Aromal Vasavan, MSc

Former Doctoral Candidate, Department of Mechanical Engineering, Power & Flow
Department of Mechanical Engineering, van Oijen

EmailA.Vasavan@tue.nl

4 Citations

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- Study the ignition delay of Biogas in one dimensional Spatial Mixing Layers and investigate the influence of relevant physical parameters and sensitive reaction pathways.

- Developing and implementing an optimization method to automate a reaction progress variable in combustion simulations.

- Investigating the influence of subgrid-scale scalar variance models in LES on the prediction of flame lift off height in a turbulent Jet in Hot Co-flow flame.

- LES modeling of Jet in Hot Co-flow flames using Flamelet Generated Manifolds approach to study
the flame lift off and stabilization mechanism for a range of fuel compositions and fuel jet Reynold’s
number.

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1 Similar Profiles

Ignition Engineering & Materials Science

Functionally graded materials Engineering & Materials Science

Biogas Engineering & Materials Science

Biofuels Chemical Compounds

Dilution Engineering & Materials Science

Combustion Mathematics

Oxygen Chemical Compounds

Flame Mathematics

Research Output 2018 2020

4 Citations
2 Article
1 Abstract

A novel method to automate FGM progress variable with application to igniting combustion systems

Vasavan, A., de Goey, P. & van Oijen, J., 2020, In : Combustion Theory and Modelling.

Research output: Contribution to journal › Article › Academic › peer-review

Open Access

functionally gradient materials

Functionally graded materials

Combustion

Ignition

Flame

Modeling MILD combustion with flamelet-generated manifolds

van Oijen, J. & Vasavan, A., 7 May 2019.

Research output: Contribution to conference › Abstract

Ignition

Functionally graded materials

Carbon dioxide

Preheating

Biogas

4 Citations (Scopus)

30 Downloads (Pure)

Numerical study on the autoignition of biogas in moderate or intense low oxygen dilution nonpremixed combustion systems

Vasavan, A., de Goey, L. P. H. & van Oijen, J. A., 21 Jul 2018, In : Energy & Fuels. 32, 8, p. 8768-8780

Research output: Contribution to journal › Article › Academic › peer-review

Open Access

File

Biofuels

Biogas

Dilution

Ignition

Oxygen