Technical reports

These technical reports are peer-reviewed.

Lab members are displayed in bold.

2023

  1. Jain, S, S; Elnahhas, A ‘Stationary states of forced two-phase turbulence’, Center for Turbulence Research, Annual Research Briefs, 2023. (Report)
  2. Jain, S, S ‘Modeling soluble surfactants in two-phase flows’, Center for Turbulence Research, Annual Research Briefs, 2023. (Report)
  3. Bornhoft, B; Jain, S, S; Moin, P ‘A velocity transformation for rough-wall-bounded turbulent flows’, Center for Turbulence Research, Annual Research Briefs, 2023. (Report)

2022

  1. Bornhoft, B; Jain, S, S; Goc, K; Bose, S, T; Moin, P ‘Wall-modeled LES of laser-scanned rime, glaze, and horn ice shapes’, Center for Turbulence Research, Annual Research Briefs, 2022. (Report)
  2. Hwang, H; Jain, S, S, ‘A phase-field method for simulations of two-phase flows on unstructured grids’, Center for Turbulence Research, Annual Research Briefs, 2022. (Report)
  3. Jain, S, S; Mani, A, ‘Modeling interface-confined scalars and insoluble surfactants in two-phase flows’, Center for Turbulence Research, Annual Research Briefs, 2022. (Report)
  4. Collis, H; Mirjalili, S; Jain, S, S; Mani, A, ‘Assessment of WENO and TENO schemes for the four equation- compressible two-phase flow model with regularization terms’, Center for Turbulence Research, Annual Research Briefs, 2022. (Report)
  5. Vartdal, M; Jain, S, S, ‘Improving volume-averaged particle-laden flow models using resolved simulations of particle diffusers’, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)
  6. Oujia, T; Jain, S, S; Matsuda, K; Schneider, K; West, J; Maeda, K, ‘Neural networks for synthesizing preferential concentration of particles in isotropic turbulence’, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)
  7. Apte, S, V; Keane, N; Jain, S, S; Khanwale, M, A, ‘Effect of interpolation kernels and grid refinement on two way–coupled point-particle simulations’, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)
  8. Scapin, N; Shahmardi, A; Chan, W, H, R; Jain, S, S; Mirjalili, S; Pelanti, M; Brandt, L, ‘A mass-conserving pressure-based method for two-phase flows with phase change’, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)
  9. West, J; Oujia, T; Matsuda, K; Schneider, K; Jain, S, S; Maeda, K, ‘Divergence and curl of the inertial particle velocity in a four-way coupled turbulent channel flow’, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)
  10. Santos, I, D; Mahato, B; Bornhoft, B; Jain, S, S; Yaghoobian, N, ‘Lagrangian subgrid-scale modeling applied to evolving firebrand particle transport, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)
  11. Chan, W, H, R; Hara, K; Wang, J, M; Jain, S, S; Mirjalili, S; Boyd, I, D, ‘Spectral analysis of multidimensional current-driven plasma instabilities and turbulence in hollow cathode plumes’, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)
  12. Matsuda, K; Schneider, K; Oujia, T; West, J; Jain, S, S; Maeda, K, ‘Multiresolution analysis of inertial particle tessellations for clustering dynamics’, Center for Turbulence Research, Proceedings of the Summer Program, 2022. (Report)

2021

  1. Jain, S, S, ‘Accurate conservative phase-field method for simulation of two-phase flows’, Center for Turbulence Research, Annual Research Briefs, 2021. (Report)
  2. Jain, S, S, Moin, P, ‘Stable, entropy-consistent, and localized artificial-viscosity method for capturing shocks and contact discontinuities’, Center for Turbulence Research, Annual Research Briefs, 2021. (Report)
  3. Jain, S, S, Song, E, Hwang, H, Moin, P, ‘Continuum numerical modeling of rarefied flows with slip-wall boundary conditions’, Center for Turbulence Research, Annual Research Briefs, 2021. (Report)

2020

  1. Jain, S, S, Moin, P, ‘A kinetic energy–and entropy-preserving scheme for the simulation of compressible two-phase turbulent flows’, Center for Turbulence Research, Annual Research Briefs, 2020. (Report)
  2. Mirjalili, S, Jain, S, S, Mani, A, ‘Modeling heat and mass transfer across interfaces in two-phase flows using phase-field methods’, Center for Turbulence Research, Annual Research Briefs, 2020. (Report)
  3. Adler, M, C, Jain, S, S, West, J, R, Mani, A, Lele, S, K, ‘Diffuse-interface capturing methods for compressible multiphase fluid flows and elastic-plastic deformation in solids: Part I. Methods’, Center for Turbulence Research, Annual Research Briefs, 2020. (Report)
  4. Jain, S, S, Adler, M, C, West, J, R, Mani, A, Lele, S, K, ‘Diffuse-interface capturing methods for compressible multiphase fluid flows and elastic-plastic deformation in solids: Part II. Results and discussion’, Center for Turbulence Research, Annual Research Briefs, 2020. (Report)
  5. Hwang, H, Chan, W, H, R, Jain, S, S, Abarzhi, S, I, ‘Linear two-dimensional Rayleigh-Taylor dynamics with variable acceleration: Comparisons between theory and simulations’, Center for Turbulence Research, Annual Research Briefs, 2020. (Report)

2019

  1. Jain, S, S, Mani, A, ‘Scalar transport modeling for two-phase flows with a diffuse-interface method’, Center for Turbulence Research, Annual Research Briefs, 2019. (Report)
  2. Griffin, K, P, Jain, S, S, Flint, T, J, Chan, W, H, R, ‘Investigation of quantum algorithms for direct numerical simulation of the Navier-Stokes equations’, Center for Turbulence Research, Annual Research Briefs, 2019. (Report)

2018

  1. Jain, S, S, Mani, A, Moin, P, ‘A conservative diffuse-interface method for the simulation of compressible two-phase flows with turbulence and acoustics’, Center for Turbulence Research, Annual Research Briefs, 2018. (Report)
  2. Rosti, M, E, Ge, Z, Jain, S, S, Dodd, M, S, Brandt, L, ‘Emulsions in homogeneous shear turbulence’, Center for Turbulence Research, Proceedings of the Summer Program, 2018. (Report)

2017

  1. Jain, S, S, Mani, A, ‘An incompressible Eulerian formulation for soft solids in fluids’, Center for Turbulence Research, Annual Research Briefs, 2017. (Report)
  2. Mirjalili, S*, Jain, S, S*, Dodd, M*, ‘Interface-capturing methods for two-phase flows: An overview and recent developments’, Center for Turbulence Research, Annual Research Briefs, 2017. (Report)

Course reports

  • ME346B: Molecular simulations (Spring 2018-19) – Molecular dynamics study of two-phase flows. (Report)
  • ME451B: Flow instability (Autumn 2018-19) – Inviscid stability analysis of parallel bubbly flows. (Report) (Presentation)
  • AA201A: Acoustics (Spring 2017-18) – Modeling the sound generated by underwater bubbles. (Report)
  • ME461: Advanced turbulence (Autumn 2017-18) – A priori testing of subgrid-scale models for a two-phase turbulent flow: Droplets in Homogeneous-Isotropic Turbulence. (Report)
  • ME469: CFD (Winter 2016-17) – Solution of the 2D Incompressible Navier-Stokes Equations on a Moving Voronoi Mesh. (Report)