Field Evaluation of a Proprietary Storm-Water Treatment System: Removal Efficiency and Relationships to Peak Flow, Season, and Dry Time

• Published in: Journal of environmental engineering (New York, N.Y.) Vol. 135; no. 7; pp. 511 - 517
• Main Authors: Cates, Ezra L, Westphal, Marilyn J, Cox, John H, Calabria, Jon, Patch, Steven C
• Format: Journal Article
• Language: English
• Published: Reston, VA American Society of Civil Engineers 01.07.2009
• Subjects: Applied sciences; Exact sciences and technology; Pollution; TECHNICAL PAPERS; Storm; Water treatment; Ammonium; Nitrites; Phosphorus; Nitrates; Flow rates; Regression analysis; Sustainable development; Modeling; Peak flow; Ammonia; Pollutant; Surveillance; Turbidity; Stormwater management; Lead; Storm water
• ISSN: 0733-9372; 1943-7870
• DOI: 10.1061/(ASCE)0733-9372(2009)135:7(511)

A proprietary storm-water treatment system (Baysaver 1∕2 K ) was monitored as part of a low impact development project to assess pollutant removal efficiency and to model removal as a function of flow rate, season, and dry time. Twenty six storm events were sampled over a 12-month period and analyzed for total suspended solids, turbidity, conductivity, ammonia/ammonium, nitrate/nitrite, total phosphorus, total Zn, total Pb, and total Cu. The data were analyzed to determine which parameters showed significant removal by the device and whether or not the removal efficiencies were influenced by peak flow rate, season of the year, and/or dry time. Results indicated that the removal of each pollutant analyzed was statistically significant with the exception of conductivity, which showed higher outflow levels resulting in significant release of ions. Regression analyses revealed that all pollutants except for conductivity and total phosphorus showed significant negative relationships to peak flow rate and that conductivity and total Cu reductions were significantly related to the season of the year.