Litcius/Paper detail

Nitrogen removal in stormwater bioretention facilities: Effects of drying, temperature and a submerged zone

Laila C. Søberg, Maria Viklander, Godecke‐Tobias Blecken

2021Ecological Engineering25 citationsDOIOpen Access PDF

Abstract

Removal of ammonium‑nitrogen (NH4-N), nitrite/nitrate‑nitrogen (summarized as NOxN) and total nitrogen (TN) was examined in pilot-scale bioretention columns with and without a submerged zone under varied temperature and length of antecedent dry periods. The experiment was divided into wet and dry periods and samples were collected to represent continuously wet conditions and conditions with antecedent dry periods. Removal percentages and main effects of the examined factors as well as the effect of their two-way interactions were evaluated. Generally, low temperature favored NOx-N and thus TN removal independent of bioretention column design. Interestingly, bioretention columns with a submerged zone achieved the highest nitrogen removal at low temperature (1.5 °C). For standard bioretention columns, outflow concentrations of NOx-N and TN increased with increasing length of antecedent dry period, whereas a submerged zone mitigated this effect.

Topics & Concepts

BioretentionStormwaterEnvironmental engineeringNitrogenNOxEnvironmental scienceNitrateAmmoniumHydrology (agriculture)ChemistryEnvironmental chemistrySurface runoffEcologyCombustionGeotechnical engineeringGeologyBiologyOrganic chemistryUrban Stormwater Management SolutionsFlood Risk Assessment and ManagementCoastal and Marine Dynamics