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Predicting the boron removal of reverse osmosis membranes using machine learning

Predicting the boron removal of reverse osmosis membranes using machine learning
Predicting the boron removal of reverse osmosis membranes using machine learning

Reverse osmosis (RO) is a key technology for seawater desalination, but boron removal remains challenging due to the relatively low and varying boron rejection of RO membranes. This study explored the use of machine learning (ML) to develop predictive models for boron removal of RO membranes. Data of 11 features encompassing membrane properties, testing conditions and membrane performance were collected from journal articles. Missing data were recovered using data imputation algorithms. The predictive models were developed using five regression algorithms: linear, ridge, decision tree, random forest and XGBoost regressors, and the tree-based XGBoost regressor performed the best (R2 = 0.84). Feature importance analysis and tree diagrams revealed that membrane type, feed pH and NaCl rejection as key factors in influencing boron rejection, while membrane surface properties showed minimal impact. Partial dependence plots were generated to further analyze each feature. High NaCl rejection of >99.6 % is highly desirable for SWRO membranes to achieve high boron rejection. For BWRO membranes at pH >9, a looser structure with a NaCl rejection >95 % could be applied. The study successfully applied ML to a dataset with large portion of missing values, and the results provide valuable insights for future membrane design and boron removal processes.

Artificial intelligence, Boron rejection, Machine learning, Polyamide TFC membranes, Reverse osmosis
0011-9164
Sukarno,
96949120-dd50-4475-8fbd-39ca99639302
Chong, Jeng Yi
2f9ead94-86f2-4e20-9e67-75f10759555b
Cong, Gao
78dbf0ee-befd-4766-a58c-2a5c7500e6f2
Sukarno,
96949120-dd50-4475-8fbd-39ca99639302
Chong, Jeng Yi
2f9ead94-86f2-4e20-9e67-75f10759555b
Cong, Gao
78dbf0ee-befd-4766-a58c-2a5c7500e6f2

Sukarno, , Chong, Jeng Yi and Cong, Gao (2024) Predicting the boron removal of reverse osmosis membranes using machine learning. Desalination, 586, [117854]. (doi:10.1016/j.desal.2024.117854).

Record type: Article

Abstract

Reverse osmosis (RO) is a key technology for seawater desalination, but boron removal remains challenging due to the relatively low and varying boron rejection of RO membranes. This study explored the use of machine learning (ML) to develop predictive models for boron removal of RO membranes. Data of 11 features encompassing membrane properties, testing conditions and membrane performance were collected from journal articles. Missing data were recovered using data imputation algorithms. The predictive models were developed using five regression algorithms: linear, ridge, decision tree, random forest and XGBoost regressors, and the tree-based XGBoost regressor performed the best (R2 = 0.84). Feature importance analysis and tree diagrams revealed that membrane type, feed pH and NaCl rejection as key factors in influencing boron rejection, while membrane surface properties showed minimal impact. Partial dependence plots were generated to further analyze each feature. High NaCl rejection of >99.6 % is highly desirable for SWRO membranes to achieve high boron rejection. For BWRO membranes at pH >9, a looser structure with a NaCl rejection >95 % could be applied. The study successfully applied ML to a dataset with large portion of missing values, and the results provide valuable insights for future membrane design and boron removal processes.

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Accepted/In Press date: 16 June 2024
e-pub ahead of print date: 22 June 2024
Published date: 5 July 2024
Keywords: Artificial intelligence, Boron rejection, Machine learning, Polyamide TFC membranes, Reverse osmosis

Identifiers

Local EPrints ID: 492853
URI: http://eprints.soton.ac.uk/id/eprint/492853
DOI: doi:10.1016/j.desal.2024.117854
ISSN: 0011-9164
PURE UUID: 57414a25-7ac0-4b3b-a864-629f2221b74e
ORCID for Jeng Yi Chong: ORCID iD orcid.org/0000-0002-0593-6313

Catalogue record

Date deposited: 16 Aug 2024 16:33
Last modified: 17 Aug 2024 02:17

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Contributors

Author: Sukarno
Author: Jeng Yi Chong ORCID iD
Author: Gao Cong

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