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CITATION.bib
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% As an open-source project, CADET-Semi-Analytic relies on the support and recognition from users and researchers to thrive.
% Therefore, we kindly ask that any publications or projects leveraging the capabilities of CADET-Semi-Analytic acknowledge its creators and their contributions by citing the following publication.
@article{LEWEKE2016350,
title = {Fast arbitrary order moments and arbitrary precision solution of the general rate model of column liquid chromatography with linear isotherm},
journal = {Computers & Chemical Engineering},
volume = {84},
pages = {350-362},
year = {2016},
issn = {0098-1354},
doi = {https://doi.org/10.1016/j.compchemeng.2015.09.009},
url = {https://www.sciencedirect.com/science/article/pii/S009813541500304X},
author = {Samuel Leweke and Eric {von Lieres}},
keywords = {Arbitrary precision solution, Arbitrary order moments, Numerical inverse Laplace transform, Error analysis, Algorithmic differentiation, Convergence acceleration},
abstract = {Algorithms and software are presented for efficiently computing reference solutions of the general rate model with proven error bounds. Moreover, algorithms and software are presented for efficiently computing moments of arbitrary order. The methods are based on numerical inverse Laplace transform, and support both quasi-stationary and dynamic linear binding models. The inlet concentration profiles are treated in a most general way using piecewise cubic polynomials. Algorithmic differentiation obviates manual derivation of the required derivatives. Arbitrary precision arithmetics are applied for minimizing numerical roundoff errors, and several convergence acceleration techniques are evaluated. The implemented software package is freely available as open source on GitHub.}
}