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Rafael Tinoco Lopez

University of Illinois at Urbana-Champaign

Fluid, Particulate, and Hydraulic Systems

2018

S. Dutta, K. Mittal, P. Ranjan, P. Fischer, and R.O. Tinoco (2018): 2D High-Resolution numerical investigation of flow through surrogate emergent vegetation canopies: Part 1. Unidirectional Flow, Environmental Fluid Mechanics (under preparation), Springer
S. Dutta, P. Ranjan, K. Mittal, P. Fischer, and R.O. Tinoco (2018): 2D High-Resolution numerical investigation of flow through surrogate emergent vegetation canopies: Part 2. Oscillatory Flow, Environmental Fluid Mechanics (under preparation), Springer
P. Ranjan, S. Dutta, K. Mittal, P. Fischer, and R.O. Tinoco (2018): Flow and sediment transport though aquatic vegetation, Geophysical Research Letters (under preparation), Wiley

2017

S. Dutta, P. Ranjan, K. Mittal, P. Fischer, and R.O. Tinoco (2017): 2D High-Resolution Numerical Investigation of Oscillatory Flow through different Layouts of Idealized Vegetation Patch, Environmental Fluid Mechanics (under preparation), Springer

2016

Rafael O. Tinoco, and Giovanni Coco (2016): A Laboratory Study on Sediment Resuspension Within Arrays of Rigid Cylinders, Advances in Water Resources, Elsevier BV, Vol 92, pp1--9

2017

Rafael Tinoco Lopez (2017): High Resolution Numerical Simulation of Oscillatory Flow and Sediment Transport through Aquatic Vegetation, 2017 Blue Waters Annual Report, pp162-163

Blue Waters Illinois allocations awarded to 26 research teams


Mar 7, 2017

Twenty-six research teams at the University of Illinois at Urbana-Champaign have been allocated computation time on the National Center for Supercomputing Application's (NCSA) sustained-petascale Blue Waters supercomputer after applying in Fall 2016. These allocations range from 25,000 to 600,000 node-hours of compute time over a time span of either six months or one year. The research pursuits of these teams are incredibly diverse, ranging anywhere from physics to political science.


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