PUBLICATIONS
Journal Papers
International Journals
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Sr No |
Details |
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1 |
Arote A., Bade M. and Jyotirmay Banerjee,
On Coherent Structures of Spatially Oscillating Planar Liquid Jet Developing
in a Quiescent Atmosphere, journal of Physics of Fluids,Vol. 32 (8)
(Accepted), 2020. |
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2 |
Arote, A., Bade, M. and Jyotirmay
Banerjee, An improved compressive volume of fluid scheme for capturing
sharp interfaces using hybridization, journal of Numerical Heat
Transfer, Part B: Fundamentals, pp.1-25, 2020. |
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3 |
Mehta, D.S., Vaghela, B., Rathod, M.K. and
J. Banerjee , 2020. Enrichment of heat transfer in a latent heat storage unit
using longitudinal fins, Asian journal of Heat Transfer, Vol.
49(5), pp. 2659-2685, 2020. |
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4 |
Bhamare, D.K., Rathod, M.K. and Jyotirmay
Banerjee, Evaluation of cooling potential of passive strategies using
bioclimatic approach for different Indian climatic zones, journal of Journal
of Building Engineering, pp.101356, 2020. |
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5 |
Bhamare, D.K., Rathod, M.K. and J. Banerjee,
Numerical model for evaluating thermal performance of residential building
roof integrated with inclined phase change material (PCM) layer, journal
of Journal of Building Engineering, Vol. 28, pp.101018, 2020. |
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6 |
Arote, A., Bade, M. and J. Banerjee,
Numerical investigations on stability of the spatially oscillating planar
two-phase liquid jet in a quiescent atmosphere, journal of Physics of
Fluids, Vol. 31(11), pp.112103, 2019. |
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7 |
Bhamare, D.K., Rathod, M.K. and Jyotirmay
Banerjee, Passive cooling techniques for building and their applicability
in different climatic zones—The state of art. Energy and
Buildings, 198, pp.467-490, 2019. |
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8 |
Mehta, D.S., Vaghela, B., Rathod, M.K. and Jyotirmay
Banerjee, Heat transfer intensification in horizontal shell and tube
latent heat storage unit. Numerical Heat Transfer, Part A:
Applications, 75(7), pp.489-508, 2019. |
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9 |
Chetankumar Anghan, Sagar Dave, Shaswat
Saincher and Jyotirmay Banerjee, Direct numerical simulation of
transitional and turbulent round jets: Evolution of vortical structures and
turbulence budget, Journal of Physics of Fluids, Vol. 31-6, pp 065105-1 to
065105-24, 2019. |
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10 |
Digant S. Mehta, Bhavesh Vaghela, Manish K.
Rathod and Jyotirmay Banerjee, Heat transfer intensification in
horizontal shell and tube latent heat storage unit, journal of Numerical Heat
Transfer, Part A: Applications, Vol. 75-7, pp 489-508, 2019. |
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11 |
Digant S. Mehta, Karan Solanki, Manish K.
Rathod and Jyotirmay Banerjee, Influence of orientation on thermal
performance of shell and tube latent heat storage unit, journal of Applied
Thermal Engineering, Vol. 157, pp 113719-1 to 113719-15, 2019. |
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12 |
Digant S. Mehta, Karan Solanki, Manish K.
Rathod and Jyotirmay Banerjee, Thermal performance of shell and tube latent
heat storage unit: Comparative assessment of horizontal and vertical
orientation, journal of Energy Storage, Vol. 23, pp 344-362, 2019. |
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13 |
Sagar Dave, Chetankumar Anghan, Shaswat
Saincher and Jyotirmay Banerjee, A high-resolution Navier–Stokes
solver for direct numerical simulation of free shear flow, journal of
Numerical Heat Transfer, Part B: Fundamentals, Vol. 74-6, pp 840-860, 2018 |
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14 |
Parag Rajpara, Ankit Dekhatawala, Rupesh
Shah and Jyotirmay Banerjee, Influence of fuel injection method on
performance of upward swirl can-type combustor, journal of Applied Thermal
Engineering, Vol. 130, pp 319-330, 2018. |
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15 |
Parag Rajpara, Ankit Dekhatawala, Rupesh
Shah and Jyotirmay Banerjee, Thermal and emission characteristics of
reverse air flow CAN combustor, International Journal of Thermal Sciences,
Vol. 128, pp 175-183, 2018 |
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16 |
H. K. Zinjala and Jyotirmay Banerjee,
A consistent balanced force refined moment-of-fluid method for surface
tension dominant two-phase flows, journal of Numerical Heat Transfer, Part B:
Fundamentals, Vol. 74-1, pp 432-449, 2018. |
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17 |
Parag Rajpara, Rupesh Shah and Jyotirmay
Banerjee, Effect of hydrogen addition on combustion and emission
characteristics of methane fuelled upward swirl can combustor, journal of
International Journal of Hydrogen Energy, Vol. 43-36, pp 17505-17519, 2018. |
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18 |
H. K. Zinjala and Jyotirmay Banerjee,
Refined moment-of-fluid method, journal of Numerical Heat Transfer, Part B:
Fundamentals, Vol. 71-6, pp 574-591, 2017. |
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19 |
V. Shah, A. Dekhatwala, Jyotirmay
Banerjee and A. K. Patra, Analysis of dispersion of heated effluent from
power plant: a case study, journal of Sadhana - Academy Proceedings in
Engineering Sciences, Vol. 42-4, pp 557-574, 2017. |
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20 |
Shaswat Saincher and Jyotirmay Banerjee,
On wave damping occurring during source-based generation of steep waves in
deep and near-shallow water, journal of Ocean Engineering, Vol. 135, pp
98-116, 2017. |
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21 |
Jignesh Thaker and Jyotirmay Banerjee,
Transition of plug to slug flow and associated fluid dynamics, International
Journal of Multiphase Flow, Vol. 91, pp 63-75, 2017. |
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22 |
Jignesh Thaker and Jyotirmay Banerjee,
Jignesh Thaker and Jyotirmay Banerjee, journal of Nuclear Engineering and
Design, Vol. 310, pp 363-377, 2016. |
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23 |
Rupesh Shah And Jyotirmay Banerjee,
Thermal and emission characteristics of a CAN combustor, journal of Heat and
Mass Transfer, Vol. 52-3, pp 499–509, 2016. |
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24 |
Bhaskar Chakraborty and Jyotirmay
Banerjee, A sharpness preserving scheme for interfacial flows, journal of
Applied Mathematical Modelling, Vol. 40-21-22, pp 9398-9426, 2016. |
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25 |
Jignesh Thaker and Jyotirmay Banerjee,
Influence of intermittent flow sub-patterns on erosion-corrosion in
horizontal pipe, journal of Journal of Petroleum Science and Engineering,
Vol. 145, pp 298-320, 2016. |
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26 |
H. K. Zinjala and Jyotirmay Banerjee,
A Lagrangian-Eulerian advection scheme with moment-of-fluid interface
reconstruction, journal of Numerical Heat Transfer, Part B: Fundamentals,
Vol. 69-6, pp 563-574, 2016. |
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27 |
Hemant B. Mehta and Jyotirmay Banerjee,
Experimental investigations on thermo- hydrodynamics of continuous Taylor
bubble flow through minichannel, International Journal of Heat and Mass
Transfer, Vol. 94, pp 119-137, 2016. |
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28 |
Shaswat Saincher and Jyotirmay Banerjee,
Influence of wave breaking on the hydrodynamics of wave energy converters: A
review, Journal of Renewable and Sustainable Energy Reviews, Vol. 58, pp
704-717, 2016. |
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29 |
H. K. Zinjala and Jyotirmay Banerjee,
A Lagrangian-Eulerian Volume-Tracking with Linearity-Preserving Interface
Reconstruction, Journal of
Numerical Heat Transfer, Part B: Fundamentals, Vol. 68-5, pp 459-478,
2015. |
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30 |
Jignesh Thaker and Jyotirmay Banerjee,
Characterization of two-phase slug flow sub-regimes using flow visualization,
Journal of Petroleum Science and Engineering, Vol. 135, pp 561-576, 2015. |
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31 |
Hemant B. Mehta and Jyotirmay Banerjee,
Influence of Inlet Premixing on Two-Phase Flow Patterns in a Horizontal Minichannel,
Journal of Heat Transfer Engineering, Vol. 36-6, pp 564-573, 2015. |
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32 |
Manish K. Rathod and Jyotirmay Banerjee,
Thermal performance enhancement of shell and tube Latent Heat Storage Unit
using longitudinal fins, Journal of Applied Thermal Engineering, Vol. 75, pp
1084-1092, 2015. |
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33 |
Manish K. Rathod and Jyotirmay Banerjee,
Entropy generation assessment of shell and tube latent heat storage unit, to Journal
of International Journal of Exergy, Vol. 16-1, pp 97-108, 2015. |
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34 |
Shaswat Saincher and Jyotirmay Banerjee,
A Redistribution-Based Volume-Preserving PLIC-VOF Technique, Journal of
Numerical Heat Transfer, Part B: Fundamentals, Vol. 67-4, pp 338-362, 2014. |
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35 |
Hemant B. Mehta and Jyotirmay Banerjee,
An investigation of flow orientation on air–water two-phase flow in
circular minichannel, Journal of Heat and Mass Transfer, Vol. 50-10, pp
1353-1364, 2014. |
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36 |
Manish K. Rathod and Jyotirmay Banerjee,
Thermal Performance of a Phase Change Material‐Based Latent Heat Thermal Storage Unit, Journal
of Heat Transfer Asian Research, Vol. 43-8, pp 706-719, 2014. |
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37 |
Hemant B. Mehta and Jyotirmay Banerjee,
Empirical Modelling and Experimental Investigations on Isothermal Air-Water
Two-Phase Flow through Horizontal Circular Minichannel, in press, Journal of
Applied Fluid Mechanics (JAFM), Vol. 7, No. 2, 2014. |
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38 |
Manish Rathod and Jyotirmay Banerjee,
Experimental Investigations on Latent Heat Storage Unit using Paraffin Wax as
Phase Change Material, Experimental Heat Transfer, Taylor and Francis, Vol.
27, pp 40-55, 2014. |
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39 |
Hiral Desai, R. A Christian, A K Patra and Jyotirmay
Banerjee, A Fuzzy approach for modeling radionuclide in lake system,
Journal of Environmental Radioactivity, Elsevier Science, Vol. 124, pp
37-43,2013. |
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40 |
Manish Rathod and Jyotirmay Banerjee,
Thermal stability of phase change materials used in latent heat energy
storage system: a review, Renewable and Sustainable Energy Reviews, Elsevier
Science, Vol.18, pp 246-258, 2013. |
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41 |
Rupesh D Shah, Hanumanthappa Patil and Jyotirmay
Banerjee, A Relative Assessment of Sub Grid Scale Models for Large Eddy
Simulation of Co-Axial Combustor, Journal of Mechanical Science and
Technology, Spinger Vol. 26, No. 6, pp 1753-1763, 2012. |
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42 |
Amit D. Patel, I.A. Salehbhai, Jyotirmay
Banerjee, V.K. Katiyar and A.K. Shukla, An analytical solution of fluid
flow through narrowing systems, Italian Journal of Pure and Applied
Mathematics, Vol. 29, pp 63-70, 2012. |
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43 |
M J Vaze and Jyotirmay Banerjee,
Simplified heat transfer correlation for air-water two-phase flow, Int. J.
Heat and Mass Transfer, Springer, Heat and Mass Transfer, Springer, Vol. 47,
pp 1159-1170, 2011. |
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44 |
M J Vaze and Jyotirmay Banerjee,
Experimental visualization of two-phase flow patterns and transition from
stratified to slug flow, Proceedings of the Institution of Mechanical
Engineers, London, Part C, Journal of Mechanical Engineering Science, Vol.
225, pp 382-389, 2011. |
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45 |
M J Vaze and Jyotirmay Banerjee,
Effect of Inclination on Flow and Thermal Characteristics of Air-water two
phase flow, Computational Methods in Multiphase flow VI, WIT Transactions on
Engineering Sciences, Vol. 70, pp 213-224, 2011. |
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46 |
M J Vaze and Jyotirmay Banerjee,
Prediction of Liquid Height for Onset of Slug Flow. Canadian J. Chemical
Engineering, Wiley Interscience, Vol. 9999, 2011. |
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47 |
Manish Rathod and Jyotirmay Banerjee,
Numerical Investigation on Latent Heat Storage Unit of Different
Configurations, International Journal of Engineering and Applied Sciences,
Vol. 7, pp 100-106, 2011. |
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48 |
Sailesh Kumar, Santosh Prasad and Jyotirmay
Banerjee, Analysis of Flow and Thermal Field in Nanofluids using a Single
Phase Thermal Dispersion Model, Journal of Applied Mathematical Modeling,
Elsevier Science, Vol. 34, pp 573-592, 2010. |
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49 |
Jyotirmay Banerjee and K. Muralidhar, Simulation of Transport
Processes during Czochralski Growth of YAG crystals, Journal of Crystal
Growth, Vol. 286, pp 350-364, 2006. |
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50 |
Jyotirmay Banerjee and K. Muralidhar, Role of Internal
Radiation during Czochralski Growth of YAG and Nd: YAG crystals,
International Journal of Thermal Sciences, Vol. 45, pp 151-167, 2006. |
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51 |
Jyotirmay Banerjee, R. Bhardwaj and K. Muralidhar,
Experimental Study of Convection in a Model Czochralski Crucible using Liquid
Crystal Thermography, Journal of Visualization (Visualization Society of
Japan, IOS press), Vol.9, No.1, pp 111-119, 2006. |
National Journals
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Sr No |
Details |
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1 |
Mandeep Singh, Jyotirmay Banerjee, P
L Patel and Himanshu Tiwari, Effect of silt erosion on Francis turbine: a
case study of Maneri Bhali Stage-II, Uttarakhand, India, ISH Journal of
Hydraulic Engineering, Vol. 19, Issue 1, 2013. |
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2 |
H. Vaghela, Jyotirmay Banerjee, H B
Naik and B Sarkar, Cryogenic Pump at 4K Temperature level: basic hydrodynamic
design approach, Vol. 37, No. 1-4, 2012. |
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3 |
Rupesh D Shah and Jyotirmay Banerjee,
An Isothermal Investigation on the Effect of Swirl Intensity on Combustor Flow
Regime, IUP J. Mechanical Engineering, Vol. 4, No. 3, pp 7-25, 2011. |
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4 |
M J Vaze and Jyotirmay Banerjee,
Visualization of air-water type two-phase flow patterns, IUP J. Mechanical
Engineering, Vol. 3, pp 29-43, 2010. |
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5 |
Shaswat Saincher and Jyotirmay Banerjee,
Behaviour of Particle Tracer in Steady and Periodic wakes of a circular
cylinder, Nirma University Journal of Engineering and Technology (NUJET) Vol.
1, issue-2, 2010. |
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6 |
Jyotirmay Banerjee and K. Muralidhar, Growth of YAG Crystals in
a Czochralski Process, Annals of the Indian National Academy of Engineering,
Vol. 5, pp 63-70, 2008. |
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7 |
Rajneesh Bhardwaj, Jyotirmay Banerjee
and K. Muralidhar, Effect of Radiation Losses in the Growth of Optical
Crystals by the Czochralski Process, Journal of Scientific and Industrial
Research (CSIR), Vol. 62, pp 1164-1175, 2003. |
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8 |
Amit Kumar, Jyotirmay Banerjee and K.
Muralidhar, Thermal Modeling of Crystal Growth by the Czochralski Method
Including Radius Control, Journal of Scientific and Industrial Research
(CSIR), Vol. 61, pp 607-616, 2002. |
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9 |
Rupesh D Shah and Jyotirmay Banerjee,
Isothermal analysis of can type combustor using five hole probe, Journal of
Institution of Engineers , India, Part-C, Springer, DOI :
10.1007/s40032-012-0042-0. |