@inproceedings{583f713ce3ef425592b91d9bc2aea3a2,
title = "Uncertainty quantification in a reacting electrochemical microchannel flow model",
abstract = "We describe a technique for modeling electrochemical microchannel flows including the propagation of uncertainty from model parameters and boundary conditions to the model predictions. The approach uses a pseudo-spectral stochastic construction with a polynomial chaos (PC) representation for parameters and field quantities. Using a Galerkin approach, the governing equations are reformulated into equations for the coefficients in the PC expansion. The implementation of the resulting uncertainty propagation schemes is illustrated in the context of microfluidic applications, including a homogeneous protein-labeling reaction as well as two-dimensional electrochemical flow.",
keywords = "MicroChannel, Polynomial Chaos, Simulation, Stochastic, Uncertainty",
author = "B. Debusschere and H. Najm and A. Matta and T. Shu and O. Knio and R. Ghanem and {Le Ma{\^i}tre}, O.",
year = "2002",
language = "English (US)",
isbn = "0970827571",
series = "2002 International Conference on Modeling and Simulation of Microsystems - MSM 2002",
pages = "384--387",
editor = "M. Laudon and B. Romanowicz",
booktitle = "2002 International Conference on Modeling and Simulation of Microsystems - MSM 2002",
note = "2002 International Conference on Modeling and Simulation of Microsystems - MSM 2002 ; Conference date: 21-04-2002 Through 25-04-2002",
}