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Monitoring the Performance of Green ...
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Regier, Elizabeth M.
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Monitoring the Performance of Green Infrastructure: Pervious Pavement and Bioretention.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Monitoring the Performance of Green Infrastructure: Pervious Pavement and Bioretention./
作者:
Regier, Elizabeth M.
出版者:
Ann Arbor : ProQuest Dissertations & Theses, : 2020,
面頁冊數:
80 p.
附註:
Source: Masters Abstracts International, Volume: 81-10.
Contained By:
Masters Abstracts International81-10.
標題:
Civil engineering. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=27837202
ISBN:
9798641784045
Monitoring the Performance of Green Infrastructure: Pervious Pavement and Bioretention.
Regier, Elizabeth M.
Monitoring the Performance of Green Infrastructure: Pervious Pavement and Bioretention.
- Ann Arbor : ProQuest Dissertations & Theses, 2020 - 80 p.
Source: Masters Abstracts International, Volume: 81-10.
Thesis (M.S.)--Marquette University, 2020.
This item must not be sold to any third party vendors.
Milwaukee, like many other aging cities, struggles with combined sewer overflows, basement backups, and urban stream syndrome. It is increasingly looking to green stormwater infrastructure as a way to alleviate stormwater concerns by treating, retaining, and slowly releasing stormwater near the locations where it falls. However, green stormwater infrastructure varies in its performance, and few studies have been performed in Southeast Wisconsin. Therefore, two bioswales and a pervious pavement installation were monitored for water quantity, total nitrogen, total phosphorus, and total suspended solids. The bioswales were also monitored for dissolved phosphorus. The north bioswale reduced total phosphorus concentrations by a median of 71% and the south bioswale reduced total nitrogen, total phosphorus, and dissolved phosphorus concentrations by a median of 46%, 69%, and 80%, respectively. Significant exfiltration of water in the bioswales resulted in significant load reductions of 99-100% across all pollutants except total suspended solids from the south bioswale. Both bioswales effectively reduced total flow volumes and peakflows. The green alley reduced total suspended solids and total phosphorus concentrations by 97% and 61%, respectively. It is likely that a lack of infiltration in the system produced lower load reductions in total suspended solids and total phosphorus of 54% and 29%, respectively. However, at the green alley there was little change to total nitrogen concentrations or loads. Overall, this study shows that green stormwater infrastructure can effectively manage stormwater and provides additional guidance for the Milwaukee Metropolitan Sewerage District as they continue to expand their green infrastructure practices. Furthermore, this study can help guide state agencies such as the Wisconsin Department of Natural Resources develop more accurate stormwater crediting systems.
ISBN: 9798641784045Subjects--Topical Terms:
860360
Civil engineering.
Subjects--Index Terms:
Bioretention
Monitoring the Performance of Green Infrastructure: Pervious Pavement and Bioretention.
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Milwaukee, like many other aging cities, struggles with combined sewer overflows, basement backups, and urban stream syndrome. It is increasingly looking to green stormwater infrastructure as a way to alleviate stormwater concerns by treating, retaining, and slowly releasing stormwater near the locations where it falls. However, green stormwater infrastructure varies in its performance, and few studies have been performed in Southeast Wisconsin. Therefore, two bioswales and a pervious pavement installation were monitored for water quantity, total nitrogen, total phosphorus, and total suspended solids. The bioswales were also monitored for dissolved phosphorus. The north bioswale reduced total phosphorus concentrations by a median of 71% and the south bioswale reduced total nitrogen, total phosphorus, and dissolved phosphorus concentrations by a median of 46%, 69%, and 80%, respectively. Significant exfiltration of water in the bioswales resulted in significant load reductions of 99-100% across all pollutants except total suspended solids from the south bioswale. Both bioswales effectively reduced total flow volumes and peakflows. The green alley reduced total suspended solids and total phosphorus concentrations by 97% and 61%, respectively. It is likely that a lack of infiltration in the system produced lower load reductions in total suspended solids and total phosphorus of 54% and 29%, respectively. However, at the green alley there was little change to total nitrogen concentrations or loads. Overall, this study shows that green stormwater infrastructure can effectively manage stormwater and provides additional guidance for the Milwaukee Metropolitan Sewerage District as they continue to expand their green infrastructure practices. Furthermore, this study can help guide state agencies such as the Wisconsin Department of Natural Resources develop more accurate stormwater crediting systems.
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