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| Name: |
Professor N Chakraborty |
| Organisation: |
Newcastle University |
| Department: |
Sch of Engineering |
| Current EPSRC-Supported Research
Topics: |
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Combustion
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Computer Sys. & Architecture
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Fluid Dynamics
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Heat & Mass Transfer
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Mathematical Analysis
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Parallel Computing
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Software Engineering
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Water Engineering
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| Current EPSRC Support |
| EP/Y02480X/1 | Sustainable Sludge Valorisation Technology for Closed-Loop Resource Recovery | (C) |
| EP/W026686/1 | Turbulence at the exascale: application to wind energy, green aviation, air quality and net-zero combustion | (C) |
| EP/V003534/1 | A combined experimental and numerical investigation of premixed flame-wall interaction in turbulent boundary layers | (P) |
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| Previous EPSRC Support |
| EP/V013092/1 | Process Control and Novel Materials for the Reactive Jet Impingement Process | (C) |
| EP/S032134/1 | A network for hydrogen-fuelled transportation (Network-H2) | (C) |
| EP/S025154/1 | Numerical exploration and modelling of novel environmentally friendly combustion technique: droplet-laden MILD combustion | (P) |
| EP/R029369/1 | Addressing Challenges Through Effective Utilisation of High Performance Computing - a case for the UK Consortium on Turbulent Reacting Flows (UKCTRF) | (P) |
| EP/P022286/1 | Adaptive software for high-fidelity simulations of multi-phase turbulent reacting flows | (P) |
| EP/K025163/1 | HIGH PERFORMANCE COMPUTING SUPPORT FOR UNITED KINGDOM CONSORTIUM ON TURBULENT REACTING FLOWS (UKCTRF) | (P) |
| EP/J021997/1 | Fundamental understanding of turbulent flame propagation in droplet-laden reactant mixture based on experimental and numerical investigations | (P) |
| EP/J003573/1 | Towards In-Combustion-Event Feedback (ICEF) Control by Laser Ignition | (C) |
| EP/I028013/1 | Development of scalar dissipation rate based reaction rate models for the large eddy simulations of premixed flames | (P) |
| EP/G008841/2 | Development of Unified Flame Surface Density Based Reaction Rate Models for the LES of Turbulent Premixed Flames | (P) |
| EP/G008841/1 | Development of Unified Flame Surface Density Based Reaction Rate Models for the LES of Turbulent Premixed Flames | (P) |
| EP/E026516/1 | THEORETICAL INVESTIGATION OF TURBULENT COMBUSTION IN STRATIFIED INHOMOGENOUS MIXTURES USING DIRECT NUMERICAL SIMULATION | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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