Suryanarayan (Surya) Ramachandran

Publications

You can refer to my Google Scholar Profile for an updated and complete list.

Peer-Reviewed Journal Articles

  1. Ramachandran, S., Srinivasan, N., Taneja, T.S., Zhang, H. and Yang, S., 2023. Numerical study of turbulent non-premixed cool flames at high and supercritical pressures: Real gas effects and dual peak structure. Combustion and Flame, 249, p.112626.
  2. Ramachandran, S., Srinivasan, N., Wang, Z., Behkish, A. and Yang, S., 2023. A numerical investigation of deflagration propagation and transition to detonation in a microchannel with detailed chemistry: Effects of thermal boundary conditions and vitiation. Physics of Fluids, 35(7).
  3. Ramachandran, S., Yang, S., (in review, Combustion and Flame). Oblique Detonation Waves Exhibit Microjetting.
  4. Ramachandran, S., Narayanan, S.R., Wang, Z., Behkish, A., and Yang, S., 2024. Flame Acceleration in Microchannels with Catalytic Nickel Walls and Axial Wall Temperature Gradients. (Manuscript in preparation for Proceedings of the Combustion Institute)

Refereed Conference Proceedings

  1. Ramachandran, S., Narayanan, S.R., Wang, Z., Behkish, A., and Yang, S., 2024. Flame Acceleration in Microchannels with Catalytic Nickel Walls and Axial Wall Temperature Gradients. (Manuscript under review in Proceedings of the Combustion Institute)
  2. Suryanarayan, R. and Yang, S., 2024. Microscopic Hypersonic Jetting in Oblique Detonation Waves. In AIAA SCITECH 2024 Forum (p. 2781).
  3. Srinivasan, N., Suryanarayan, R., Zhang, H., Ghosh, A., Dammati, S.S., Poludnenko, A. and Yang, S., 2024. VLE-Based High Pressure Stationary Droplet Evaporation at Spray Detonation Conditions. In AIAA SCITECH 2024 Forum (p. 1636).
  4. Ramachandran, S., and Yang, S., 2023. Oblique Detonation Waves Exhibit Micro-jetting. Bulletin of the American Physical Society.
  5. Ramachandran, S., Yang, S., Microscopic Hypersonic Jetting in Oblique Detonation Waves. AIAA SCITECH 2024 Forum
  6. Suryanarayan, R., Srinivasan, N., Zou, S. and Yang, S., 2023. A Spectral Analysis of Unstable Detonation. In AIAA SCITECH 2023 Forum (p. 0349).
  7. Srinivasan, N., Suryanarayan, R., Zhang, H., Taneja, T. and Yang, S., 2022. Numerical Simulations of turbulent non-premixed cool flames at supercritical/high pressures: dual peak structure, pressure scaling and real-gas effects. Bulletin of the American Physical Society.
  8. Ramachandran, S., Srinivasan, N., Wang.Z, and Arsam, B., Yang.S, 2023. A Numerical Investigation of the Deflagration to Detonation Transition (DDT) in Microchannels: Effects of Vitiation and Wall Boundary Conditions. 13th US National Combustion Meeting
  9. Ramachandran, S., Srinivasan, N., Zou, S. and Yang, S., 2023. Spectral Analysis of Irregular Detonations. 13th US National Combustion Meeting
  10. Ramachandran, S., Srinivasan, N., Zhang, H., Taneja, T. and Yang, S., 2023. Numerical Simulations of turbulent non-premixed cool flames at supercritical/high pressures: dual peak structure, pressure scaling and real-gas effects. 13th US National Combustion Meeting
  11. Suryanarayan, R., Srinivasan, N., Zou, S. and Yang, S., 2022. Spectral Characterization of Overdriven Irregular Detonations. Bulletin of the American Physical Society

Hobby/Course Projects

  1. Ramachandran, S., CoK-PCA-ANN: Regression-aided Co-Kurtosis-based Principal Component Analysis to Identify Low-Dimensional Manifolds in Combustion Datasets
  2. Ramachandran, S., The Development of a Compressible Euler Equation Solver, Course Project, CFD, UMN Fall 2022

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