Kalyana Chakravarthi Gottiparthi

Kalyan C Gottiparthi

Computational Scientist

Contact

gottiparthik@ornl.gov | 865.341.1789

Bio

Kalyan Gottiparthi is a computational scientist in the Science Engagement Section. In his current role, Kalyan works as a Liaison for combustion projects at OLCF. He engages with teams involved in ECP and INCITE projects. 

Prior to joining ORNL, Kalyan was a Senior Research Scientist at Raytheon Technologies Research Center, East Hartford, CT where he developed computational tools and performed numerical simulations which support the research at Pratt and Whitney, Collins Aerospace and Raytheon Missiles and Defense. Before joining RTRC, Kalyan was a distinguished post-doctoral research associate at Oak Ridge National Laboratory. At ORNL, working with the Scientific Computing Group, he optimized Raptor, a combustion code from Sandia National Laboratories, for Summit’s architecture. 

Kalyan obtained his doctoral degree in aerospace engineering from Georgia Institute of Technology and Bachelor of Technology degree in aerospace engineering from Indian Institute of Technology, Kharagpur, India. He is a senior member of AIAA and a member of the combustion institute.

Professional Experience

Distinguished Postdoctoral Research Associate, Oak Ridge National Laboratory, 2015-2017

Senior Research Scientist, Raytheon Technologies Research Center, 2017-2020                                                                                                                                                                   

Education

Doctor of Philosophy (Ph.D.), Georgia Institute of Technology, 2015

Bachelor of Science (B.S.), Indian Institute of Technology Kharagpur, 2007

 

Professional Affiliations

AIAA Senior member

Trademarks and Patents

  1. A. J. Daly, M. L. Corn, K. Gottiparthi, V. Sankaran, C. Cao, T. Simpson, K. Bell, K. Wang, “Smoke Detection System Layout Design,” US Patent 11416643, 2022.
  2. A. J. Daly, M. L. Corn, K. Gottiparthi, V. Sankaran, C. Cao, T. Simpson, K. Bell, K. Wang, “Smoke Detection Layout Validation,” US Patent 11257354, 2022.

Publications

View All

Other Publications

  1. K. C. Gottiparthi, F. Genin, S. Srinivasan and S. Menon, “Simulation of Cellular Detonation Structures in Ethylene-Oxygen Mixtures,” AIAA paper, AIAA-2009-0437, 2009.
  2. K. C. Gottiparthi and S. Menon, “Study of Interaction of Dense or Dilute Clouds of Inert and Reactive Particles with Cellular Detonation Structures,” AIAA paper, AIAA-2010-0770, 2010.
  3. J. Schulz, K. C. Gottiparthi and S. Menon, “Numerical Simulation of Non- Equilibrium Effects and Ionization in H2-Air Detonations,” AIAA paper, AIAA-2010-0772, 2010.
  4. S. Menon and K. C. Gottiparthi, “Simulations of Heterogeneous Detonations and Post Detonation Turbulent Mixing and Afterburning,” 17th Biennial International Conference of the APS Topical Group on Shock Compression of Condensed Matter, Volume 56, Number 6, 2011.
  5. K. C. Gottiparthi and S. Menon, “Study of Deflagration-to-Detonation Transition in Gas-Particle Mixtures,” AIAA paper, AIAA-2011-0801, 2011. 
  6. K. C. Gottiparthi and S. Menon, “A Study of Interaction of Clouds of Inert Particles with Detonation in Gases,” Combustion Science and Technology, 184(3), 406-433, 2012.
  7. J. C. Schulz, K. C. Gottiparthi and S. Menon, “Ionization in Gaseous Detonation Waves,” Shock Waves, 2012.
  8. K. C. Gottiparthi and S. Menon, “Simulations of Heterogeneous Detonations and Post-Detonation Turbulent Mixing and Afterburning,” AIP Conference Proceedings, 1426, 1639-1642, 2012.
  9. K. C. Gottiparthi and S. Menon, “Multi-scale Simulation of Deflagration-to-Detonation Transition in Turbulent Dense Two-Phase Reactive Mixtures,” 2012 High Performance Computer Modernization Program Contributions to DoD Mission Success, 209-218, 2012.
  10. J. C. Schulz, K. C. Gottiparthi and S. Menon, “Richtmyer-Meshkov Instability in Dilute Gas-Particle Mixtures with Re-Shock,” Physics of Fluids, 25(11), 2013.
  11. K. C. Gottiparthi, J. C. Schulz and S. Menon, “Multi-scale Simulation of Deflagration-to-Detonation Transition in Turbulent Dense Two-Phase Reactive Mixtures,” 2013 High Performance Computer Modernization Program Contributions to DoD Mission Success, 2013.
  12. K. C. Gottiparthi and S. Menon, “Flame Acceleration and Transition to Detonation in Gas-Particle Mixtures,” Proceedings of the 6th European Combustion Meeting, 2013.
  13. K. C. Gottiparthi, J. C. Schulz, and S. Menon, “On the Neutralization of Bacterial Spores in Post-Detonation Flows,” Shock Waves, 24, 455-466, 2014.
  14. E. Fedina, K. C. Gottiparthi, C. Fureby and S. Menon, “Combustion in Afterburning behind Explosive Blasts,” 6th European Conference on Computational Fluid Dynamics, 2014.
  15. J. C. Schulz, K. C. Gottiparthi and S. Menon, “Uncertainty Quantification of Bacterial Aerosol Neutralization in Shock heated Gases,” Shock Waves, 25, 77-90, 2015. 
  16. E. Fedina, K. C. Gottiparthi, C. Fureby and S. Menon, “Combustion in Afterburning Behind Explosive Blasts,” Ed., F. Grinstein, Cambridge University Press, 2016.
  17. K. C. Gottiparthi and S. Menon, “Turbulent Mixing and Afterburn in Post-Detonation Flow with Dense Particle Clouds,” AIP Conference Proceedings, 1793, 150002, 2017. 
  18. K. C. Gottiparthi, P. Papas, V. Sankaran, P. Verma, R. Lord and L. Burns, “Deflagrations of Mildly Flammable Refrigerant-Air Mixtures in Closed Volumes” 2B15, Eastern States Section of the Combustion Institute, Spring Technical Meeting, 2018.
  19. K. C. Gottiparthi, C. Cao and V. Sankaran, “Modeling Effusion Cooling and Conjugate Heat Transfer using Local Source Method,” GT2019-91423, Proceedings of ASME Turbo Expo 2019.
  20. C. Cao, K. Wang, J. Snyder, K. C. Gottiparthi, V. Sankaran, M. Corn, A. Daly, K. Bell and T. Simpson, “Smoke Detection System Performance Modeling,” Ninth Triennial International Aircraft Fire and Cabin Safety Research Conference, 2019.
  21. M. C. Soteriou, K. C. Gottiparthi and P. A. Cocks, “Progress in Limiting the Impact of Numerical Error on Reacting LES Simulations,” AIAA-2019-0184, 2019.

Key Links

ORCID

Organizations