Feng, W.-D.; Cui, H.; Zhu, H.; Shutes, B.; Yan, B.-X.; Hou, S.-N.

FeCa-based layered double hydroxide, a high-performance phosphorus adsorbent in constructed wetlands and ecological dams - a pilot scale study

Article

Feng, W.-D., Cui, H., Zhu, H., Shutes, B., Yan, B.-X. and Hou, S.-N. 2023. FeCa-based layered double hydroxide, a high-performance phosphorus adsorbent in constructed wetlands and ecological dams - a pilot scale study. Chemosphere. 339. https://doi.org/10.1016/j.chemosphere.2023.139764

ISSN
Type	Article
Title	FeCa-based layered double hydroxide, a high-performance phosphorus adsorbent in constructed wetlands and ecological dams - a pilot scale study
Authors	Feng, W.-D., Cui, H., Zhu, H., Shutes, B., Yan, B.-X. and Hou, S.-N.
Abstract	Research studies have modified traditional substances to seek fast-acting removal of phosphorus in constructed wetlands (CWs) and ecological dams, rather than develop a brand-new nano-adsorbent. This work synthesized FeCa-based layered double hydroxide (FeCa-LDH) with a chemical co-precipitation method, and the performance, mechanism and factors of phosphorus removal were investigated. FeCa-LDH showed a marked ability to adsorb phosphorus from waste water, with a removal efficiency of 94.4% and 98.2% in CWs and ecological dams, respectively. Both FTIR and XPS spectrum evidenced that FeCa-LDH removed phosphorus via electrostatic and hydrogen-bonding adsorption, as well as a coordination reaction and interlayer anion exchange. FeCa-LDH showed a higher capacity to remove phosphorus in alkaline and neutral waste water than in acid conditions. Co-occurrence anions, which influenced the efficiency of the phosphorus removal capacity are considered in the sequence below: CO32− ≈ HCO3− > SO42− > NO3−. Innovatively, FeCa-LDH was not affected by the low-temperature limitation for CWs, and phosphorus removal efficiency at 5 °C was almost equal to that at 25 °C. These results cast a new idea on the construction, application and phosphorus removal performance of CWs and ecological dams.
Keywords	Constructed wetlands; Phosphorus; Ecological dams; FeCa-LDH; Wastewater
Sustainable Development Goals	15 Life on land
	14 Life below water
	6 Clean water and sanitation
	9 Industry, innovation and infrastructure
Middlesex University Theme	Sustainability
Publisher	Elsevier
Journal	Chemosphere
Electronic	1879-1298
Publication dates
Online	07 Aug 2023
Print	Oct 2023
Publication process dates
Submitted	19 Jun 2023
Accepted	06 Aug 2023
Deposited	19 Nov 2025
Output status	Published
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.chemosphere.2023.139764
PubMed ID	37557995

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