Resume

Shadab Anwar

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Education:
Ph.D. Geosciences. 2008.
Major Research: Fluid flow and solute transport modeling using lattice Boltzmann methods (LBM).
Florida International University, Miami.
Master of Technology in Civil and Environmental Engineering. 2003
Major: Hydraulics and Water Resources Engineering.
Indian Institute of Technology Kanpur (IIT-Kanpur), India.  Bachelor of Engineering. 2001. Major: Civil Engineering.
Muzaffarpur Institute of Technology, Muzaffarpur, India.
 Relevant Work experience
Post-Doctoral Research Associate School of Natural Resources and Environment. University of Florida Gainesville.
Presidential Dissertation Year Fellow    Earth Sciences Florida International University Miami FL     2007-2008
Research on Lattice Boltzmann Methods for transient ground water flow and solute transport.
Graduate Research Assistant Earth Sciences Florida International University Miami FL 2006-2007 2004-2005
Research on transport in large scale porous media with conduits via lattice Boltzmann models.
Research on lattice Boltzmann methods and their boundary conditions for solute transport
Graduate Teaching Assistant Earth Sciences Florida International University Miami FL 2005-2006 (Fall and Spring)
Instructor in Oceanography Lab (OCE3014L).
Graduate Research Assistant Civil Engineering Indian Institute of Technology Kanpur India                 2003-2004
Research on the role of reduced Iron in contaminant transport, transformation and degradation
in engineered and natural subsurface environment
Graduate Teaching Assistant Civil Engineering Indian Institute of Technology Kanpur India                 2001-2003
Publications
• Anwar, S. and M.C. Sukop 2008. Lattice Boltzmann methods for solute transport modeling in phreatic karst aquifers (accepted in Ground Water).
• Anwar, S. and M.C. Sukop 2008. Regional scale transient groundwater flow modeling using lattice Boltzmann methods (accepted in Progress in Computational Fluid Dynamics (PCFD)).
• Anwar, S., A. Cortis, and M.C. Sukop 2008. Lattice Boltzmann Simulation of Solute Transport in Heterogeneous Porous Media with Conduits to Estimate Macroscopic Continuous Time Random Walk Model Parameters. Progress in Computational Fluid Dynamics (PCFD). Vol. 8(1-4): 213-221
• Sukop M.C., S. Anwar, J.S. Lee, K.J. Cunningham, and C.D. Langevin. 2008. Modeling Ground-water Flow and Solute Transport in Karst with Lattice Boltzmann Methods. Proceedings of the U.S. Geological Survey Karst Interest Group Workshop, May 27-29, 2008, Bowling Green, Kentucky, Western Kentucky University Campus.
• Bardsley, K.J., S. Anwar, and M.C. Sukop 2006. Simultaneous heat and solute transport modeling of ground water with lattice Boltzmann methods. CMWR XVI - Computational Methods in Water Resources, XVI International Conference,Copenhagen, Denmark, June 19-22
Conferences

• Anwar, S. and M. C. Sukop. 2007 Regional scale flow modeling using Lattice Boltzmann models. EOS Trans. AGU, 88 (52), Fall Meet. Suppl., Abstract H33D-1624
• Anwar, S. and M.C. Sukop 2007 Verification of lattice Boltzmann models for solute transport modeling in karst aquifers. International Conference for Mesoscopic Methods in Engineering and Scinece. Germany, July 16-20 (Oral Presentation)
• Anwar, S., A. Cortis, and M.C. Sukop 2006 Lattice Boltzmann Simulation of Solute Transport in Heterogeneous Porous Media with Conduits to Estimate Macroscopic Continuous Time Random Walk Model Parameters. EOS Trans. AGU, 87 (52), Fall Meet. Suppl., Abstract H21C-1384
• Sukop, M.C., S. Anwar, and Katie Bardsley 2005 Transport in large scale porous media with conduits via lattice Boltzmann models. EOS Trans. AGU, 86 (52), Fall Meet. Suppl., Abstract H42A-04
• Anwar, S. and R. Shrivastava 2005 Spatial Moment Analysis of Reactive Contaminant Transport in Open Channel with Porous Bed. EOS Trans. AGU, 86 (52), Fall Meet. Suppl., Abstract. H31D-1340.
• Sukop, M.C., D. T. Thorne, and S. Anwar 2004 Lattice Boltzmann Methods and their Boundary Conditions for Solute Transport. EOS Trans. AGU, 85 (47), Fall Meet. Suppl., Abstract H32A-07.

Skills
                 Programming Languages: C/C++, FORTRAN77
Libraries and Tools: MATLAB 6.1, Mathematica, GIS, GCC, Vim, LATEX, MPI (MPICH2), Python

Projects:
Ph.D work:
Lattice Boltzmann Model (LBM) is a comparatively new Numerical method used to simulate Fluid flow and solute transport. LBM is based upon Boltzmann equation which defines the evolution of particle distribution function. It is simple to model and amenable to parallel computing, therefore very useful to model Multi-component and Multi-phase fluid flow under different boundary conditions. We are presently trying to develop our available LBM code into an anisotropic model based upon some available literature. Long term goal is to develop a LB model for multi-component multi-phase groundwater modeling in two and three dimension.
Supervisor: Dr. Mike Sukop, Assistant Professor, Florida International University.
Master’s Thesis:  Title: Spatial Moment Analysis of Reactive Contaminant Transport in Open Channel With Porous Bed.  Supervisor: Dr. Rajesh Srivastava, Associate Professor, Indian Institute of Technology-Kanpur.  Abstract:  This study is a semi-analytical approach to model fate and transport of reactive contaminant transport in open channel and porous bed using Taylor-Aris moment method. Sorption and decay found to have significant influence upon moment of concentration