Stormwater Best Management Practices

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Presentation transcript:

Stormwater Best Management Practices Michael Barrett, Ph.D., P.E. University of Texas at Austin

Cuyahoga River, Cleveland

Dates to Remember 1948 Federal Water Pollution Control Act passed by Congress 1972 Clean Water Act prohibits any discharge of pollutants without NPDES permit - (fishable and swimmable) 1987 Clean Water Act amended to require permits for stormwater discharges 2003 NPDES Phase II permits required

Clean Water Act Requires NPDES permit for stormwater from cities, industry, construction sites Requires assessment of beneficial uses and impairments of receiving waters Impaired segments reported to EPA – 303(d) list. Development of TMDL (total maximum daily load) for impaired segments

Number of Water Bodies Impaired Common Impairments Constituent/Parameter Number of Water Bodies Impaired Bacteria 418 Low Dissolved Oxygen Concentration 130 PCBs 104 Salinity 102 Dioxins 90 Mercury 75

Impervious Cover and Runoff

Channel Degradation Bear Creek Fort Branch ShoalCreek Boggy Creek

Constituents in Urban Runoff Bacteria Nutrients Insecticides Herbicides Metals – zinc, copper, lead Hydrocarbons – PAHs Sediment

Sources of Pollutants Vehicles – Tires, Brake pads, Fluids, Tracking Atmospheric Deposition Fertilizers Pesticides Pets Pavement abrasion Channel Erosion

Requirements for Stormwater Treatment City of Austin – Required since 1981, mainly sand filters TCEQ – Requires removal of 80% of sediment in stormwater for Edwards Aquifer LCRA – Requires 70-75% removal of sediment, phosphorus, and oil & grease for Highland Lakes

Treatment Difficulties Runoff occurs on an irregular basis Volume and rate of runoff from storms is highly variable Quality of runoff varies from storm to storm Concentrations of constituents of concern often very low

“First Flush” of Pollutants Stenstrom & Kayhanian, 2005

Best Management Practice (BMP) Selection End-of-pipe Fewer facilities to manage, inspect, and maintain Little volume control Little redundancy Onsite Maintain pre-development hydrology Low Impact Development (LID) – “Green Infrastructure” Lower cost More facilities

Commercial Landscape Ord.--Green Gardening Certified Training 10/10/2019 1,000 ft Courtesy Matt Hollon Extreme example of end of pipe. Loop 360 TxDOT Pond

Conventional Development

Multiple Systems LID Development Disconnected Decentralized Distributed Multi-functional

Pollutant Removal Mechanisms Particle settling Filtration Biological uptake/degradation Infiltration Volatilization Photodegradation Oxidation

Typical LID Practices Bioretention/rain gardens Porous Pavement Vegetated swales and buffer strips Green roofs

Bioretention

Bioretention

10th & Rio Grande Image courtesy Tom Franke

Curbside Bioretention

Setback Bioretention

Sand Beach Biofiltration Pond March 2009 October 2011

Types of Porous Pavement Pervious Concrete Porous Asphalt Pavers

Pervious Concrete Generally has a lower strength Water content is critical for proper installation Requires specialized crew for installation Each batch tends to have a different color/texture Tends to ravel in high traffic areas

Porous Asphalt Created by omitting fine material from asphalt Asphalt is considered flexible pavement, so low strength is not as much an issue. Less expensive than concrete No specialized training needed for installation

Source of Raveling

Porous Pavement only in Parking Stalls

Pavers Most expensive option Decorative element Easily removed and replaced if needed

Permeable Pavers If 2 inch thick porous overlays gives 90+% pollutant removal, why not permeable pavers? Most research has focused on volume reduction Very few studies have quantified the pollutant reduction

Plan View

Pavement Section

Comparison of Effluent Quality Constituent Paver Underdrain Sand Filter TSS (mg/L) 10.0 20.6 Total Phosphorus (mg/L) 0.02 0.099 Total Nitrogen (mg/L) 0.97 1.07 COD (mg/L) 7.8 22 E. Coli (MPN/100mL) 423 4,895 Total Lead (mg/L) <1 5.7 Total Zinc (mg/L) 5.6 22.9 Total Organic Carbon (mg/L) 2.2 7.3

Schematic of Swale and Strip

Vegetated Filter Strips

Falconhead West Development Ozark Path Site Swiss Alps Site SH 71

Green Roofs

Summary Substantial environmental impacts of urbanization Objectives of BMPs are to reduce concentrations of pollutants and runoff volumes Move towards LID practices from end-of-pipe Stormwater treatment is an integral part of urban runoff management