Browsing by Author "McAndrew, Brendan"
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Item Nitrogen and Sediment Capture of a Floating Treatment Wetland on an Urban Stormwater Retention Pond—The Case of the Rain Project(MDPI AG, 2016-09-24) McAndrew, Brendan; Ahn, Changwoo; Spooner, JoannaNitrogen is widely recognized as a chronic urban stormwater pollutant. In the United States, wet retention ponds have become widely used to treat urban runoff for quantity and quality. While wet ponds typically function well for the removal of sediments, nitrogen removal, performance can be inconsistent due to poor design and/or lack of maintenance. Retrofitting ponds to improve their nitrogen capture performance, however, is often expensive. By hydroponically growing macrophytes on wet ponds, floating treatment wetlands (FTW) may provide a cheap, sustainable means of improving nitrogen removal efficiency of aging stormwater ponds. Few studies have been performed on the effectiveness real-world stormwater systems, however. In this study, we investigated the nitrogen and sediment capture performance of a 50 m2 floating treatment wetland deployed for 137 days on a stormwater wet pond located within an urban university campus near Washington, D.C. A total of 2684 g of biomass was produced, 3100 g of sediment captured, and 191 g of nitrogen removed from the pond. Although biomass production was relatively low (53 g/m2), we found that nitrogen uptake by the plants (0.009 g/m2/day) was comparable to contemporary FTW studies.Item Sustainable Stormwater Management Using a Floating Wetland—a System ApproachMcAndrew, Brendan; McAndrew, Brendan; Ahn, ChangwooNitrogen is widely recognized as a chronic urban stormwater pollutant. In the United States, wet retention ponds have become widely used to treat urban runoff for quantity and quality. While wet ponds typically function well for the removal of sediments, nitrogen removal performance can be inconsistent due to poor design and/or lack of maintenance. Renovating ponds to improve their nitrogen capture performance, however, is typically expensive. A relatively untested technology called floating wetlands (FWs) has been proposed as a sustainable means of improving the nitrogen capture performance of stormwater wet ponds. The FWs are comprised of an artificial floating island that supports the hydroponic growth of plants on a pond, lake, or canal. As the plants grow on the floating island, their roots remove nitrogen directly from the water column and may trap waterborne sediments. Few studies have been performed on the effectiveness realworld stormwater systems, however. In this study, the nitrogen and sediment capture performance of a 50 m2 floating wetland deployed for 137 days on Mason Pond was investigated. A total of 2684 g of biomass was produced, 3100 g of sediment captured, and 191 g of nitrogen removed from the pond. Although biomass production was relatively low (53 g/m2), nitrogen uptake rate by the plants (0.009 g/m2/day) was comparable to contemporary FW studies. A system model was then developed from the collected data to simulate nitrogen removal performance of the FW on Mason Pond. The model was then used to test the nitrogen removal efficiency of the FW over longer deployment periods and with greater surface area coverage. While the literature suggests that FWs must cover at least 10-15% of the pond to significantly aid nitrogen removal, the model suggests only modest nitrogen removal efficiency (~6%) by an FW covering 25% of the surface of Mason Pond. These results may inform municipalities or developers that are considering the use of FWs on stormwater ponds.