Infiltration basin explained

An infiltration basin (or recharge basin) is a form of engineered sump[1] or percolation pond[2] that is used to manage stormwater runoff, prevent flooding and downstream erosion, and improve water quality in an adjacent river, stream, lake or bay. It is essentially a shallow artificial pond that is designed to infiltrate stormwater through permeable soils into the groundwater aquifer. Infiltration basins do not release water except by infiltration, evaporation or emergency overflow during flood conditions.[3] [4] [5]

It is distinguished from a detention basin, sometimes called a dry pond, which is designed to discharge to a downstream water body (although it may incidentally infiltrate some of its volume to groundwater); and from a retention basin, which is designed to include a permanent pool of water.

Design considerations

Infiltration basins must be carefully designed to infiltrate the soil on a given site at a rate that will not cause flooding. They may be less effective in areas with:

At some sites infiltration basins have worked effectively where the installation also includes an extended detention basin as a pretreatment stage, to remove sediment.[7] The basins may fail where they cannot be frequently maintained, and their use is discouraged in some areas of the United States. For example, they are not recommended for use in the U.S. state of Georgia, which has many areas with high clay soil content, unless soil on the particular site is modified ("engineered soil") during construction, to improve the infiltration characteristics.[8]

See also

External links

Notes and References

  1. News: Fagin . Dan . Ancient, Clean, Controversial: Preserving deep reserves of water is LI's chief environmental issue . 2007 . Newsday . Melville, NY .
  2. Web site: Water Portal / Rainwater Harvesting / Groundwater recharge / Infiltration ponds.
  3. Pekarek . Kathryn A. . Shelton . David P. . Feehan . Kelly A. . Holm . Bobbi A. . 2011 . Stormwater Management: Terminology . 1 . University of Nebraska-Lincoln . 7 . EC701. Extension Circular.
  4. New Jersey Department of Environmental Protection. Trenton, NJ."New Jersey Stormwater Best Management Practices Manual." Chapter 9.5: Standard for Infiltration Basins. April 2004.
  5. August 1999 . Preliminary Data Summary of Urban Storm Water Best Management Practices . Ch. 5: Description and Performance of Storm Water Best Management Practices . U.S. Environmental Protection Agency (EPA) . Washington, D.C. . EPA-821-R-99-012.
  6. http://wef.org Water Environment Federation
  7. Clar . Michael L. . Barfield . Billy J. . O'Connor . Thomas P. . 2004 . Stormwater Best Management Design Guide; Volume 3: Basin Best Management Practices . EPA . Pretreatment . 4–8 . EPA 600/R-04/121B.
  8. Atlanta Regional Commission . 2016 . Georgia Stormwater Management Manual, Volume 2 - Technical Handbook . Infiltration Practices . 247–252. etal.