Application of genetic programming to develop the model for estimating membrane damage in the membrane integrity test using fluorescent nanoparticle

A new approach utilizing silica fluorescent nanoparticle as a surrogate for checking the integrity of microfiltration membrane was proposed and well applied in a previous study, but the absence of a feasible estimation model for the degree of membrane damage caused that this simple membrane integrit...

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Bibliographic Details
Published in:Desalination 2011-10, Vol.281, p.80-87
Main Authors: Suh, Changwon, Choi, Byeonggyu, Lee, Seockheon, Kim, Dooil, Cho, Jinwoo
Format: Article
Language:English
Subjects:
Applied sciences
artificial intelligence
Chemical engineering
Damage
desalination
equations
Estimating
Exact sciences and technology
Fluorescent silica nanoparticle
Genetic programming
Image analysis
Integrity
Integrity test
Mathematical models
Membrane
Membrane separation (reverse osmosis, dialysis...)
Membranes
microfiltration
Nanocomposites
Nanomaterials
nanoparticles
Nanostructure
neural networks
Pollution
prediction
silica
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Summary:A new approach utilizing silica fluorescent nanoparticle as a surrogate for checking the integrity of microfiltration membrane was proposed and well applied in a previous study, but the absence of a feasible estimation model for the degree of membrane damage caused that this simple membrane integrity test was not applied easily. This study proposes genetic programming (GP) as an alternative approach to develop the model to predict the area of membrane breach with other experimental conditions (concentration of fluorescent nanoparticle, the permeate water flux and transmembrane pressure). Unlike the artificial neural network that is the most common artificial intelligence technique, GP is an inductive data-driven machine learning that evolves an explicit equation with known experimental data. The results obtained with GP models evolved were satisfactory in predicting the area of the membrane breach and, with the simple membrane integrity test, the GP technique gives a practical way for estimating the degree of membrane damage. Therefore, GP could serve as a robust approach to develop an estimation model for the new membrane integrity test. [Display omitted] ► We use new membrane integrity test using silica fluorescent nanoparticle as a surrogate. ► Genetic programming (gp) was proposed to develop the model to predict the area of membrane breach. ► The GP gives a practical way to estimate the degree of membrane damage. ► GP could serve as a robust approach to develop the estimation model for the new membrane integrity test.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2011.07.045