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Chi-Feng Chen, Chia-Chun Ho and Hsiu-Feng Liu
When implementing nonpoint source pollution control plans, the size or number of required controlling facilities is a very practical issue. However, quantifying nonpoint source pollution is difficult because it is generated by variable and random rainfal...
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Liliana Lizárraga-Mendiola, Gabriela A. Vázquez-Rodríguez, Carlos Alexander Lucho-Constantino, Carlos Alfredo Bigurra-Alzati, Rosa Icela Beltrán-Hernández, Joyce Edith Ortiz-Hernández, Luis D. López-León
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This paper deals with the design of a bioretention cell and an infiltration trench in a semi- arid micro watershed. The study area was analyzed by characteristics such as slope changes (S), direction and maximum length of the urban runoff (L), and soil u...
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Sally D. Logsdon
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Soils can serve as sorbents for phosphorus (P), negating the need for artificial sorbents. The purpose of this study was to compare soils with different properties for their effect on nutrient levels in effluent. Four soils were mixed with sand and packe...
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Saroj Kandel, Jason Vogel, Chad Penn, Glenn Brown
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Bioretention cells (BRCs) have shown potential for storm water quantity and quality control. However, the phosphorus (P) removal in BRC has been variable due to differences of soil properties in filter media. The objectives of this research were to ident...
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Usman T. Khan, Caterina Valeo, Angus Chu and Jianxun He
Bioretention cells are an urban stormwater management technology used to address both water quality and quantity concerns. A lack of region-specific design guidelines has limited the widespread implementation of bioretention cells, particularly in cold c...
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