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<!--[[File:BMP matrix 3.png|thumb|950px|alt=image of a table illustrating recommended and non-recommended practices associated with BMPs for different use assessments (e.g. volume reduction, cold climate suitability, appropriateness for lakes, etc.).]]--> | <!--[[File:BMP matrix 3.png|thumb|950px|alt=image of a table illustrating recommended and non-recommended practices associated with BMPs for different use assessments (e.g. volume reduction, cold climate suitability, appropriateness for lakes, etc.).]]--> | ||
− | [[File:BMP matrix 4.png|thumb|950px|alt=image of a table illustrating recommended and non-recommended practices associated with BMPs for different use assessments (e.g. volume reduction, cold climate suitability, appropriateness for lakes, etc.).|<font size=3>The four images above show tables illustrating recommended and non-recommended practices associated with BMPs for different use assessments (e.g. volume reduction, cold climate suitability, appropriateness for lakes, etc.).</font size>]] | + | <!--[[File:BMP matrix 4.png|thumb|950px|alt=image of a table illustrating recommended and non-recommended practices associated with BMPs for different use assessments (e.g. volume reduction, cold climate suitability, appropriateness for lakes, etc.).|<font size=3>The four images above show tables illustrating recommended and non-recommended practices associated with BMPs for different use assessments (e.g. volume reduction, cold climate suitability, appropriateness for lakes, etc.).</font size>]]--> |
==Factors to consider in selecting BMPs== | ==Factors to consider in selecting BMPs== |
Designers need to carefully think through many factors to choose the most appropriate, effective and feasible practice(s) at a development site that will best meet local and state stormwater objectives. This page presents a flexible approach to Best Management Practices (BMP) selection that allows a stormwater manager to select those BMPs most able to address an identified problem. Selecting an inappropriate BMP for a site could lead to adverse resource impacts, friction with regulators if a BMP does not work as anticipated, misperceptions about stormwater control success, and wasted time and money. Careful selection of BMPs will prevent negative impacts resulting from installing the wrong BMP at the wrong location. Regulators can similarly use these matrices to check on the efficiency of proposed BMPs.
This Manual uses a “functional components approach” wherein basic BMP components are selected and pieced together to achieve a desired outcome. For example, if a BMP is needed to reduce peak discharge and remove sediment, stormwater ponds can be selected as the BMP and the actual design components are then assembled based upon the material presented in the design guidance for stormwater ponds. In this case, a pond with a specific outflow rate and sufficient water quality storage is designed to meet both functions according to state design criteria. This approach limits the inclusion of numerous individual BMP sheets in favor of categorical sheets with design variations included on each sheet. This should be a more user-friendly way of defining how BMPs can be designed to solve a particular problem.
BMP lists follow a simple-to-more complex treatment train sequence, one that starts with on-site pollution prevention and works upward in complexity to wetland systems. The list of treatment supplements is a compilation of additional measures that could be used to enhance treatment either before or after more complex BMP use.
Information on BMPs can be found in the individual sections for bioretention, filtration (see Swales or Sand filters), infiltration (see Infiltration trench or Infiltration basin), stormwater ponds, stormwater wetlands, trees, green roofs, turf, and permeable pavement. Sections on pollution prevention, better site design/LID, runoff minimization (see Stormwater re-use and rainwater harvesting) and temporary construction runoff control practices include some descriptive language but do not include engineering details. Sections on treatment supplements will similarly not contain detailed engineering, but will describe a process that designers should follow when considering the use of proprietary devices, inserts and chemical/biological treatment.
The beginning stormwater manager or a designer unfamiliar with the many BMPs available might have some questions on which BMP or group of BMPs to include in a treatment scheme. A matrix can be developed to serve as a screening tool to get the user going on BMP selection. The matrix contains a list of BMPs contained in this Manual and a corresponding list of use assessment parameters to help narrow the wide range of potential BMPs for a particular project. A user will need to have some objectives in mind to extract information from the matrix, but once into the matrix, selection of BMPs based on either positive or negative factors will be possible.
Best management practices matrix
Link to this table
Pollution prevention | Pollution prevention | Municipal | |
Industrial commercial | |||
Runoff minimization | Volume reduction | ||
Capture and re-use | |||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Otherb | |||
Inspect & maintain | |||
Minimize runoff | Reduce volume | Better site design | |
Runoff minimization | Volume reduction | ||
Capture and re-use | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Minimize runoff | Increase recharge | Better Site Design | |
Runoff minimization | Volume reduction | ||
Capture and re-use | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | Media (sand) | ||
Vegetative | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Minimize runoff | Improve water quality | Better site design | |
Pollution prevention | Residential | ||
Municipall | |||
Industrial commercial | |||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Otherb | |||
Inspect & maintain | |||
Filtration | Vegetative | ||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Minimize runoff | Reduce costs | Better site design | |
Temporary construction sediment control | Pre-construction | ||
Local feasibility | Pollution prevention | Residential | |
Municipal | |||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Otherb | |||
Cold climate | Better Site Design | ||
Pollution prevention | Municipal | ||
Industrial commercial | |||
Filtration | Media (sand) | ||
Vegetative | |||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetlandd | |||
Pond wetland system | |||
Supplemental treatment | Filtration devices | ||
Hydrodynamic devices | |||
Temporary construction sediment control | Better Site Design | ||
Pollution prevention | Municipal | ||
Industrial commercialtd> | |||
Temporary construction sediment control | Pre-construction | ||
Perimeter | |||
Slope | |||
Drainageway | |||
Otherb | |||
Inspect & maintain | |||
Bioretention | Filtration | ||
Filtration | Media (sand) | ||
Vegetative | |||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Constructed wetlands | Pond wetland system | ||
Supplemental treatments | Filtration devices | ||
Hydrodynamic devices | |||
Watershed factors | Lakes | Better site design | |
Pollution preventionn | Residential | ||
Municipal | |||
Industrial commercial | |||
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Otherb | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | |||
Filtration | |||
Media (sand) | |||
Vegetative | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Constructed wetlands | Pond wetland system | ||
Supplemental treatment | Chemical biological treatment | ||
Watershed factors | Trout resources | Better Site Design | |
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Drainageway | ||
Bioretention | Infiltration recharge | ||
Filtration partial rechargee | |||
Infiltration filtration recharge | |||
Filtration | |||
Filtration | Media (sand) | ||
Vegetative | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Constructed wetlands | Pond wetland system | ||
Watershed factors | Drinking water | Better site design | |
Pollution prevention | Residential | ||
Municipal | |||
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Otherb | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Constructed wetlands | Pond wetland system | ||
Watershed factors | Wetlands (calcareous fens) | Better Site Design | |
Bioretention | Filtration partial recharge | ||
Infiltration filtration recharge | |||
Filtration | |||
Media (sand) | |||
Vegetative | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Supplemental treatment | Chemical biological treatment | ||
Watershed factors | Impaired waters | Better site design | |
Pollution prevention | Residential | ||
Municipal | |||
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Bioretention | Infiltration filtration recharge | ||
Filtration | |||
Filtration | Media (sand) | ||
Vegetative | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Climate and terrain | Active karst | Runoff minimization | Volume reduction |
Capture and re-use | |||
Temporary construction sediment control | Slope | ||
Bioretention | Filtration | ||
Filtration | Media (sand) | ||
Vegetative | |||
Constructed wetland | Shallow wetland | ||
Low infiltration soil | Runoff minimization | Volume reduction | |
Runoff minimization | Capture and re-use | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Climate and terrain | High snowfall | Pollution prevention | Municipal |
Runoff minimization | Volume reduction | ||
Capture and re-use | |||
Temporary construction sediment control | Slope | ||
Drainageway | |||
Inspect & maintain | |||
Bioretention | Infiltration filtration recharge | ||
Filtration | |||
Infiltration | Infiltration trench | ||
Dry well | |||
Underground system | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Supplemental treatment | Filtration devices | ||
Hydrodynamic devices | |||
Low rainfall | Bioretention | Filtration | |
Filtration | Media (sand) | ||
Vegetative | |||
Stormwater ponds | Without extended detention | ||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Stormwater treatment suitability | Recharge | Better Site Design | |
Runoff minimization | Volume reduction | ||
Capture and re-use | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Water quality | Better Site Design | ||
Pollution prevention | Residential | ||
Municipal | |||
Industrial commercial | |||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Otherb | |||
Inspect & maintain | |||
Filtration | Media (sand) | ||
Vegetative | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Stormwater treatment suitability | Channel protection | Better Site Design | |
Pollution prevention | Municipal | ||
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Stormwater treatment suitability | Peak discharge | Pollution prevention | Municipal |
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Slope | ||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Filtration | |||
Filtration | Media (sand) | ||
Vegetative | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Shallow wetland | |||
ED shallow wetland | |||
Pond wetland system | |||
PSHc | [[Better site design | ||
Pollution prevention | Residential | ||
Municipal | |||
Industrial commercial | |||
Filtration | Media (sand) | ||
Vegetative | |||
Infiltration | Infiltration basin | ||
Physical feasibility | Soils | Temporary construction sediment control | Perimeter |
Slope | |||
Drainageway | |||
Bioretention | Filtration | ||
Filtration | Media (sand) | ||
Vegetative | |||
Elevation difference | Bioretention | Filtration | |
Depth to rock | Better Site Design | ||
Bioretention | Filtration | ||
Filtration | Media (sand) | ||
Vegetative | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Supplemental treatment | Hydrodynamic devices | ||
Physical feasibility | Depth to water table | Better Site Design | |
Runoff minimization | Capture and re-use | ||
Bioretention | Filtration | ||
Filtration | Media (sand) | ||
Vegetative | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Supplemental treatment | Hydrodynamic devices | ||
Site slope | Better Site Design | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Physical feasibility | Ultra-urban | Better Site Design | |
Pollution prevention | Residential | ||
Municipal | |||
Runoff minimization | Capture and re-use | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration rechargee | |||
Filtration | |||
Filtration | Media (sand) | ||
Vegetative | |||
Infiltration | Underground system | ||
Supplemental treatment | Filtration devices | ||
Hydrodynamic devicess | |||
Community and environment | Ease of maintenance | Better Site Design | |
Pollution prevention | Residential | ||
Municipal | |||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Filtration | Vegetative | ||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Supplemental treatment | Filtration devices | ||
Community acceptance | Better Site Design | ||
Pollution prevention | Residential | ||
Municipal | |||
Temporary construction sediment control | Perimeter | ||
Perimeter | |||
Slope | |||
Bioretention | Filtration | ||
Filtration | Vegetative | ||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Supplemental treatment | Filtration devices | ||
Community and environment | Construction cost | Better Site Design | |
Temporary construction sediment control | Pre-construction | ||
Perimeter | |||
Filtration | Vegetative | ||
Habitat quality | Better Site Design | ||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | |||
Filtration | Media (sand) | ||
Vegetative | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Nuisance | Infiltration | Infiltration basin | |
Infiltration trench | |||
Dry well | |||
Underground system | |||
Location-specific restrictions and setbacks | Pollution prevention | Municipal | |
Temporary construction sediment control | Drainageway | ||
Knowledge of performance and reliability | Better Site Design | ||
Pollution prevention | Municipal | ||
Industrial commercialtd> | |||
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Inspect & maintain | |||
Bioretention | Filtration | ||
Filtration | Media (sand) | ||
Vegetative | |||
Stormwater ponds | Stormwater ponds | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Pollution prevention | Bioretention | Filtration | |
Filtration | Vegetative | ||
Minimize runoff | Reduce volume | Bioretention | Filtration |
Filtration | |||
Filtration | Media (sand) | ||
Vegetative | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Minimize runoff | Increase recharge | Bioretention | Filtration |
Filtration | Vegetative | ||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Minimize runoff | Improve water quality | Runoff minimization | Volume reduction |
Capture and re-use | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | |||
Filtration | Media (sand) | ||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Supplemental treatment | Chemical biological treatment | ||
Filtration devices | |||
Hydrodynamic devices | |||
Minimize runoff | Reduce costs | Pollution prevention | Residential |
Municipal | |||
Industrial commercial | |||
Runoff minimization | Volume reduction | ||
Capture and re-use | |||
Temporary construction sediment control | Inspect & maintain | ||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | |||
Filtration | Vegetative | ||
Minimize runoff | Local feasibility | Pollution prevention | Industrial commercial |
Minimize runoff | Cold climate | Pollution prevention | Residential |
Runoff minimization | Volume reduction | ||
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Minimize runoff | Land use | Bioretention | Infiltration recharge |
Bioretention | Filtration partial recharge | ||
Infiltration filtration recharge | |||
Filtration | |||
Filtration | Vegetative | ||
Supplemental treatment | Filtration devices | ||
Hydrodynamic devices | |||
Temporary construction sediment control | Runoff minimization | Volume reduction | |
Capture and re-use | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Supplemental treatment | Chemical biological treatment | ||
Watershed factors | Lakes | Constructed wetlands | Shallow wetland |
ED shallow wetland | |||
Trout resources | Runoff minimization | Capture and re-use | |
Temporary construction sediment control | Otherb | ||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Drinking water | Pollution preventions | Industrial commercial | |
Runoff minimization | Capture and re-use | ||
Filtration | Vegetative | ||
Wetlands (calcareous fens) | Runoff minimization | Infiltration recharge | |
Bioretention | Volume reduction | ||
Impaired waters | Pollution prevention | Industrial commercial | |
Runoff minimization | Capture and re-use | ||
Temporary construction sediment control | Otherb | ||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Climate and terrain | Active karst | Better Site Design | |
Temporary construction sediment control | Drainageway | ||
Otherb | |||
Bioretention | Filtration partial recharge | ||
Stormwater ponds | Without extended detention | ||
Constructed wetlands | Pond wetland system | ||
Fractured bedrock/shallow soil | Better Site Design | ||
Low infiltration soil | Bioretention | Filtration | |
Filtration | Media (sand) | ||
Vegetative | |||
High snowfallt | Better Site Design | ||
Pollution prevention | Industrial commercial | ||
Bioretention | Infiltration recharge | ||
Filtration | Media (sand) | ||
Vegetative | |||
Infiltration | Infiltration basin | ||
Low rainfall | Stormwater ponds | With extended detention | |
Stormwater treatment suitability | Recharge | Temporary construction sediment control | Slope |
Drainageway | |||
Otherb | |||
Filtration | Vegetative | ||
Water quality | Runoff minimization | Volume reduction | |
Capture and re-use | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | |||
Infiltration | Infiltration basin | ||
Dry well | |||
Underground system | |||
Supplemental treatment | Chemical biological treatment | ||
Filtration devices | |||
Hydrodynamic devices | |||
Stormwater treatment suitability | Channel protection | Temporary construction sediment control | Otherb |
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtration | |||
Filtration | Vegetative | ||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Infiltration trench | |||
Dry wellh | |||
Underground system | |||
Peak discharge | Temporary construction sediment control | Otherb | |
PSHc | Better Site Design | ||
Bioretention | Filtration | ||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Physical feasibility | Surface area | Supplemental treatment | Filtration devices |
Hydrodynamic devices | |||
Soils | Constructed wetlands | Shallow wetland | |
ED shallow wetland | |||
Temporary construction sediment control | Slope | ||
Depth to water table | Bioretention | Infiltration recharge | |
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Site slope | Bioretention | Infiltration recharge | |
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Filtratione | |||
Community and environment | Ease of maintenance | Pollution prevention | Industrial commercial |
Temporary construction sediment control | Otherb | ||
Bioretention | Filtration | ||
Filtration | |||
Without extended detention | |||
Constructed wetlands | Pond wetland system | ||
Supplemental treatment | Hydrodynamic devices | ||
Pollution prevention | Industrial commercial | ||
Industrial commercial | |||
Habitat quality | Stormwater ponds | With extended detention | |
Without extended detention | |||
Nuisance | Stormwater ponds | With extended detention | |
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Ease of maintenance | Stormwater ponds | With extended detention | |
With extended detention | |||
Location-specific restrictions and setbacks | Better Site Design | ||
Runoff minimization | Capture and re-use | ||
Knowledge of performance and reliability | Runoff minimization | Capture and re-use | |
Temporary construction sediment control | Otherb | ||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Supplemental treatment | Chemical biological treatment | ||
Filtration devices | |||
Hydrodynamic devices | |||
Sensitivity to improper construction and poor maintenances | Better Site Design | ||
Runoff minimization | Capture and re-use | ||
Bioretention | Filtration | ||
Filtration | Vegetative | ||
Stormwater ponds | With extended detention | ||
Without extended detention | |||
Not recommended best management practices | |||
Temporary construction sediment control | Infiltration | Infiltration basin | |
Infiltration trench | |||
Dry well | |||
Underground system | |||
Watershed factors | Trout resources | Stormwater ponds | With extended detention |
Without extended detention | |||
Climate and terrain | Active karst | Bioretention | Infiltration recharge |
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Fractured bedrock/shallow soil | Bioretention | Infiltration recharge | |
Low infiltration soil | Bioretention | Infiltration recharge | |
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Underground system | |||
Stormwater treatment suitability | PSHc | Infiltration | Bioretention |
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Dry well | |||
Underground system | |||
Physical feasibility | Surface area | Stormwater ponds | With extended detention |
Without extended detention | |||
Drainage area | Constructed wetlands | Shallow wetland | |
ED shallow wetland | |||
Pond wetland system | |||
Soils | Infiltration | Infiltration basin | |
Infiltration trench | |||
Dry well | |||
Underground system | |||
Depth to rock | Bioretention | Infiltration recharge | |
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Stormwater ponds | With extended detention | ||
Depth to water table | Infiltration | Infiltration basin | |
Infiltration trench | |||
Dry well | |||
Underground system | |||
Ultra-urban | Stormwater ponds | With extended detention | |
Without extended detention | |||
Without extended detention | |||
Constructed wetlands | Shallow wetland | ||
ED shallow wetland | |||
Pond wetland system | |||
Community and environment | Ease of maintenance | Filtration | Media (sand) |
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Community acceptance | Bioretention | Infiltration recharge | |
Infiltration filtration recharge | |||
Construction cost | Filtration | Media (sand) | |
Vegetative | |||
Infiltration | Infiltration trench | ||
Underground system | |||
Supplemental treatment | Chemical biological treatment | ||
Chemical biological treatment | |||
Habitat quality | Filtration | Media (sand) | |
Infiltration | Infiltration trench | ||
Dry well | |||
Underground system | |||
Supplemental treatment | Filtration devices | ||
Hydrodynamic devices | |||
Sensitivity to improper construction and poor maintenance | Runoff minimization | Volume reduction | |
Temporary construction sediment control | Perimeter | ||
Slope | |||
Drainageway | |||
Bioretention | Infiltration recharge | ||
Filtration partial recharge | |||
Infiltration filtration recharge | |||
Infiltration | Infiltration basin | ||
Infiltration trench | |||
Dry well | |||
Underground system | |||
Supplemental treatmentn | Hydrodynamic devices |
aI/C = Industrial commercial
bIncludes drainage inlets, trees, waterbodies
cPSH = potential stormwater hotspot
dCondition = recommended with conditions
Nine factors should be evaluated in the BMP selection process, as follows:
Pollution prevention should be the first consideration during any development or redevelopment project and is the first step in the treatment train. This step involves looking for opportunities to reduce the exposure of soil and other pollutants to rainfall and possible runoff. Examples of pollution prevention practices include keeping urban surfaces clean, proper storage and handling of chemicals, and preventing exposure of unprotected soil and pollutants.
A range of better site design (BSD) techniques can provide non-structural stormwater treatment, improve water quality and reduce the generation of stormwater runoff
Designers should understand the comparative benefits and drawbacks of BSD techniques that could potentially be applied to the site. Designers should answer the following questions:
All of the techniques shown in the table below are suitable for cold climate conditions in the State of Minnesota.
This table shows an overview of techniques to reduce runoff during site design and layout
Link to this table
Better site design technique | Reduce stormwater runoff volume | Possible stormwater credit | Cost savings | Local feasibilitya | Appropriate land use |
---|---|---|---|---|---|
Natural area conservation | High | Yes | High | Promoted | All |
Site reforestation and prairie restoration | High | Yes | Medium | Promoted | All |
Stream and shoreline buffers | High | Yes | High | Required | All |
Soil amendments | High | Yes | Low | Experimental | All |
Surface impervious cover disconnection | High | yes | High | Experimental | Residential, commercial, industrial; caution with industrial potential stormwater hotspots |
Rooftop disconnection | High | Yes | High | Experimental | All |
Open space design | High | No | High | Constrained | Residential, commercial, industrial |
Grass channels | Low | Yes | High | Constrained | Residential, commercial, industrial; caution with industrial potential stormwater hotspots |
Reduced street width | High | No | High | Constrained | Residential, commercial |
Reduced sidewalks | High | No | High | Constrained | Residential, commercial |
Smaller and vegetated cul-de-sac | High | No | High | Constrained | Residential |
Shorter driveways | High | No | High | Constrained | Residential |
Green parking lots | Medium | No | Low | Experimental | High density residential, commercial, industrial |
avaries greatly among communities; consult local reviewing authority to determine ease of implementation
Construction sites can be a major source of sediment and nonpoint source pollutants if soils are exposed to erosion. Effective application of temporary sediment controls is an essential element of a stormwater management plan and helps preserve the long-term capacity and function of permanent stormwater BMPs. Designers should recognize that they will need to revisit and refine the erosion and sediment control plan throughout the design and construction period as more information on site layout and the type and location of BMPs becomes available.
This table shows a summary of temporary construction and sediment control techniques
Link to this table
Technique | Practice | How it works | When to apply | Comments |
---|---|---|---|---|
Pre-construction planning | Site planning and grading | Minimizes soil disturbance and unprotected exposure | Planning | Expose only as much as needed for immediate construction |
Sequencing | Limits amount of soil exposed | Planning | ||
Resource protection | Forest conservation and water resource buffers | Establishes protective zone around valued natural resources | Early | Buffer variable from a few feet to 100 feet depending uopn resource being protected and local regulations |
Perimeter control | Access and egress control | Minimizes transport of soil off-site | Early | Must be in place prior to commencement of construction activities |
Inlet protection | Stops movement of soil into drainage collection system | Early | ||
Slope stabilization | Grade breaks | Minimizes rill and gully erosion | Early | No unbroken slopes > 75 feet on 3:1 side slopes or greater |
Silt curtain | Stops sediment from moving | Early | ||
Runoff control | Stabilize drainageways | Minimizes increased erosion from channels | All construction phases | Possible to convert these into permanent open channel systems after construction |
Sediment control basins | Collects sediment that erodes from site before it leaves site or impacts resource | All construction phases | Possible to convert these into post construction practices after construction | |
Rapid stabilization of exposed soils | Seeding and mulch | Immediately established vegetative cover on exposed spoil | All construction phases | Apply seed as soils are exposed |
Blankets | Provides extra protection for exposed oil or steep slopes | All construction phases | Apply blanket as exposed soil cover until plants established | |
Inspection and maintenance | Formalized I&M program | Assures that BMPs are properly installed and operating in anticipated manner | All construction phases | Essential to proper BMP implementation |
Designers should understand the nature and regulatory status of the waters that will receive runoff from the development site. The type of receiving water strongly influences the preferred BMP to use, and in some cases, may trigger increased treatment requirements. There are many different kinds of Special Waters and other sensitive receiving waters in Minnesota that should be considered (see Sensitive waters and other receiving waters; Regulatory information). For purposes of this Manual, receiving waters fall into five categories: lakes, trout resources, drinking waters, wetlands and impaired waters.
The full spectrum of BMPs can be applied to sites that drain to receiving waters that are not designated as special or sensitive in Minnesota. If the receiving water falls into one of the special or sensitive water categories, the range of BMPs that can be used may be reduced. For example, only BMPs that provide a higher level of phosphorus removal may be encouraged for sensitive lakes. In trout streams, use of ponds may be discouraged due to concerns over stream warming.
The full range of BMP restrictions for the five categories of receiving water are presented in the following table.
This table shows the appropriateness of different BMP groups for different categories of receiving water.
Link to this table
BMP group | |||||
---|---|---|---|---|---|
Lakes | Trout resources | Drinking waterb | Wetlandsc | Impaired waters | |
General location | Outside of shoreline buffer | Outside of stream buffer | Setbacks from wells, septic systems | Outside of wetland buffer | Selection based on pollutant removal for target pollutants |
Bioretention | Preferred | Preferred | OK with cautions for potential stormwater hotspots | Preferred | Preferred |
Filtration | Some variations restricted due to limited P removal; combined with other treatments | Preferred | Preferred | OK | Preferred |
Infiltration | Preferred | Preferred | Restricted if potential stormwater hotspot | Preferred | Restricted for some target TMDL pollutants |
Stormwater ponds | Preferred | Some variations restricted due to pool and stream warming concerns | Preferred | Preferred but no use of natural wetlands | Preferred |
Constructed wetlands | Some variations restricted due to seasonally variable P removal; combined with other treatments | Restricted except for wooded wetlands | Preferred | Preferred but no use of natural wetlands | Preferred |
Supplemental BMPs | Restricted due to poor P removal; must combine with other treatmentsX | Restricted - must combine with other treatments | Restricted - must combine with other treatments | Restricted - must combine with other treatments | Restricted - must combine with other treatments |
aOutstanding Resource Value Waters (ORVWs) are not included because they fall within one of the receiving water management categories.
bApplies to groundwater drinking water source areas only. Use the sensitive lakes category to define BMP design restrictions for surface water drinking supplies.
cIncluding calcareous fens
Climate and terrain conditions vary widely across the State, and designers need to explicitly consider each of these regional factors in the context of BMP selection. The proposed BMPs for the site should match the prevailing climate and terrain. Specific questions that should be asked include the following:
Preferred BMPs and design modifications are outlined in the following table.
This table shows the summary of climate, soil and terrain factors that affect the selection of Best Management Practices.
Link to this table
BMP | Karst | Bedrock and shallow soils | High snowfall - meltwater treatment | Low rainfall | |
---|---|---|---|---|---|
Bioretention - no underdrain | Not recommended. Extensive pre-treatment required | Not recommended due to separation distance | OK. Use salt-tolerant vegetationand pre-treatment. Chlorides will move through untreated. | OK. Use appropriate vegetation. | |
Bioretention with underdrain | OK. Under certain conditions use impermeable liner | Recommended. | OK. Use salt-tolerant vegetationand pre-treatment. Chlorides will move through untreated. | OK. Use appropriate vegetation. | |
Filtrationa | OK. Under certain conditions use impermeable liner | Recommended | OK. Place below frost line. Use pre-treatment. Chlorides will move through untreated. | Recommended. | |
Infiltrationb | Not recommended. Extensive pre-treatment required | Not recommended due to separation distance | OK but could be limited. Active management needed to prevent infiltration of chlorides and soluble toxics. | Recommended | |
Stormwater ponds | OK. Under certain conditions use impermeable liner; limit depth; geotechnical investigation needed. | Limited due to available depth and large surface area requirement. | Recommended. Limit depth to avoid stratification. Adapt outlet structure. | Limited. Water budget calculations may show this to be unsuitable. | |
Constructed wetlands | OK. Under certain conditions use impermeable liner; limit depth; geotechnical investigation needed. | OK. Large surface area. | OK. Use salt-tolerant vegetation. | Limited. Water budget calculations may show this to be unsuitable. |
aSee sand filters, Dry swale (Grass swale), High-gradient stormwater step-pool swale, or Wet swale (wetland channel)
bSee infiltration trench or infiltration basin
Not all BMPs work over the wide range of storm events that need to be managed at a site. Designers first need to determine which of the recommended unified sizing criteria apply to the development site (i.e., recharge, water quality, channel protection, peak discharge), and then choose the type or combination of BMPs that can achieve them.
This is the stage in BMP selection process where designers often find that a single BMP may not satisfy all stormwater treatment requirements. The alternative is to use a combination of BMPs arranged in a series or treatment train, or add supplemental practices to the primary BMP that provide additional pre- or post-treatment. Some questions that designers should ask include the following:
The following table provides guidance on BMP selection for different management scenarios.
This table shows guidance on BMP suitability for different stormwater strategies.
Link to this table
BMP group | Rechargea | Water qualitya | Channel protectiona | Peak dischargea | Hot spot runoff |
---|---|---|---|---|---|
Bioretention | Varies | Yes | Possibleb | No | Yes. Needs underdrain |
Filtration - media | No | Yes | No | No | Yes |
Filtration - vegetative | Variesc | Yes | Possibleb | No | Yes |
Infiltration trench | Yes | Yes | No | No | No |
Infiltration basin | Yes | Yes | Yes | Yes | No |
Stormwater ponds | Nod | Yes | Yes | Yes | Yes |
Constructed wetlands | Variesd | Yes | Yes | Yes | Yes. Needs pre-treatment |
Supplemental BMPs | Varies | Nob | Possibleb | No | Noe |
aSee section on unified sizing criteria for more information
bCan be incorporated into the structural control in certain situations
cMay be provided by infiltration
dWhen impermeable liners are required or pool intercepts groundwater
eCan be included as part of the treatment train
By this point, the list of possible BMPs has been narrowed and now physical factors at the site are assessed to whittle it down even further. There are several physical factors at the site that can constrain, restrict or eliminate BMPs from further consideration.
The following table provides guidance for BMP selection considering physical feasibility at the site.
This table shows guidance on BMP selection based on physical feasibility characteristics of a site.
Link to this table.
BMP group | Surface areaa | Drainage area | Soil infiltration rate | Head | Separation from bedrock | Depth to seasonally high water table | Maximum slopec | Ultra-urban |
---|---|---|---|---|---|---|---|---|
Bioretention | 7-10%; Minimum 200 ft2 | 5 acre maximum; 0.5-2.0 acre preferred | Any soil; use underdrain for C and D soilsd | 3 feet | 3 feet | 20% | Yes | |
Filtration - media | Negligible, except for access | 5 acre maximum; 0.5-2.0 acre preferred | Media part of designd | 2-6 feet | 0 feet if enclosed | 3 feet for vegetated; 0 feet if enclosed | 20% | Yes |
Filtration - vegetative | Varies based on depth | 10 acre maximum | Media part of design | 2-6 feet | 0 feet if enclosed | 3 feet for vegetated; 0 feet if enclosed | 20% | Possible |
Infiltration trench | Varies based on depth | 5 to 10 acre maximum | Native soils with i >= 0.2 inches/hour | 2-12 feet | 3 feet | 3 feet | 15% | Possible |
Infiltration basin | Varies based on depth | 5 to 50 acre maximum | Native soils with i >= 0.2 inches/hour | 2-12 feet | 3 feet | 3 feet | 15% | No |
Stormwater ponds | 1-3% | 10 to 25 acres recommendedb | A or B soils may require liner | 3-10 feet | 0 feet (shallow soil limits design) | 0 feet (except if hotspot or aquifer) | 25% | No |
Constructed wetlands | 2-4% | 25 acre minimumb | A or B soils may require liner | 3-10 feet | 0 feet | 0 feet (except if hotspot or aquifer) | 25% | No |
aSurface area as a function of contributing surface area, except for ponds and wetlands, where it is a function of entire drainage area
b10 acres or less may be feasible if groundwater is intercepted and/or if water balance calculations indicate a wet pool can be sustained
cSlope is defined as the slope across the proposed location of the practice
dInfiltration gallery could be designed to provide limited recharge
Some BMPs can provide positive economic and environmental benefits for the community, while others can have drawbacks or create nuisances.
The following table provides guidance on assessing community and environmental factors in selecting BMPs.
This table shows guidance on selecting BMPs based on community and environmental factors.
Link to this table
BMP group | Ease of maintenancea | Community acceptance | Construction cost | Habitat quality | Nuisances |
---|---|---|---|---|---|
Bioretention | Medium | High | Medium | Medium |
|
Filtration - media | Difficult | High | High | Low |
|
Filtration - vegetative | Medium | Medium | High | Low |
|
Infiltration trench | Difficult | High | High | Low | Susceptible to failure if poorly installed or maintained |
Infiltration basin | Medium | Low | Medium | Low | Susceptible to failure if poorly installed or maintained |
Stormwater ponds | Easy to medium | Medium to high | Low | Medium |
|
Constructed wetlands | Medium | Medium to high | Medium | Medium |
|
Hydrodynamic devices | Medium | High | High | Low | Underground practices not seen or maintained |
Filtration devices | Difficult (expensive) | High | High | Low | Underground practices not seen or maintained |
The last step in BMP selection checks to see if any environmental resources or infrastructure are present that will influence where a BMP can be located on the site (i.e., setback or similar restriction). Below is an overview of 10 site-specific conditions that impact where a BMP can be located on a site. A more extensive discussion of the relevant Minnesota rules and regulations that influence BMP design can be found in the regulatory part of this manual.
Jurisdictional wetland
Stream channel
prior to design.
Shoreland management
Stream buffer
Sinkholes
100-year floodplain
Water wells - private and public
Septic systems
Utilities
way for public or private utilities.
Roads
Structures
Stormwater managers are reluctant to make a final BMP selection without having some basic information on the construction and maintenance costs. Cost information can be found for most BMPs in this Manual within individual BMP sections of the Manual. However, this technique is not always practical or even feasible at the BMP selection stage. Stormwater managers who wish to learn the relative cost effectiveness between two specific BMPs are encouraged to use information prepared by the Minnesota Department of Transportation in a May, 2005 report titled The Cost Effectiveness of Stormwater Management Practices. As part of their research, the authors incorporated both historical construction costs and 20 years of expected annual maintenance costs. The result is a series of graphs that present total present cost (construction plus maintenance) plotted against water quality volume. Graphs of total present worth value of construction plus maintenance costs are available for wet basins, dry detention basins, constructed wetlands, infiltration trenches, bioinfiltration filters, sand filters, and 1,000-foot long vegetated swales in the Mn/DOT report. This simple technique can then be used to estimate the total present cost of a BMP under consideration. For purposes of establishing a specific budget for construction and maintenance, stormwater managers are encouraged to follow the procedures outlined within the individual BMP sections of this Manual.