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27th July 2015, 05:24 PM
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Join Date: Apr 2013
Re: IIT Madras Research Areas

Given below is the list of Indian Institute of Technology Madras research areas:

Aerospace Engineering
Aerodynamics : Subsonic, Transonic, Supersonic, Hypersonic, Rarefied Gas flows (Theoretical and Experimental), Boundary Layers and Stability of Flows, Turbulent Flows, Shock Tubes and Related Problems, Development of Algorithms and Code for Numerical Methods in Gas Dynamics and Computational Fluid Dynamics, Vortex Dynamics, Supersonic Mixing and Combustion, Optical Flow Diagnostics, Unsteady Aerodynamics of Insect-like Flapping Flight, Uncertainty Quantification of Flow and Flow-structure Problems.
Aerospace Structures: Finite Element Methods, Numerical Methods, Composite Structures, Fatigue and Fracture Mechanics, Contact Mechanics, Vibrations and Impact Mechanics.
Aerospace Propulsion : Rocket Propulsion and Solid Propellant Combustion, Airbreathing Propulsion and Combustion, Cascade Flows, Multiphase Flow Simulation, Combustion Instability, Optical Flow/Combustion Diagnostics.

Applied Mechanics
Solid Mechanics : Fatigue of Materials, Fracture Mechanics, Smart Materials and Structures, Probabilistic methods in linear/nonlinear vibrations, Structural Health Monitoring, Composite Structures, Plasticity/Inelasticity, Constitutive Modelling, Granular Materials, Biomaterials, Finite Element Techniques, Experimental Stress Analysis and Digital Photo Mechanics
Fluid Mechanics : Bio-fluid mechanics, Bluff-body flows, Direct numerical & Large eddy simulation of turbulence, Formation flight, Flow control, Fluid-structure interaction, Heat transfer, Hydrodynamic stability, Insect flight, Interfacial phenomena, Micro-fluidics, Phase field modelling, Post-stall Aerodynamics, Turbulent Convection, Turbulence modelling, Vortex dynamics,Thermal hydraulics, parallel computing
Biomedical Engineering: Cardiovascular System studies, Image and Signal Processing, Speech Signal Processing, Ultrasound and Laser instrumentation in Medicine, Biomechanics, Rehabilitation Engineering, Evoked Response and Functional Electrical Stimulation.

Biotechnology
 Cellular, Molecular and Structural Biology relating to Signal transduction, Lipid Trafficking, Stem cell proliferation etc., Protein crystallography and structure prediction; Drug design and QSAR. Bioorganic Chemistry; Biotransformations; Enzymes in Organic synthesis; Biosensors; Environmental Biotechnology Bioremediation; Green Chemistry;

 Biochemical Engineering, Bioreactor Modelling; Reactive Oxygen species in Bioreactors; Recombinant Systems Cloning of Therapatic Proteins and Large scale Production; Industrial Microbial Processes; Plant tissue and Animal cell Culture; Downstream Processing; Protein Refolding.

 Bioinformatics and Computational Biology; BioEngineering Biomechanics; Biomaterials; Computational Neuroscience; Molecular Genetics of Plant Development.
Chemical Engineering

 Chemical reaction engineering and thermodynamics, transport processes, process design and control, environmental engineering, polymer science and technology, semi-conductor materials processing, and particle technology.

 Fundamental studies: Mathematical modeling of physico-chemical phenomena. Applied statistical mechanics, thermodynamic property estimation, phase equilibria. Flow visualisation using lasers, Microwave assisted thawing. Drying, multicomponent boiling and condensation. Simultaneous heat and mass transfer processes.

 Modeling of processes and equipments: Hydrodynamic and kinetic studies of turbulent bed contactors, trickle beds, slurry reactors, fast and inverse bed fluidized beds. CFD analysis of process equipments. Advanced separation processes such as reactive and azeotropic distillation, membrane processes. Modeling of rotary kilns, crushing and grinding equipments, fluid energy mills of Microelectronic fabrication techniques.

 Development, characterization and processing of materials: Development of polymer blends and composites, polymer based nano-composites. Rheology of polymers and colloids; damping and vibration isolation using polymers. Enzyme design and engineering, protein engineering and production of recombinant proteins.

 Process design and control, systems engineering: Advanced control design such as adaptive control, intelligent control, non-linear control, fault diagnosis and fault tolerant control. Synthesis and optimization of process systems; statistical data processing. Simulation and optimization of crushing and grinding circuits.

 Environmental engineering and waste reduction: Liquid and solid waste treatment, air pollution monitoring and control, toxic and hazardous waste management, environmental risk assessment, colour removal from waste water. Recycling of mixed plastic waste.
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