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Revealing the effect of anion exchange resin conditioning on the pH and natural organic matter model compounds removal mechanisms

Elien Laforce (UGent) , Ingeborg Stals (UGent) , Emile Cornelissen (UGent) , Pieter Vermeir (UGent) and Jeriffa De Clercq (UGent)
(2022) JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING. 10(5).
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Abstract
Natural organic matter (NOM) negatively affects water quality and can cause serious issues during water treatment processes. Anion exchange resins (AER) have already proven their effectiveness to remove a major part of this NOM. However, due to its complexity, understanding and improving NOM removal remains challenging. This study aimed to provide in-depth insights in NOM removal with macroporous styrenic weak (WBA), strong (SBA) and combined weak/strong basic AER. Batch experiments were performed with resins in two industrially relevant counter ion forms: OH- and free base form for SBA and WBA resins respectively, using NaOH conditioning, and Cl- form resins using NaCl and HCl conditioning for SBA and WBA resins respectively. Synthetic water containing model compounds for different NOM fractions was used, focussing on the biopolymer fraction which is typically poorly removed by classical ion exchange processes and is a known disinfection by-product precursor in drinking water. The applied resin conditioning procedure influenced the equilibrium pH and consequently NOM removal efficiency and mechanisms. When ion exchange is the dominant driving force for NOM removal, the Cl- form proved to be most efficient. For uncharged NOM containing hydroxyl groups, SBA resins in the OH- form are preferable due to H-bonding. Adsorption of aromatic NOM through 7C-7C interactions with the polystyrene backbone was not affected by the resin conditioning. This work clearly demonstrates that not only the AER type, but also the conditioning procedure and the corresponding counter ion form play a key role in the design of successful NOM removal processes.
Keywords
Natural organic matter, Dissolved organic carbon, Ion exchange, Removal mechanisms, BOVINE SERUM-ALBUMIN, ION-EXCHANGE, DRINKING-WATER, BICARBONATE-FORM, NOM, ACID, DEMINERALIZATION, CONSTITUENTS, REGENERATION, PERFORMANCE

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MLA
Laforce, Elien, et al. “Revealing the Effect of Anion Exchange Resin Conditioning on the PH and Natural Organic Matter Model Compounds Removal Mechanisms.” JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, vol. 10, no. 5, 2022, doi:10.1016/j.jece.2022.108315.
APA
Laforce, E., Stals, I., Cornelissen, E., Vermeir, P., & De Clercq, J. (2022). Revealing the effect of anion exchange resin conditioning on the pH and natural organic matter model compounds removal mechanisms. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, 10(5). https://doi.org/10.1016/j.jece.2022.108315
Chicago author-date
Laforce, Elien, Ingeborg Stals, Emile Cornelissen, Pieter Vermeir, and Jeriffa De Clercq. 2022. “Revealing the Effect of Anion Exchange Resin Conditioning on the PH and Natural Organic Matter Model Compounds Removal Mechanisms.” JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING 10 (5). https://doi.org/10.1016/j.jece.2022.108315.
Chicago author-date (all authors)
Laforce, Elien, Ingeborg Stals, Emile Cornelissen, Pieter Vermeir, and Jeriffa De Clercq. 2022. “Revealing the Effect of Anion Exchange Resin Conditioning on the PH and Natural Organic Matter Model Compounds Removal Mechanisms.” JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING 10 (5). doi:10.1016/j.jece.2022.108315.
Vancouver
1.
Laforce E, Stals I, Cornelissen E, Vermeir P, De Clercq J. Revealing the effect of anion exchange resin conditioning on the pH and natural organic matter model compounds removal mechanisms. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING. 2022;10(5).
IEEE
[1]
E. Laforce, I. Stals, E. Cornelissen, P. Vermeir, and J. De Clercq, “Revealing the effect of anion exchange resin conditioning on the pH and natural organic matter model compounds removal mechanisms,” JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, vol. 10, no. 5, 2022.
@article{8762457,
  abstract     = {{Natural organic matter (NOM) negatively affects water quality and can cause serious issues during water treatment processes. Anion exchange resins (AER) have already proven their effectiveness to remove a major part of this NOM. However, due to its complexity, understanding and improving NOM removal remains challenging. This study aimed to provide in-depth insights in NOM removal with macroporous styrenic weak (WBA), strong (SBA) and combined weak/strong basic AER. Batch experiments were performed with resins in two industrially relevant counter ion forms: OH- and free base form for SBA and WBA resins respectively, using NaOH conditioning, and Cl- form resins using NaCl and HCl conditioning for SBA and WBA resins respectively. Synthetic water containing model compounds for different NOM fractions was used, focussing on the biopolymer fraction which is typically poorly removed by classical ion exchange processes and is a known disinfection by-product precursor in drinking water. The applied resin conditioning procedure influenced the equilibrium pH and consequently NOM removal efficiency and mechanisms. When ion exchange is the dominant driving force for NOM removal, the Cl- form proved to be most efficient. For uncharged NOM containing hydroxyl groups, SBA resins in the OH- form are preferable due to H-bonding. Adsorption of aromatic NOM through 7C-7C interactions with the polystyrene backbone was not affected by the resin conditioning. This work clearly demonstrates that not only the AER type, but also the conditioning procedure and the corresponding counter ion form play a key role in the design of successful NOM removal processes.}},
  articleno    = {{108315}},
  author       = {{Laforce, Elien and Stals, Ingeborg and Cornelissen, Emile and Vermeir, Pieter and De Clercq, Jeriffa}},
  issn         = {{2213-2929}},
  journal      = {{JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING}},
  keywords     = {{Natural organic matter,Dissolved organic carbon,Ion exchange,Removal mechanisms,BOVINE SERUM-ALBUMIN,ION-EXCHANGE,DRINKING-WATER,BICARBONATE-FORM,NOM,ACID,DEMINERALIZATION,CONSTITUENTS,REGENERATION,PERFORMANCE}},
  language     = {{eng}},
  number       = {{5}},
  pages        = {{13}},
  title        = {{Revealing the effect of anion exchange resin conditioning on the pH and natural organic matter model compounds removal mechanisms}},
  url          = {{http://doi.org/10.1016/j.jece.2022.108315}},
  volume       = {{10}},
  year         = {{2022}},
}
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