A tracer study for assessing the interactions between hydraulic retention time and transport processes in a wetland system for nutrient removal

In this study, a new-generation subsurface upflow wetland (SUW) system packed with the unique sorption media was introduced for nutrient removal. To explore the interface between hydraulic and environmental performance, a tracer study was carried out in concert with a transport model to collectively...

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Veröffentlicht in:	Bioprocess and biosystems engineering 2012-03, Vol.35 (3), p.399-406
Hauptverfasser:	Chang, Ni-Bin, Xuan, Zhemin, Wanielista, Martin P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Biogeochemistry Biological and medical sciences Biotechnology Chemistry Chemistry and Materials Science Environmental Engineering/Biotechnology Environmental performance Food Science Fundamental and applied biological sciences. Psychology Industrial and Production Engineering Industrial Chemistry/Chemical Engineering Models, Biological Nutrient removal Nutrient retention Nutrient transport Nutrients Original Paper Pollution control Pollution dispersion Retention Retention time Sorption Transport processes Waste Disposal, Fluid - methods Wastewater treatment Water Purification - methods Water treatment Wetlands
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container_title	Bioprocess and biosystems engineering
container_volume	35
creator	Chang, Ni-Bin Xuan, Zhemin Wanielista, Martin P.
description	In this study, a new-generation subsurface upflow wetland (SUW) system packed with the unique sorption media was introduced for nutrient removal. To explore the interface between hydraulic and environmental performance, a tracer study was carried out in concert with a transport model to collectively provide hydraulic retention time (7.1 days) and compelling evidence of pollutant fate and transport processes. Research findings indicate that our pollution-control media demonstrate smooth nutrient removal efficiencies across different sampling port locations given the appropriate size distribution conversant with the anticipated hydraulic patterns and layered structure among the sorption media components. The sizable capacity for nutrient removal in this bioprocess confirms that SUW is a promising substitute for an extension of traditional on-site wastewater treatment systems.
doi_str_mv	10.1007/s00449-011-0578-z
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subjects	Biogeochemistry Biological and medical sciences Biotechnology Chemistry Chemistry and Materials Science Environmental Engineering/Biotechnology Environmental performance Food Science Fundamental and applied biological sciences. Psychology Industrial and Production Engineering Industrial Chemistry/Chemical Engineering Models, Biological Nutrient removal Nutrient retention Nutrient transport Nutrients Original Paper Pollution control Pollution dispersion Retention Retention time Sorption Transport processes Waste Disposal, Fluid - methods Wastewater treatment Water Purification - methods Water treatment Wetlands
title	A tracer study for assessing the interactions between hydraulic retention time and transport processes in a wetland system for nutrient removal
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