Professor Nilanjan Chakraborty
Dr Hazem Awad
Dr Khalil Abo Amsha
| A comparison between conventional and MILD combustion processes of turbulent stratified mixtures | 2024 |
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Dr Hazem Awad
Dr Khalil Abo Amsha
Professor Nilanjan Chakraborty
| A Priori Direct Numerical Simulation assessment of MILD combustion modelling in the context of Large Eddy Simulation | 2024 |
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Dr Hazem Awad
Dr Khalil Abo Amsha
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| An Assessment of the Validity of Damköhler’s Hypotheses for Different Choices of Reaction Progress Variable in Homogenous Mixture Moderate or Intense Low-Oxygen Dilution (MILD) Combustion | 2024 |
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Dr Khalil Abo-Amsha
Dr Hazem Awad
Professor Nilanjan Chakraborty
| Flame Self-Interactions in MILD Combustion of Homogeneous and Inhomogeneous Mixtures | 2024 |
|
Dr Khalil Abo-Amsha
Dr Hazem Awad
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| On the Definition of Reaction Progress Variable in Exhaust Gas Recirculation Type Turbulent MILD Combustion of Methane and n-Heptane | 2024 |
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Dr Hazem Awad
Dr Khalil Abo-Amsha
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| A Direct Numerical Simulation based comparison between conventional and MILD combustion processes of turbulent stratified mixtures | 2023 |
|
Dr Hazem Awad
Dr Khalil Abo-Amsha
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| A Direct Numerical Simulation based comparison between Homogenous and Inhomogeneous mixture MILD Combustion Modelling in the context of Reynolds Averaged Navier-Stokes Simulations | 2023 |
|
Dr Hazem Awad
Dr Khalil Abo-Amsha
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| A Priori Direct Numerical Simulation assessment of MILD combustion modelling in the context of Large Eddy Simulation | 2023 |
|
Dr Hazem Awad
Dr Khalil Abo Amsha
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| A Priori Direct Numerical Simulation Assessment of MILD Combustion Modelling in the Context of Reynolds Averaged Navier–Stokes Simulations | 2023 |
|
Dr Hazem Awad
Professor Nilanjan Chakraborty
| Analysis of dilution equation using DNS data of MILD combustion | 2023 |
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Dr Hazem Awad
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| Flame self-interactions in MILD combustion of homogeneous and inhomogeneous mixtures | 2023 |
|
Freddie Young
Dr Hazem Awad
Dr Khalil Abo Amsha
Dr Umair Ahmed
Professor Nilanjan Chakraborty
et al. | A comparison between statistical behaviours of scalar dissipation rate between homogeneous MILD combustion and premixed turbulent flames | 2022 |
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Dr Hazem Awad
Dr Khalil Abo Amsha
Dr Umair Ahmed
Dr Markus Klein
Professor Nilanjan Chakraborty
et al. | Assessment of Damköhler’s hypotheses in the thin reaction zones regime using multi-step chemistry Direct Numerical Simulations of statistically planar turbulent premixed flames | 2022 |
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Dr Hazem Awad
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| Comparison of Surface Density Function (SDF) statistics between MILD and premixed turbulent combustion | 2021 |
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Dr Hazem Awad
Dr Khalil Abo Amsha
Dr Umair Ahmed
Professor Nilanjan Chakraborty
| Comparison of the reactive scalar gradient evolution between homogeneous MILD combustion and premixed turbulent flames | 2021 |
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