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Shriram Srinivasan

Shriram Srinivasan

Email
Phone (505) 665-4910

Capabilities

  • Computational Physics and Applied Mathematics
  • Numerical modeling
  • Coupled multi-physics simulations
  • Computational fluid dynamics (CFD)
  • Partial differential equations
  • Subsurface flow simulation
  • Multiscale-multiphase-multicomponent subsurface reactive flows
  • Applied Math
  • Earth and Space Sciences
  • Subsurface flow and transport
  • Hydrology
  • Computer and Computational Sciences
  • Machine learning,
  • High performance computing
  • Information Science and Technology
  • Machine Learning
  • Materials
  • High pressure
  • Complex fluids
  • Computational Physics and Applied Mathematics
  • Discrete Fracture Networks
  • Earth and Space Sciences
  • Multi-scale, multi-phase subsurface flow simulations
  • Oil and gas reservoir simulations

Expertise

Continuum Mechanics of fluids and solids

Flow through Porous Media

Multi-scale Computational Methods

Graphs and Machine Learning for Discrete Fracture Networks

Education

  • PhD, Mechanical Engineering, Texas A&M University, College Station (2013)
  • MS, Mathematics, Texas A&M University, College Station (2013)
  • MS, Mechanical Engineering, Texas A&M University, College Station (2008)
  • B.TECH, National Institute of Technology (NIT),  Tiruchirappalli, India (2006)
 

Publications

My full publication record can be accessed at the following Google Scholar profile page --

https://scholar.google.com/citations?user=Fnfr8hYAAAAJ&hl=en

 

Selected Publications

 

  • S Srinivasan, J Hyman, S Karra, D O’Malley, H Viswanathan, G. Srinivasan. Robust system size reduction of discrete fracture networks; a multi-fidelity method that preserves transport characteristics. Computational Geosciences (2018)

 

  • P. Minev, S. Srinivasan, P. N. Vabishchevich. Flux formulation of parabolic equations with highly heterogeneous coefficients. Journal of Computational and Applied Mathematics (2017)  
  • S. Srinivasan, R. Lazarov, P. Minev. Multiscale direction-splitting algorithms for parabolic equations with highly heterogeneous coefficients. Computers & Mathematics with Applications (2016)

 

  • S. Srinivasan. A Generalized Darcy–Dupuit–Forchheimer Model with Pressure-Dependent Drag Coefficient for Flow Through Porous Media Under Large Pressure Gradients. Transport in Porous Media (2016)

 

  • S. Srinivasan, K.R.Rajagopal. A thermodynamic basis for the derivation of the Darcy, Forchheimer and Brinkman models for flows through porous media and their generalizations.  International Journal of Non-Linear Mechanics (2014)

 

  • S. Srinivasan, A. Bonito , K. R. Rajagopal. Flow of a fluid through a porous solid due to high pressure gradients. Journal of Porous Media (2013)

 

  • V. Průša, S. Srinivasan, K.R. Rajagopal. Role of pressure dependent viscosity in measurements with falling cylinder viscometer. International Journal of Non-Linear Mechanics (2013)

 

  • S. Srinivasan, K.B. Nakshatrala. A stabilized mixed formulation for unsteady Brinkman equation based on the method of horizontal lines. International Journal for Numerical Methods in Fluids (2012)
 

 

 
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