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This research was funded by the Ministry of Science and Innovation project RECREATE (PID2020-114315RB-C22) and also by Ministry of Labor and Social Economy (Programa Investigo) .

Analysis of institutional authors

Ruiz-Cosgaya, LauraCorresponding AuthorMartinez-Guijarro, RemediosAuthorSerralta, JoaquínAuthorBarat, RamónAuthor

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December 29, 2024
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Ion exchange columns. A promising technology for nitrogen and phosphorus recovery in the main line of a wastewater treatment plant

Publicated to:Journal Of Environmental Management. 370 122719- - 2024-10-08 370(), DOI: 10.1016/j.jenvman.2024.122719

Authors: Ruiz-Cosgaya, Laura; Izquierdo, Wilmer Andres; Martinez-Guijarro, Remedios; Serralta, Joaquin; Barat, Ramon

Affiliations

Univ Politecn Valencia, Inst Univ Invest Engn Aigua & Med Ambient, Unidad Mixta UV UPV, CALAGUA,IIAMA, Cami Vera S-N, Valencia 46022, Spain - Author
Univ Politecn Valencia, Inst Univ Invest Engn Aigua Med Ambient, IIAMA, Cami Vera S N, Valencia 46022, Spain - Author

Abstract

Anaerobic membrane bioreactor (AnMBR) technology has great advantages for treating urban wastewaters, but, when irrigation cannot be applied and the effluent is discharged in a sensitive zone, a post-treatment of this effluent is needed for nitrogen and phosphorus removal. Under this scenario, ion exchange processes represent one of the most promising technologies for treating this effluent. Ion exchange technology allows to meet discharge limits and to recover these nutrients in a highly concentrated stream. In this work, the technical feasibility of using a commercial resin for phosphorus recovery and a natural zeolite (clinoptilolite) for nitrogen recovery was evaluated. Purolite FerrIX A33E resin removed phosphate from the AnMBR permeate within 500 Bed Volumes (BVs) with a maximum adsorption capacity (qmax) of 2,1 mg P-PO4/g resin. Regeneration of the resin (2% NaOH 2% NaCl) recovered over 95% of the phosphorous retained, achieving a concentration of 316,7 mg P-PO4/L in the regeneration solution. In the absence of a long-term study, the resin showed a stable adsorption capacity during 16 cycles of saturation-regeneration. Clinoptilolite removed nitrogen within 139 BVs obtaining a qmax of 3,68 mg N-NH4/g zeolite. 97 % of the retained N-NH4 was recovered in the regeneration stage (0,8% NaOH) with an average concentration of 577 mg N-NH4/L. Continuous exposure of the zeolite to alkaline solutions led to reduction of 50% of the adsorption capacity after 17 cycles.

Keywords

AdsorptionAmmonium removalAnaerobic membrane bioreactorAnion-exchangerAnmbr permeateAqueous-solutionsBioreactorsClinoptiloliteDistillationIon exchangeIonic exchangeManagementNitrogenNutrient recoveryPerformancePhosphate removalPhosphorusResinsStrengtWaste disposal, fluidWastewaterWater purificationZeoliteZeolites

Quality index

Bibliometric impact. Analysis of the contribution and dissemination channel

The work has been published in the journal Journal Of Environmental Management due to its progression and the good impact it has achieved in recent years, according to the agency WoS (JCR), it has become a reference in its field. In the year of publication of the work, 2024 there are still no calculated indicators, but in 2023, it was in position 35/358, thus managing to position itself as a Q1 (Primer Cuartil), in the category Environmental Sciences. Notably, the journal is positioned above the 90th percentile.

Independientemente del impacto esperado determinado por el canal de difusión, es importante destacar el impacto real observado de la propia aportación.

Según las diferentes agencias de indexación, el número de citas acumuladas por esta publicación hasta la fecha 2025-07-16:

  • Europe PMC: 1

Leadership analysis of institutional authors

There is a significant leadership presence as some of the institution’s authors appear as the first or last signer, detailed as follows: First Author (Ruiz Cosgaya, Laura) and Last Author (Barat Baviera, Ramón).

the author responsible for correspondence tasks has been Ruiz Cosgaya, Laura.