Theo dõi
Shankar Subramaniam
Shankar Subramaniam
Cornell University, Los Alamos National Laboratory, Rutgers University, Iowa State University
Email được xác minh tại iastate.edu
Tiêu đề
Trích dẫn bởi
Trích dẫn bởi
Năm
A mixing model for turbulent reactive flows based on Euclidean minimum spanning trees
S Subramaniam, SB Pope
Combustion and Flame 115 (4), 487-514, 1998
5591998
Drag law for monodisperse gas–solid systems using particle-resolved direct numerical simulation of flow past fixed assemblies of spheres
S Tenneti, R Garg, S Subramaniam
International journal of multiphase flow 37 (9), 1072-1092, 2011
4562011
Lagrangian–Eulerian methods for multiphase flows
S Subramaniam
Progress in Energy and Combustion Science 39 (2-3), 215-245, 2013
4002013
Particle-resolved direct numerical simulation for gas-solid flow model development
S Tenneti, S Subramaniam
Annual review of fluid mechanics 46, 199-230, 2014
3322014
Enskog kinetic theory for monodisperse gas–solid flows
V Garzó, S Tenneti, S Subramaniam, CM Hrenya
Journal of Fluid Mechanics 712, 129-168, 2012
1332012
Modeling average gas–solid heat transfer using particle-resolved direct numerical simulation
B Sun, S Tenneti, S Subramaniam
International Journal of Heat and Mass Transfer 86, 898-913, 2015
1282015
Accurate numerical estimation of interphase momentum transfer in Lagrangian–Eulerian simulations of dispersed two-phase flows
R Garg, C Narayanan, D Lakehal, S Subramaniam
International Journal of Multiphase Flow 33 (12), 1337-1364, 2007
1152007
A test method for determining adhesion forces and Hamaker constants of cementitious materials using atomic force microscopy
G Lomboy, S Sundararajan, K Wang, S Subramaniam
Cement and concrete research 41 (11), 1157-1166, 2011
1112011
Pseudo-turbulent gas-phase velocity fluctuations in homogeneous gas–solid flow: fixed particle assemblies and freely evolving suspensions
M Mehrabadi, S Tenneti, R Garg, S Subramaniam
Journal of Fluid Mechanics 770, 210-246, 2015
1092015
Direct numerical simulation of gas–solid suspensions at moderate Reynolds number: quantifying the coupling between hydrodynamic forces and particle velocity fluctuations
S Tenneti, R Garg, CM Hrenya, RO Fox, S Subramaniam
Powder Technology 203 (1), 57-69, 2010
1042010
Role of fluid heating in dense gas–solid flow as revealed by particle-resolved direct numerical simulation
S Tenneti, B Sun, R Garg, S Subramaniam
International Journal of Heat and Mass Transfer 58 (1-2), 471-479, 2013
1032013
A fully coupled quadrature-based moment method for dilute to moderately dilute fluid–particle flows
A Passalacqua, RO Fox, R Garg, S Subramaniam
Chemical Engineering Science 65 (7), 2267-2283, 2010
1002010
A probability density function method for turbulent mixing and combustion on three-dimensional unstructured deforming meshes
S Subramaniam, DC Haworth
International Journal of Engine Research 1 (2), 171-190, 2000
982000
Comparison of mixing model performance for nonpremixed turbulent reactive flow
S Subramaniam, SB Pope
Combustion and Flame 117 (4), 732-754, 1999
981999
Statistical modeling of sprays using the droplet distribution function
S Subramaniam
Physics of Fluids 13 (3), 624-642, 2001
972001
Statistical modeling of sprays using the droplet distribution function
S Subramaniam
Physics of Fluids 13 (3), 624-642, 2001
972001
Statistical modeling of sprays using the droplet distribution function
S Subramaniam
Physics of Fluids 13 (3), 624-642, 2001
972001
Statistical representation of a spray as a point process
S Subramaniam
Physics of Fluids 12 (10), 2413-2431, 2000
882000
A numerically convergent Lagrangian–Eulerian simulation method for dispersed two-phase flows
R Garg, C Narayanan, S Subramaniam
International Journal of Multiphase Flow 35 (4), 376-388, 2009
832009
A comprehensive probability density function formalism for multiphase flows
MG Pai, S Subramaniam
Journal of Fluid Mechanics 628, 181-228, 2009
692009
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