petroleum Gas cook stove using an extended spill-tray and an annular metal insert," Journal of Thermal Science and Engineering Applications, 13(2), pp.  021016 (1—10), 2021

 

2020

90.     Gukeh, M.J., Roy, T., Sen, U., Ganguly, R., Megaridis, C.M., “Lateral spreading of gas bubbles on submerged wettability-confined tracks,” Langmuir, 36 (40), pp. 11829-11835, 2020.

89.     Ghosh, R., Patra, C., Singh, P., Ganguly, R., Sahu, R.P., Zhitomirsky, I., Puri, I.K., “Influence of metal mesh wettability on fog harvesting in industrial cooling towers,” Applied Thermal Engineering, 181, pp. 115963 (1- 14), 2020

88.     Ray, S., Ganguly, R., “Evolution of nanoliter size fluid droplet on micropatterned surface,” Sãdhanã, 45, pp. 220 (1 – 10), 2020. https://doi.org/10.1007/ s12046-020-01461-8.

87.    Datta, A., Singh, V.K., Das, C., Halder, A., Ghoshal, D., Ganguly, R., “Fabrication and characterization of transparent, self-cleaning glass covers for solar photovoltaic cells.” Materials Letters, 277, pp. 128350(1—4), 2020.

86.     Sen, U., Roy, T., Ganguly, R., Angeloni, L.A., Schroeder W.A., Megaridis, C.M., "Explosive behavior during binary-droplet impact on superheated substrates,” International Journal of Heat and Mass Transfer, 154: pp. 119658, 2020

85.     Ghosh, R., Sahu, R.P., Ganguly, R., Zhitomirsky, I., Puri, I.K., “Photocatalytic activity of electrophoretically deposited TiO2 and ZnO nanoparticles on fog harvesting meshes,” Ceramics International, 46: pp. 3777 – 3785, 2020

84.     Dey, S., Das, M., Ganguly, R., Datta, A., "Computational fluid dynamic analyses of flow and combustion in a domestic LPG cook stove burner: Part I – Design optimization of mixing tube-burner assembly," Journal of Thermal Science and Engineering Applications, Transactions of ASME, 12:  pp.  031010(1-7), 2020. 

83.     Das, M., Ganguly, R., Datta, A., Verma, M.M., Bera, A.K., "Computational fluid dynamic analyses of flow and combustion in a domestic LPG cook stove burner: Part II – Burning characteristics and overall performance," Journal of Thermal Science and Engineering Applications, Transactions of ASME, 12: pp. 031011(1-8), 2020.

82.     Ghosh, R., Ganguly, R., “Fog harvesting from cooling towers using metal mesh: Effects of aerodynamic, deposition and drainage efficiencies,”  Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 234, pp. 994 – 1014, 2020

 

2019

81.     Sen, U., Roy, T., Chatterjee, S., Ganguly, R., Megaridis, C.M., “Post-impact behavior of a droplet impacting on a permeable metal mesh with a sharp wettability step,” Langmuir, 35: pp. 12711-12721, 2019.

80     Gupta, R., Das, C., Datta, A., Ganguly, R., “Background oriented Schlieren (BOS) imaging of condensation from humid air on wettability-engineered surfaces,” Experimental Thermal and Fluid Science, 109:  pp. 109859, 2019.

79.     Sen, U., Chatterjee, S., Crockett, J., Ganguly, R., Yu, L., Megaridis, C.M., “Orthogonal liquid-jet impingement on wettability-patterned impermeable substrates,” Physical Review Fluids, 4: pp. 014002, 2019.

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2018

78.     Koukoravas, T.P., Ghosh, A., Mahapatra, P.S., Ganguly, R., Megaridis, C.M., "Wettability-confined liquid-film convective cooling: Parameter study." International Journal of Heat and Mass Transfer, 126: pp. 667-676, 2018.

77.     Chatterjee, S., Mahapatra, P.S., Ibrahim, A., Ganguly, R., Yu, L., Dodge, R., Megaridis, C.M., Precise liquid transport on and through thin porous materials, Langmuir, 34: pp. 2865-2875, 2018.

76.     Sen, U., Chatterjee, S., Ganguly, R., Dodge, R., Yu, L., Megaridis, C.M., Scaling laws in directional spreading of droplets on wettability-confined diverging tracks, 34: Langmuir, pp. 1899–1907, 2018.

75.     Sen, U., Chatterjee, S., Mahapatra, P.S., Ganguly, R., Dodge, R., Yu, L., Megaridis, C.M., Surface-wettability patterning for distributing high-momentum water jets on porous polymeric substrates, ACS Applied Materials & Interfaces, 10: pp. 5038-5049, 2018

74.     Das, P.K., Mallick, A.K., Ganguly, R., Santra, A.K., “Stability and thermophysical measurements of TiO2 (anatase) nanofluids with different surfactants,” Journal of Molecular Liquids, 254: pp. 98-107, 2018.

73.     Gupta, T., Ghosh, R. and Ganguly, R., “Acoustophoretic separation of infected erythrocytes from blood plasma in a microfluidic platform using biofunctionalized, matched-impedance layers,” International Journal for Numerical Methods in Biomedical Engineering, 34(4):e2943, 2018, doi: 10.1002/cnm.2943

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2017

72.     Morrissette, J.M., Mahapatra, P.S., Ghosh, A., Ganguly, R., Megaridis, C.M., “Rapid, self-driven liquid mixing on open-surface microfluidic platform,” Scientific Reports, 7, Article number: 1800 , 2017.

71.    Das, P.K., Islam, N., Santra, A.K., Ganguly, R., “Experimental investigation of thermophysical properties of al2o3–water nanofluid: role of surfactants,” Journal of Molecular Liquids, 237: pp. 304-312, 2017.

70.     Zhang, B. J.,  Ganguly, R.,  Kim, K.J., Lee, C.Y., “Control of pool boiling heat transfer through photo-induced wettability change of titania nanotube arrayed surface,” International Communications in Heat and Mass Transfer, 81: pp. 124 – 130, 2017

69.     Samanta, A., Modak, N., Datta, A., Ganguly, R., “Separation of magnetic beads in a hybrid continuous flow microfluidic device," Journal of Magnetism and Magnetic Materials, 427: pp. 300 – 305, 2017.

68.     Sen, U., Chatterjee, S., Sen, S., Tiwari, M.K., Mukhopadhyay, A., Ganguly, R., "Dynamics of magnetic modulation of ferrofluid droplets for digital  microfluidic applications," Accepted for publication in Journal of Magnetism and Magnetic Materials, 421: pp. 165 – 176, 2017.

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2016

 

67.     Chakraborty, D., Dutta, S., Chakraborty, N., Ganguly, R., “Magnetically actuated transport of ferrofluid droplets over micro-coil array on a digital  microfluidic platform,” Sensors & Actuators: B. Chemical, 236: pp. 367-377, 2016.

66.     Samanta, A., Modak, N., Datta, A., Ganguly, R., “Operating regimes of a magnetic split‑flow thin (SPLITT) fractionation microfluidic device for  immunomagnetic separation," Microfluidics and Nanofluidics, 20: 87, 2016, DOI 10.1007/s10404-016-1751-0.

65.     Das, P.K., Mallik, A.K., Ganguly, R., Santra, A.K., “Synthesis and Characterization of TiO2-Water Nanofluids with Different Surfactants,” International  Communications in Heat and Mass Transfer, 75: pp 341–348, 2016.

64.     Koukoravas, T.P., Ghosh, A., Mahapatra, P.S., Ganguly, R., Megaridis, C.M., “Spatially-selective cooling by liquid jet impinging orthogonally on a  wettability-patterned surface,” International Journal of Heat and Mass Transfer, 95: pp. 142-152, 2016.

63.     Mahapatra, P.S., Ghosh, A., Ganguly, R., Megaridis, C.M., "Key design and operating parameters for enhancing dropwise condensation through  wettability patterning," International Journal of Heat and Mass Transfer, 92: pp.  877–883, 2016.

 

2015

62.     Ghosh, R., Ray, T.K., Ganguly, R., “Cooling tower fog harvesting in power plants - A pilot study,” Energy, 89: pp. 1018-1028, 2015.

61.     Patra, J., Ghosh, P., Datta, A., Das, M., Ganguly, R., Sen, S., Chatterjee, S., Studies of combustion characteristics of kerosene ethanol blends in an  axi-symmetric combustor, Fuel,  144: pp. 205–213, 2015.

60.    Modak, N., Datta, A., Ganguly, R., “Immunomagnetic Separation and Transport of Magnetic Beads in Microfluidic Field Flow Fractionation Devices for Bio-MEMS Application,” Procedia Engineering, 127: pp. 1243–1249, 2015.

      

2014

59.     Ghosh, A., Beaini, S., Zhang, B.- J., Ganguly, R., Megaridis, C.M., “Enhancing dropwise condensation through bioinspired wettability patterning,”  Langmuir, 30 (43): pp. 13103-13115, 2014.

58.     Song, J., Huang, S., Lu, Y., Bu, X., Mates, J.E., Ghosh, A., Ganguly, R., Carmalt, C.J., Parkin, I.P., Xu, W., Megaridis, C.M., "Self-Driven One-Step Oil  Removal from Oil Spill on Water via Selective-Wettability Steel Mesh," ACS Applied Materials & Interfaces, 6 (22): pp. 19858-19865, 2014.

57.  Attinger, D., Frankiewicz, C., Betz, A., Schutzius, T. M., Ganguly, R., Das, A., Kim, C.-J., Megaridis, C.M., “Surface Engineering for Phase Change  Heat Transfer: A Review,” MRS Energy and Sustainability, 1: pp. E4(1-40), 2014.

56.     Ghosh, A., Ganguly, R., Schutzius, T., Megaridis, C.M., “Wettability patterning for high-rate, pumpless fluid transport on open, non-planar microfluidic  platforms,” Lab on a Chip, 14(9): pp. 1538-1550, 2014.

55.     Puri, I.K., Ganguly, R., “Particle transport in therapeutic magnetic fields,” Annual Review of Fluid Mechanics, 46: pp.407 - 440, 2014.

54.     Bhattacharya, S., Dhar, P., Das, S.K., Ganguly, R., Webster, T.J., Nayar, S., “Colloidal graphite/graphene nanostructures using collagen showing  enhanced thermal conductivity,” International Journal of Nanomedicine, 9: pp. 1287 – 1298, 2014.

53.     Bose, S., Datta, A., Ganguly, R., Banerjee, M., “Lagrangian magnetic particle tracking through stenosed artery under pulsatile flow condition,” ASME  Journal of Nanotechnology in Engineering and Medicine, 4(3): p. 031006, 2014.

 

2013

52.     Sinha, A., Mollah, A.K., Hardt, S., Ganguly, R., “Particle dynamics and separation at liquid-liquid interface,” Soft Matter, 9: pp. 5438 - 5447, 2013.

51.     Modak, N., Datta, A., Ganguly, R., “Influence of microchannel geometry on magnetophoretic separation of functionalized magnetic beads in a  microfluidic sorter and a field flow fractionation device,” Magnetohydrodynamics, 49 (3-4): pp. 391–396, 2013.

50.     Das, K., Sarkar, M., Mukhopadhyay, A., Ganguly, R., “Transient response of ferrofluid plug-driven micropump,” Magnetohydrodynamics, 49 (3-4): pp. 499–504, 2013.

49.     Ray, T.K., Ganguly, R., Gupta, A., “Optimal control strategy for minimization of exergy destruction in boiler superheater,” Energy Conversion and  Management, 66: pp. 234-245, 2013.

48.     Basak, A., Patra, J., Ganguly, R., Datta, A., “Effect of transesterification of vegetable oil on liquid flow number and spray cone angle for pressure and  twin fluid atomizers,” Fuel, 112: 347 - 354, 2013

 

2012

47.     Modak, N., Pal, A.R., Datta, A., Ganguly, R., “Bioseparation in a microfluidic channel using magnetic field flow fractionation,” International Journal of  Micro-Nano Scale Transport, 3: pp. 21 - 34, 2012.

46.     Banerjee, U., Bit, P., Ganguly, R., Hardt, S., “Aggregation dynamics of particles in a microchannel due to an applied magnetic field,” Microfluidics and  Nanofluidics, 13: pp. 565 – 577, 2012.

45.     Banerjee, M. K., Ganguly, R., Datta, A., “Effect of pulsatile flow waveform and Womersley number on the flow in stenosed arterial geometry,” ISRN  Biomathematics, 2012, 2012, Article ID 853056, 1 – 17, 2012

 

2011

44.     Pal, S., Datta, A., Mukhopadhyay, A., Sen, S., Bandyopadhyay, K., Ganguly, R., “Characterization of a ferrofluid-based thermomagnetic pump for  microfluidic applications,” Journal of Magnetism and Magneic Materials, 323 (21), pp. 2701-2709, 2011.

43.     Banerjee, S., Mukhopadhyay, A., Sen, S., Ganguly, R., “Effects of magnetization saturation on thermomagnetic convection in a locally heated square  enclosure,” Numerical Heat Transfer: Part A, 59 (9): pp. 693-718, 2011.

42.     Liangruksa, M., Ganguly, R., Puri, I.K., “Parametric investigation of heating due to magnetic fluid hyperthermia in a tumor with blood perfusion,”  Journal of Magnetism and Magnetic Materials, 323: pp. 708-716, 2011.

 

2010

41.  Modak, N., Datta, A., Ganguly, R., “Numerical Analysis of Transport and Binding of a Target Analyte and Functionalized Magnetic Microspheres in a  Microfluidic Immunoassay,” Journal of Physics D: Applied Physics, 43: pp. 485002(1-12), 2010.

40.  Kappiyoor, R., Liangruska, M., Ganguly, R., Puri, I.K., “The effects of magnetic nanoparticle properties on magnetic fluid hyperthermia,” Journal of  Applied Physics, 108: pp. 094702(1–8), 2010.

39.  Banerjee, M.K., Datta, A., Ganguly, R., “Magnetic drug targeting in partly occluded blood vessels using magnetic microspheres,” ASME Journal of  Nanotechnology in Engineering and Medicine, 1: pp. 041005 (1-9), 2010.

38.  Banerjee, M.K., Ganguly, R., Datta, A., “Hemodynamics in Stenosed Arteries–Effect of Stenosis Shapes,” International Journal of Computational  Methods, 7 (3): pp. 397-419, 2010.

37.  Banerjee, M.K., Ganguly, R., Datta, A. “Variation of wall shear stress and flow characteristics across cosine shaped stenotic model with flow Reynolds  number and degree of stenosis,” International Journal of Fluid Mechanics Research 37 (6): pp. 530-552, 2010.

36.  Ganguly, R., Hahn, T., Hardt, S., “Magnetophoretic mixing for in-situ immunochemical binding on magnetic beads in a microfluidic channel,”  Microfluidics and Nanofluidics, 8: pp. 739–753, 2010.

35.  Ganguly, R., Puri, I.K., “Microfluidic Transport in Magnetic MEMS and BioMEMS,” WIREs Nanomedicine & Nanobiotechnology, 2, pp. 382-399, 2010.

34.  Samanta, A., Ganguly, R., Datta, A., Effect of CO2 dilution on flame structure and soot and NO formations in CH4-air non-premixed flames, ASME  Journal of Engineering for Gas Turbine and Power, 132 (12): pp. 124501(1-5), 2010.

33.  Banerjee, S., Mukhopadhyay, A., Sen, S., Ganguly, R., “Effects of dipole position on thermomagnetic convection in a locally heated shallow enclosure:  thermodynamic and transport Analysis,” Numerical Heat Transfer: Part A, 57 (7): pp. 496-519, 2010.

32.  Ray, T.K., Datta, A., Gupta, A., Ganguly, R., “Exergy-based performance analysis for proper O&M decisions in a steam power plant,” Energy  Conversion and Management, 51 (6): pp. 1333-1344, 2010.

31.  Sinha, A., Ganguly, R., Puri, I.K., “Numerical investigation of flow-through immunoassay in a microchannel,” Journal of Applied Physics, 107: pp. 107 (3),  034907, 2010 (This article hass been selected for the February 15, 2010 issue of Virtual Journal of Biological Physics Research <http://www.vjbio.org>).

30.  Datta, A., Ganguly, R., Sarkar, L., “Energy and Exergy Analyses of an Externally Fired Gas Turbine (EFGT) Cycle Integrated with Biomass Gasifier for  Distributed Power Generation,” Energy, 35: pp. 341–350, 2010.

29.  Modak, N., Kejriwal, D., Nandy, K., Datta, A., Ganguly, R., “Experimental and Numerical Characterization of Magnetophoretic Separation for MEMS-  based Biosensor Applications,” Biomedical Microdevices, 12: pp. 23 – 34, 2010.

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2009

28.  Santra, A., Chakraborty, N., Ganguly, R., “Analytical evaluation of magnetic field by planar micro-electromagnet spirals for MEMS applications,”  Journal of Micromechanics and Microengineering, 19, pp. 085018(1-10), 2009.

27.  Banerjee, M., Ganguly, R., Datta, A., “Study on pressure drop and center line velocity distribution across cosine shaped stenotic model,” International  Journal of Fluid Mechanics Research, 36: pp. 319-342, 2009.

26.  Banerjee, M., Ganguly, R., Datta, A., “Effect of restriction and flow Reynolds number to study the variation of hemodynamic parameters across cosine  shaped stenotic model,” International Journal of Computational Methods, 6: pp. 199-228, 2009.

25.  Banerjee, S., Mukhopadhyay, A., Sen, S., Ganguly, R., “Thermomagnetic convection in square and shallow enclosures for electronics cooling,”  Numerical Heat Transfer: Part A, 55: pp. 931-951, 2009.

24.  Sinha, A., Ganguly, R., Puri, I.K., “Magnetic separation from superparamagnetic particle suspensions,” Journal of Magnetism and Magnetic Materials,  321: pp. 2251-2256, 2009.

23.  Roy, T., Sinha, A., Chakraborty, S., Ganguly, R., Puri, I.K., “Magnetic microsphere-based mixers for micro-droplets,” Physics of Fluids, 21, pp.  027101(1-7), 2009.

22.  Modak, N., Datta, A., Ganguly, R., “Cell separation in a microfluidic channel using magnetic microspheres,” Microfluidics and Nanofluidics, 6: pp. 647-  660, 2009.

21.  Sahu, K.B., Kundu, A., Ganguly, R., Datta, A., “Effects of fuel type and equivalence ratios on the flickering of triple flames,” Combustion and Flame,  156: pp. 484-493, 2009.

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2008

20.  Basu, D., Saha, R., Ganguly, R., Datta, A., “Performance Improvement of LPG Cookstoves through Burner and Nozzle Modifications,” Journal of the  Energy Institute, 81: pp. 218-225, 2008.

19.  Banerjee, M., Nag, D., Ganguly, R., Datta, A., “Stenotic interaction on hemodynamic parameters in multiple stenoses,” International Journal of  Computational Fluid Dynamics, 22: pp. 609-622, 2008.

18.  Nandy, K., Chaudhuri, S., Ganguly, R., Puri, I.K., “Analytical model for the magnetophoretic capture of magnetic microspheres in microfluidic devices,”  Journal of Magnetism and Magnetic Materials, 320: pp. 1398-1405, 2008.

17.  Banerjee, S., Mukhopadhyay, A., Sen, S., Ganguly, R., “Natural Convection in a Bi-heater Configuration of Passive Electronic Cooling,” International  Journal of Thermal Sciences, 47: pp. 1516-1527, 2008.

16.  Banerjee, S., Mukhopadhyay, A., Sen, S., Ganguly, R., “Optimizing thermomagnetic convection for electronics cooling,” Numerical Heat Transfer: Part  A, 53: pp. 1231-1255, 2008.

15.  Saha, C., Ganguly, R., Datta, A., “Heat transfer and emission characteristics of impinging rich methane and ethylene jet flames,” Experimental Heat  Transfer, 21: pp. 169-187, 2008.

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2007

14.  Sinha, A., Ganguly, R., De, A.K., Puri, I. K., “Single magnetic particle dynamics in a microchannel,” Physics of Fluids, 19: pp. 117102(1-5), 2007 (This  article has been selected for the November 15, 2007 issue of Virtual Journal of Biological Physics Research< http://www.vjbio.org>).

13.  Ganguly, R., Puri, I. K., “Field-Assisted Self-Assembly of Superparamagnetic Nanoparticles for Biomedical, MEMS and BioMEMS Applications,”  Advances in Applied Mechanics, 41: pp. 293-335, 2007.

12.  Ganguly, R., Puri, I. K., “Mathematical Model for the Chemotherapeutic Drug Efficacy in Arresting Tumor Growth Based on the Cancer Stem Cell  Hypothesis,” Cell Proliferation, 40: pp. 338–354, 2007.

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2006

11. Ganguly, R., Puri, I. K., “Mathematical Modeling of Cancer Stem Cell Hypothesis,” Cell Proliferation, 39: pp. 3-14, 2006.

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2005

10. Ganguly, R., Zellmer B., Puri, I. K., “Field-induced self-assembled ferrofluid aggregation in pulsatile flow,” Physics of Fluids, 17: pp. 097104(1-8),  2005. (This article has been selected for the September 12, 2005 issue of Virtual Journal of Nanoscale Science &Technology< http://www.vjnano.org>,  and September 10.  2005 issue of Virtual Journal of Biological Physics Research <http://www.vjbio.org>).

9. Ganguly, R., Gaind, A.P., Puri I. K., “A strategy for the assembly of 3-D mesoscopic structures using a ferrofluid,” Physics of Fluids, 17: pp. 57103(1-9),  2005. (This article has been selected for the May 9, 2005 issue of Virtual Journal of Nanoscale Science &Technology <http://www.vjnano.org>).

8.    Mukhopadhyay, A., Ganguly, R., Sen, S., Puri I. K., “Scaling Analysis to Characterize Thermomagnetic Convection,” International Journal of Heat and Mass Transfer, 48 (17): pp. 3485-3492, 2005.

7. Ganguly, R., Gaind, A.P., Sen, S., Puri I. K., “Analyzing ferrofluid transport in magnetic drug targeting,” Journal of Magnetism and Magnetic Materials, 289: pp. 331-334, 2005.

6. Lock, A., Ganguly, R., Puri, I. K., Aggarwal, S. K., Hegde, U., “Gravity Effects on Partially Premixed Flames: An Experimental-Numerical Investigation,”  Proceedings of the Combustion Institute, 30(1): pp. 511-518, 2005.

5.  Sinha, A., Ganguly, R., Puri, I. K. “Control of Confined Nonpremixed Flames Using a Microjet,” International Journal of Heat and Fluid Flow, 26: pp.  431-439, 2005.

 

2004

4.  Ganguly, R., Sen, S., Puri, I. K. (2004), “Thermomagnetic Convection in a Square Enclosure Using a Line-Dipole,” Physics of Fluids, 16(7): pp. 2228-  2236, 2004.

3. Ganguly, R., Sen, S., Puri, I. K., “Heat Transfer Augmentation in a Channel With a Magnetic Fluid Under the Influence of a Line-Dipole,” Journal of  Magnetism and Magnetic Materials, 271: pp. 63-73, 2004.

2. Ganguly, R., Puri, I. K., “Nonpremixed Flame Control with Microjets,” Experiments in Fluids, 36: pp. 635-641, 2004.

 

2003

1. Gupta, A., Ganguly, R., Chakraborty, S., Mazumdar, C., Popovic, D., “Simulating Thermal Power Plant Processes on a Message Passing Environment,” ISA Transaction, American Institute of Physics, 42 (4): pp. 615-630, 2003.

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