This page combines information from the following pages into a single page:

  • Hydrodynamic separation devices
  • Screening and straining devices, including forebays
  • Above ground and below grade storage and settling devices
  • Filtration devices and practices
  • Other pretreatment water quality devices and practices

Hydrodynamic separation devices

{{:Pretreatment - Hydrodynamic separation devices

Screening and straining devices, including forebays

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Information: Reference to any specific commercial product, process, or service by trade name, trademark, service mark, manufacturer, or otherwise does not constitute or imply endorsement, recommendation, or favoring by the Minnesota Pollution Control Agency.
image of swale check dams
Photograph of an example of check dams, which are designed to reduce velocity and thus enhance settling of sediment behind the dams (image courtesy: Massachusetts Clean Water Toolkit, Massachusetts DEP).

Screening and straining devices trap trash and coarse debris using smaller apertures such as grates or screens. While many pretreatment devices utilize screening and straining in tandem with their main treatment process, the examples in this category are constrained to those that primarily remove larger particles and sediment by screening or straining. These devices are often visible from ground level as they generally sit above grade or slightly below grade before or just following inlets in order to protect the downstream drainage system/BMP from clogging. This table contains both proprietary and nonproprietary devices, with the proprietary systems often applying the same or similar mechanisms to the nonproprietary systems but with convenient and sometimes easier construction or ease of maintenance.

System design

Screening and straining devices can often be installed in parallel to accommodate larger drainage areas, but in general, each unit is intended for a small drainage area (< 1acre).

System and component sizing

Most important for the sizing is the anticipated frequency of operation and maintenance as well as the considerations of how well the device provides protection of downstream BMPs and receiving waters.

Links to tables with information on screening and straining devices

Below are links to several tables containing information on screening and straining devices. To see all tables on a single page, link here.


Above ground and below grade storage and settling devices

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Information: Reference to any specific commercial product, process, or service by trade name, trademark, service mark, manufacturer, or otherwise does not constitute or imply endorsement, recommendation, or favoring by the Minnesota Pollution Control Agency.
settling practice schematic
Proprietary example of a pretreatment (isolator) row on underground storage/filtration system by StormTech. The row acts as a sacrificial first row to capture the bulk of the sediment before the other rows of chambers receive the water for infiltration (image courtesy: StormTech Product Catalogue, 2013). Click on image to enlarge.

Above ground and below grade storage and settling systems are typically below grade vaults, specialized structures, or similar practices that are designed to promote gravitational settling in a liquid-filled system. These devices may also be outfitted with additional structures to also trap trash, oil, and other floatables. The devices presented below are a mix of proprietary and nonproprietary systems. The proprietary entries are examples that utilize one or more of the nonproprietary functionalities. Manholes with sumps have the space underneath the manhole’s lowest outlet (the sump) for sediment and debris collection and storage. The practice itself is nonproprietary, though proprietary outlet structures are available for enhanced performance.

Forebays are small bodies of water positioned just upstream of a larger pretreatment or treatment area. They slow the water allowing for settling of larger sediment. While these can be installed in front of vegetative filter strips, ponds, or other practices, each of which maintains its own specifications and recommendations, the forebays in this table are examples of the most common and general applications.

System Design

The underground settling vaults often come in pre-cast sizes from the manufacturer as an alternative to designing a custom unit. This is often a cost-effective approach with the designer selecting a larger size if manufacturer does not have the exact size based on calculations or sizing tables. Design and sizing tables may be available on a manufacturer’s website and are often accessible through the hyperlinks.

For forebays, the design is most often based on required capacity. Other specifications such as those listed under “Materials” often help to make maintenance easier.

System and Component Sizing

The sizing of an underground settling system can be estimated using various tools, formulae, or guidance documents. Most manufacturers have a tool or calculator for determining the size of device that may be needed, however modeled flow rates or the rational equation can be used to estimate the runoff flow rates. Additionally, guidance from the State of New Jersey Department of Environmental Protection and Washington State Department of Ecology provide additional considerations based on performance of these devices. Many sumped manholes can also use SHSAM (Sizing Hydrodynamic Separators And Manholes) for predicting the amount of suspended sediments removed from stormwater runoff over a given period of time. SHSAM is comprised of a continuous runoff model and sediment removal responses to predict the removal efficiency of the device. Most important for the sizing is the anticipated frequency of operation and maintenance as well as the protection of downstream BMPs and receiving waters.

Specifically regarding forebays, the capacity is determined by the flow received from its impervious drainage area. Then the shape of the basin and positioning of its inlets and outlets ensure that adequate settling occurs. Some devices have “enhancements” that can provide treatment mechanisms beyond the primary pretreatment mechanism. These can provide an additional level of treatment such as filtration, skimming (in addition to settling or screening), chemical treatment/sorption, or biodegradation. This is denoted by the Y or N in the table indicating this ability to perform additional mechanisms.

Links to tables with information on above ground and below grade storage and settling

Below are links to several tables containing information on above ground and below grade storage and settling. To see all tables on a single page, link here.


Filtration devices and practices

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Information: Reference to any specific commercial product, process, or service by trade name, trademark, service mark, manufacturer, or otherwise does not constitute or imply endorsement, recommendation, or favoring by the Minnesota Pollution Control Agency.

Filtration pretreatment practices include proprietary and non-proprietary devices that remove particles by filtration or sieving through media (gravel, sand or other), vegetation, geotextile or fabric material, metal or plastic screen, or other material. The filtration devices presented in this table are classified as pretreatment due to the nature of the filtration, placement in the treatment train, or built-in additional pretreatment mechanisms. The filtration methods are widely varied from biological to mechanical. They seek to remove not only larger sediments and debris, but also heavy metals, nutrients, and other fine contaminants. The natural or engineered biological systems are, by nature, above ground.

System Design

Some filtration pretreatment methods require a larger footprint than other pretreatment options due to the slower flow through rate and surface-area-based effectiveness. Most drainage area references refer to impervious area.

System and Component Sizing

Sizing is largely based on drainage area and estimated runoff volumes for different design storms or intensities. Most important for the sizing is the anticipated frequency of operation and maintenance as well as protection of downstream BMPs and receiving water. Some devices have “enhancements” that can provide treatment mechanisms beyond the primary pretreatment mechanism. These can provide an additional level of treatment such as filtration, skimming (in addition to settling or screening), chemical treatment/sorption, or biodegradation. This is denoted by the Y or N in the table indicating this ability to perform additional mechanisms.


Links to tables with information on filtration

Below are links to several tables containing information on filtration. To see all tables on a single page, link here. To see the information in a single spreadsheet click on the following link: [[File:]]


Other pretreatment water quality devices and practices

Links to tables with information on other water quality devices

Below are links to several tables containing information on other water quality devices. To see all tables on a single page, link here. To see the information in a single spreadsheet click on the following link: [[File:]]