Results 181 to 190 of about 8,361 (254)

Performance of bioretention systems by umbrella plant (Cyperus alternifolius L.) and common reed (Phragmites australis) for removal of microplastics

Environmental Technology & Innovation
Piyarat Vijuksungsith, Tunlawit Satapanajaru, Kanitchanok Muangkaew, Rattana Boonprasert   +3 more
semanticscholar   +1 more source

New Center At UNH Tackles Stormwater Management And Improves Area Water Quality [PDF]

, 2004
Leonard, Dolores
core   +1 more source

CICEET Program Brief - Stormy Weather, Murky Water? Fact Sheets [PDF]

, 2006
Ballestero, Thomas P., Roseen, Robert M.
core   +1 more source

Numerical modelling of a bioretention cell

Chaudhari Ashvin, Pawar Ashish
openaire   +1 more source

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Bioretention cells remove microplastics from urban stormwater

Water Research, 2021
Microplastic pathways in the environment must be better understood to help select appropriate mitigation strategies. In this 2-year long field study, microplastics were characterized and quantified in urban stormwater runoff and through a bioretention cell, a type of low impact development infrastructure.
Kelsey, Smyth, Jennifer, Drake, Yourong, Li, Chelsea, Rochman, Tim, Van Seters, Elodie, Passeport   +5 more
openaire   +2 more sources

Efficient nitrogen removal through coupling biochar with zero-valent iron by different packing modes in bioretention system.

Environmental Research, 2023
Three kinds of bioretention were designed to explore the effects of zero-valent iron (ZVI) and biochar on the nitrogen removal performance and to seek a more reasonable packing method in this study.
Jiajie Chen, Yu-Qing Xie, Shan-shan Sun, Manping Zhang, P. Yan, Feng Xu, Li Tang, Shengbing He   +7 more
semanticscholar   +1 more source

Bioretention Cell Construction

2008 Providence, Rhode Island, June 29 - July 2, 2008, 2008
Eight bioretention cells were installed in Grove, Oklahoma in Summer 2007 as part of a technology demonstration and evaluation project. Cell design focused on phosphorus and nitrate attenuation by utilizing fly ash as an additive to the filter medium and incorporating a biozone or anaerobic zone, respectively.
null Rebecca A Chavez, null Glenn O Brown, null Daniel E Storm   +2 more
openaire   +1 more source

Rethinking Bioretention Design Concepts

Low Impact Development, 2008
Since its initial development and application in 1993 (Clar, et al., 1993), the Bioretention system also referred to as rain gardens has rapidly become one of the most versatile and widely used BMPs throughout the US and many parts of the world.
M. Clar, E. Laramore, H. Ryan
openaire   +1 more source

Snowmelt pollutant removal in bioretention areas

Water Research, 2007
Snow accumulating in urban areas and alongside roads can accumulate high pollutant loads and the subsequent snowmelt can produce high pollutant loads in receiving waters. This paper examines the treatment of roadside snowmelt in bioretention with respect to pollutant removal, pollutant pathways, and major sinks.
Tone Merete, Muthanna, Maria, Viklander, Godecke, Blecken, Sveinn T, Thorolfsson   +3 more
openaire   +2 more sources

Urban stormwater treatment using bioretention

Journal of Hydrology, 2011
Urban stormwater has negative environmental and ecological effects. Bioretention systems are starting to be used in efforts to mitigate these effects. A bioretention system receiving water from a light industrial catchment and a busy road was designed, built and monitored for changes in soil physics as well as hydrological and hydrochemical efficiency.
Trowsdale, Sam, Simcock, R
openaire   +2 more sources