Home > Academics > Academic Units > Faculty of Engineering and Architecture (FoE&A) > Chemical Engineering > Arnab Atta
Professor
Chemical Engineering
My research lab (mCFD) provides opportunity to carry out fundamental computational research and proof-of-concept experimental investigations for a range of applications in multiphase and complex flow problems. Group members at mCFD lab are encouraged to pursue interdisciplinary research.
Asphaltene precipitation under controlled mixing conditions in a microchamber by Meng J., Kanike C. , Sontti S. G., Atta A. , Tan X. , Zhang X. Chemical Engineering Journal 451 138873- (2023)
Influence of channel bend angle on the turbulent statistics in sharply bent channel flows by Sharma A., Lakkaraju R. , Atta A. Physics of Fluids 35 055102- (2023)
Insights into the influence of particle density and column inclination in polydisperse liquid solid fluidized beds by Puhan P., Mukherjee A. K., Atta A. Powder Technology 425 118540- (2023)
Mixing Enhancement of Newtonian Liquids in a Curvature Induced Split and Recombine Micromixer by Ghosh A.B., Atta A. Industrial and Engineering Chemistry Research 62 4135-4150 (2023)
Non-Newtonian droplet breakup in a T-junction microdevice containing constriction induced asymmetric parallel branches by Kumari P., Atta A. Physics of Fluids 35 022004- (2023)
Regulation of droplet size and flow regime by geometrical confinement in a microfluidic flow-focusing device by Sontti S. G., Atta A. Physics of Fluids 35 012010- (2023)
Droplet breakup in a parallel microchannel with asymmetrical geometric constraints by Kumari P., Atta A. Chemical Engineering Research and Design 184 13-23 (2022)
Geometric and hydrodynamic influences on the droplet breakup dynamics in a branched microdevice by Kumari P., Atta A. Chemical Engineering and Processing - Process Intensification - (2022)
Insights into the dynamics of non-Newtonian droplet formation in a T-junction microchannel by Kumari P., Atta A. Physics of Fluids - (2022)
Nanoextraction based on surface nanodroplets for chemical preconcentration and determination by Wu H., Kanike C., Atta A., Zhang X. Biomicrofluidics 16 - (2022)
NAMO-PI4: Nexus for Advanced Modeling and Optimization: AI driven modeling in Process Industry 4.0 Scheme for Promotion of Academic and Research Collaboration (SPARC), Apex Committee of SPARC
Influence of engineered wall texture on the droplet dynamics in microchannels Science and Engineering Research Board (SERB)
Coarsegrained CFD-DEM-PBM simulations of industrial granulating beds Science and Engineering Research Board (SERB)
Centre of excellence for training and research in Microfluidics IIT KHARAGPUR
Amritendu Bhuson Ghosh
Area of Research: Multiphase microfluidics
Priyabrata Puhan
Area of Research: CFD, Multiphase systems
Gaurav Singh
Area of Research: Computational multiphase flows
Rakesh Kumar
Area of Research: CFD, Multiphase systems
Debdeep Bhattacharjee
Area of Research: Droplet microfluidics
Gourab Ghosh
Area of Research: Algal Biofuel
Arahata Senapati
Area of Research: computational multiphase flows
Amlan Ashish
Area of Research: Biosensors for Point-of-Care
Sourish Singha
Area of Research: Computational Fluid Dynamics
Chiranjeevi Kanike
Area of Research: Computational Fluid Dynamics
Soni Jaiswal
Area of Research: Multiphase modeling
Srishti Verma
Area of Research: Electrochemical NanoBiodevices for Detection
