Hi! I am Suhas.
I am a postdoctoral fellow at the Center for Turbulence Research (CTR) and the PSAAP III Center for exascale computation of rocket ignition at Stanford University, USA. My primary research focus is on multiphase flows, compressible turbulent flows and aerodynamics, and computational fluid dynamics. I am also interested in fluid-structure interaction, high-performance computing, and data-driven methods. I primarily work with Prof. Parviz Moin and collaborate with other researchers and faculty members at CTR. Apart from research, I love painting and playing badminton. Check out my ART page for some of my paintings.
I will be starting as an Assistant Professor in the Woodruff School of Mechanical Engineering at Georgia Institute of Technology (Georgia Tech) in January 2024. My research group will specialize in computational modeling and simulations of fluid flows (with a focus on, but not limited to, multiphase flows, turbulent flows, fluid-structure interaction, numerical modeling, A.I., and H.P.C.) with applications toward energy, propulsion, aerospace design, advancing our understanding of climate change, and biomedical engineering.
Prospective students: Interested in working with me? Please have a look here!
Links to my Google Scholar and LinkedIn pages.
Updates/News:
- June 2023 - Suhas gave an invited talk in the department of Aerospace Engineering at Indian Institute of Science
- May 2023 - Our paper on two-way coupled point-particle simulations was published in the International Journal of Multiphase Flow (DOI)
- May 2023 - Suhas gave an invited talk in the department of Mechanical Science and Engineering at the University of Illinois Urbana Champaign (abstract)
- April 2023 - Suhas gave an invited talk in the Woodruff school of Mechanical Engineering at Georgia Institute of Technology (abstract)
- February 2023 - Suhas gave an invited talk in the department of Aerospace Engineering and Mechanics at the University of Minnesota Twin Cities
- Jan. 2023 - Suhas gave an invited talk at the Journal of Computational Physics Seminar Series (DOI) (talk)
- Dec 2022 - Our paper on diffuse-interface methods for compressible two-phase flows and solid-solid flows was published in the Journal of Computational Physics (DOI)
- Dec 2022 - Our paper on scalar transport modeling for two-phase flows was published in the Journal of Computational Physics (DOI)
- Nov. 2022 - Suhas chaired a session on Interface Modeling II at APS-DFD (link)
- November 2022 - Suhas gave an invited talk in the department of Mechanical Engineering at Iowa State University (abstract)
- September 2022 - Suhas gave an invited talk in the department of Aeronautics and Astronautics at the University of Southampton
- Aug 2022 - Suhas's paper on accurate phase-phase field model for two-phase flows was published in the Journal of Computational Physics (DOI)
- July 2022 - Our paper on heat and mass transfer modeling for two-phase flows was published in the International Journal of Heat and Mass Transfer (DOI)
- May 2022 - Our paper on KEEP formulation for compressible two-phase flows was published in the Journal of Computational Physics (DOI)
- April 2022 - Suhas gave an invited talk in the department of Mechanics at Ecole Polytechnique
- January 2022 - Suhas started postdoctoral fellowship at the Center for Turbulence Research and PSAAP III Center
- January 2022 - Suhas graduated with a Ph.D. from Stanford University
- October 2021 - Suhas defended his doctoral thesis (defense presentation)
- June 2020 - Our paper on modeling compressible two-phase flows was published in the Journal of Computational Physics (DOI)
- August 2019 - Our paper on an Eulerian formulation for FSI was published in the Journal of Computational Physics (DOI)
- July 2019 - Our paper on droplets in homogeneous shear turbulence was published in the Journal of Fluid Mechanics (DOI)
- April 2019 - Our paper on the study of effect of density ratio on secondary breakup of drops was published in the International Journal of Multiphase Flow (DOI)
- Favorite quotes:
- "Imagination is more important than knowledge. Knowledge is limited. Imagination encircles the world." - Albert Einstein
- "I would rather die of passion than of boredom." - Vincent van Gogh
- Acknowledgements:
