Michael J. Schmidt
Michael J. Schmidt
University of Notre Dame
Dirección de correo verificada de mines.edu
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Año
A kernel-based Lagrangian method for imperfectly-mixed chemical reactions
MJ Schmidt, S Pankavich, DA Benson
Journal of Computational Physics 336, 288-307, 2017
152017
On the accuracy of simulating mixing by random-walk particle-based mass-transfer algorithms
MJ Schmidt, SD Pankavich, DA Benson
Advances in Water Resources 117, 115-119, 2018
92018
Numerical equivalence between SPH and probabilistic mass transfer methods for Lagrangian simulation of dispersion
G Sole-Mari, MJ Schmidt, SD Pankavich, DA Benson
Advances in water resources 126, 108-115, 2019
82019
Accelerating and Parallelizing Lagrangian Simulations of Mixing‐Limited Reactive Transport
NB Engdahl, MJ Schmidt, DA Benson
Water Resources Research 55 (4), 3556-3566, 2019
42019
A Lagrangian method for reactive transport with solid/aqueous chemical phase interaction
MJ Schmidt, SD Pankavich, A Navarre-Sitchler, DA Benson
Journal of Computational Physics: X 2, 100021, 2019
42019
Entropy: The former trouble with particles (including a new numerical model computational penalty for the Akaike information criterion)
DA Benson, S Pankavich, M Schmidt, G Sole-Mari
arXiv preprint arXiv:1905.06119, 2019
22019
Lagrangian Methods for Modeling Transport, Mixing, and Geochemical Reactions
MJ Schmidt
Colorado School of Mines, 2019
2019
Arbitrarily Complex Water/Water and Water/Rock Reactions with Particles
DA Benson, D Bolster, N Engdahl, M Schmidt
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Artículos 1–8