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Silt fence

February 15, 2024

A silt fence, sometimes (misleadingly) called a "filter fence,"[1] is a temporary sediment control device used on construction sites to protect water quality in nearby streams, rivers, lakes and seas from sediment (loose soil) in stormwater runoff. Silt fences are widely used on construction sites in North America and elsewhere, due to their low cost and simple design.[2] However, their effectiveness in controlling sediment can be limited, due to problems with poor installation, proper placement, and/or inadequate maintenance.[3]

Silt fence installed up-slope of a vegetated stream buffer

Design and installation edit

 
Silt fence installed on a construction site

Silt fences are often installed as perimeter controls. They are typically used in combination with sediment basins and sediment traps, as well as with erosion controls, which are designed to retain sediment in place where soil is being disturbed by construction processes (i.e., land grading and other earthworks).[4]

 
Chain link supported "super" silt fence

A typical fence consists of a piece of synthetic filter fabric (also called a geotextile) stretched between a series of wooden or metal fence stakes along a horizontal contour level. The stakes are installed on the downhill side of the fence, and the bottom edge of the fabric can be trenched into the soil and backfilled on the uphill side, although it is quite difficult to move the trenched "spoil" from the downside to the upside of the trench. The design/placement of the silt fence should create a pooling of runoff, which then allows sedimentation to occur. Water can seep through the silt fence fabric, but the fabric often becomes "blocked off" with fine soil particles (all sediment-retention devices have this challenge, and none of them "filter" storm water for very long).[citation needed] A few hours after a storm event, the fabric can be "disturbed" in order to dislodge the fines, and allow clean water to flow through. Depending on the protected watershed and erosion, larger soil particles will settle out, ultimately filling the silt fence to the top of the structure; requiring another silt fence above or below it (creating a new ponding area), or for the silt fence to be removed, the sediment removed or spread out, and a new fence installed. The fence is not designed to concentrate or channel stormwater. The fence is installed on a site before soil disturbance begins, and is placed down-slope from the disturbance area.[5][6]

Sediment is captured by silt fences most often through ponding of water and settling, rather than filtration by the fabric. Sand and silt tends to clog the fabric, and then the sediments settle in the temporary pond.[7]: p.6–9 [8]: p.7–46 

Super silt fence edit

Some government jurisdictions in the United States recommend or require the use of a reinforced fence, sometimes called a "super" silt fence or an enhanced silt fence, on some construction sites.[9] This design uses filter fabric reinforced by a wire mesh or chain link fence. The metal backing gives the fence increased strength to resist the weight of soil and water which may be trapped by the fence in a large drainage area, and discourages construction site operators from driving vehicles over the fence.[10] However, an improper installation of a super silt fence can create an inadvertent sediment basin when the filter fabric becomes clogged. This typically causes flooding and increased downstream pollution. Most super silt fence specifications are outdated, requiring the trenching installation method, which has been shown to be highly susceptible to "washing out" under the fabric due to improper back-filling and inadequate compaction.[citation needed]

Static slicing installation edit

 
Static slicing machine

Some state agencies recommend an installation technique called "static slicing" as an improved method for ensuring effectiveness and longevity of a silt fence system on a construction site. The technique involves inserting a narrow blade into the soil with a wedge-type point on its tip to slightly disrupt the soil upward, while simultaneously inserting the silt fence fabric into the slot with a moving pivot, while the machine is moving forward. This step is followed by mechanical soil compaction, setting of fence posts, and attaching the fabric.[6][11]

Effectiveness edit

 
Installation detail for a silt fence with specifications recommended by US EPA[12]

Silt fence fabrics (geotextiles) tested in laboratory settings have shown to be effective at trapping sediment particles.[13]: 45–47  Although there have been few field tests of silt fences installed at construction sites, these tests have shown generally poor results.[13]: 27–31, 53–55  (Effectiveness testing involved measurements for both total suspended solids and turbidity.) Other studies and articles about silt fence usage and practice document problems with installation and maintenance, implying poor performance.[1]

Since 1998, static slicing the material into the ground has proven to be the most efficient and most effective installation method because slicing maintains the soil on both sides of the fence, and is conducive to proper compaction—which is critical to performance, as well.[citation needed] In 2000 the U.S. Environmental Protection Agency (EPA) co-sponsored silt fence efficacy field research through its Environmental Technology Verification Program, and in general, the report found the static slicing method to be highly effective, and efficient.[14] Silt fence effectiveness is best determined by how many hundreds of pounds of sediment are contained behind a given silt fence after a storm event, and not turbidity, etc. as sediment-retention is the end goal, and not a water-quality measurement used in erosion control, for instance.[citation needed]

Silt fences may perform poorly for a variety of reasons, including improper location (e.g. placing fence where it will not pond runoff water), improper installation (e.g. failure to adequately embed and backfill the lower edge of fabric in the soil) and lack of maintenance—fabric falling off of the posts, or posts knocked down. A silt fence top-full of sediment may need maintenance/replacement, but it is a huge success.[7]: p.6–10  The fabric may become damaged with holes and tears if construction materials are stored next to or on top of the fence. During various phases of construction at a site, a silt fence may be removed relocated and reinstalled multiple times.[13]: 30–31  It may be difficult to maintain effectiveness of a silt fence under such operating conditions. Location of fences in areas with high flows may lead to fence failures when the installation is not adequately back-filled and properly compacted, and/or the post-spacing is inadequate.[8]: p.7–46 

See also edit

References edit

  1. ^ a b Stevens, Ellen; Barfield, Billy J.; Britton, S.L.; Hayes, J.S. (September 2004). Filter Fence Design Aid for Sediment Control at Construction Sites (Report). Cincinnati, OH: U..S. Environmental Protection Agency (EPA). EPA 600/R-04/185.
  2. ^ Sprague, C.J. (1999). "Assuring the Effectiveness of Silt Fences and Other Sediment Barriers." Proceedings of Conference 30, International Erosion Control Association, Nashville, TN. pp. 133-154.
  3. ^ Brzozowski, Carol (Nov–Dec 2006). "Silt Fence Installation". Erosion Control. Forester Media. 13 (7).
  4. ^ "Chapter 2. Erosion and Sediment Control Principles, Practices and Costs" (PDF). Virginia Erosion and Sediment Control Handbook (Report) (3rd ed.). Richmond, VA: Virginia Department of Environmental Quality (VA DEQ). 1992.
  5. ^ "Spec. 3-05. Silt Fence". Virginia Erosion and Sediment Control Handbook (PDF) (Report) (3rd ed.). VA DEQ. 1992. p. III-19.
  6. ^ a b Silt Fences (PDF) (Report). Stormwater Best Management Practice. Washington, D.C.: EPA. 2012. EPA 833-F-11-008.
  7. ^ a b Fifield, Jerald S. (2004). Designing for Effective Sediment and Erosion Control for Construction Sites. Santa Barbara, CA: Forester Press. ISBN 978-0-9707687-3-5.
  8. ^ a b Development Document for Final Effluent Guidelines and Standards for the Construction and Development Category (Report). Washington, D.C.: EPA. 2009. EPA 821-R-09-010.
  9. ^ "Section 3.2: Super Silt Fence" (PDF). Erosion and Sediment Control Manual (Report). Washington, D.C.: District of Columbia, Department of Energy and Environment. September 2017. pp. 93–96.
  10. ^ "Section H - 26.0: Super Silt Fences". 1994 Maryland Specifications for Soil Erosion and Sediment Control (PDF) (Report). Baltimore, MD: Maryland Department of the Environment. 1994.
  11. ^ Carpenter, Thomas; Sprague, Joel (Jul–Aug 2002). "Silt Fence Installation Efficacy". Grading and Excavation Contractor. Forester Media. 4 (5).
  12. ^ Developing Your Stormwater Pollution Prevention Plan: A Guide for Construction Sites (PDF) (Report). Washington, D.C.: EPA. 2007. EPA 833-R-060-04.
  13. ^ a b c Barrett, Michael E.; Kearney, John E.; McCoy, Terry G.; Malina, Joseph F. Jr.; Charbeneau, Randall J. (March 1996). An Evaluation of the Use and Effectiveness of Temporary Sediment Controls (PDF) (Report). University of Texas at Austin, Center for Transportation Research. Research Report 1943-2.
  14. ^ Environmental Technology Verification Report for Installation of Silt Fence Using the Tommy® Static Slicing Method (PDF). Washington, D.C.: Environmental Technology Evaluation Center (EvTEC); Civil Engineering Research Foundation. 2001. ISBN 0-7844-0565-4. CERF Report No 40565.

Further reading edit

  • Brzozowski, Carol (Sep–Oct 2004). . Erosion Control. Forester Media. 11 (6). Archived from the original on 12 June 2017.

External links edit

  • International Erosion Control Association—Professional Association, Publications, Training
  • WatchYourDirt.com—An Erosion and Sediment Control Video Education Resource

February 15, 2024
silt, fence, silt, fence, sometimes, misleadingly, called, filter, fence, temporary, sediment, control, device, used, construction, sites, protect, water, quality, nearby, streams, rivers, lakes, seas, from, sediment, loose, soil, stormwater, runoff, widely, u. A silt fence sometimes misleadingly called a filter fence 1 is a temporary sediment control device used on construction sites to protect water quality in nearby streams rivers lakes and seas from sediment loose soil in stormwater runoff Silt fences are widely used on construction sites in North America and elsewhere due to their low cost and simple design 2 However their effectiveness in controlling sediment can be limited due to problems with poor installation proper placement and or inadequate maintenance 3 Silt fence installed up slope of a vegetated stream buffer Contents 1 Design and installation 1 1 Super silt fence 1 2 Static slicing installation 2 Effectiveness 3 See also 4 References 5 Further reading 6 External linksDesign and installation edit nbsp Silt fence installed on a construction siteSilt fences are often installed as perimeter controls They are typically used in combination with sediment basins and sediment traps as well as with erosion controls which are designed to retain sediment in place where soil is being disturbed by construction processes i e land grading and other earthworks 4 nbsp Chain link supported super silt fenceA typical fence consists of a piece of synthetic filter fabric also called a geotextile stretched between a series of wooden or metal fence stakes along a horizontal contour level The stakes are installed on the downhill side of the fence and the bottom edge of the fabric can be trenched into the soil and backfilled on the uphill side although it is quite difficult to move the trenched spoil from the downside to the upside of the trench The design placement of the silt fence should create a pooling of runoff which then allows sedimentation to occur Water can seep through the silt fence fabric but the fabric often becomes blocked off with fine soil particles all sediment retention devices have this challenge and none of them filter storm water for very long citation needed A few hours after a storm event the fabric can be disturbed in order to dislodge the fines and allow clean water to flow through Depending on the protected watershed and erosion larger soil particles will settle out ultimately filling the silt fence to the top of the structure requiring another silt fence above or below it creating a new ponding area or for the silt fence to be removed the sediment removed or spread out and a new fence installed The fence is not designed to concentrate or channel stormwater The fence is installed on a site before soil disturbance begins and is placed down slope from the disturbance area 5 6 Sediment is captured by silt fences most often through ponding of water and settling rather than filtration by the fabric Sand and silt tends to clog the fabric and then the sediments settle in the temporary pond 7 p 6 9 8 p 7 46 Super silt fence edit Some government jurisdictions in the United States recommend or require the use of a reinforced fence sometimes called a super silt fence or an enhanced silt fence on some construction sites 9 This design uses filter fabric reinforced by a wire mesh or chain link fence The metal backing gives the fence increased strength to resist the weight of soil and water which may be trapped by the fence in a large drainage area and discourages construction site operators from driving vehicles over the fence 10 However an improper installation of a super silt fence can create an inadvertent sediment basin when the filter fabric becomes clogged This typically causes flooding and increased downstream pollution Most super silt fence specifications are outdated requiring the trenching installation method which has been shown to be highly susceptible to washing out under the fabric due to improper back filling and inadequate compaction citation needed Static slicing installation edit nbsp Static slicing machineSome state agencies recommend an installation technique called static slicing as an improved method for ensuring effectiveness and longevity of a silt fence system on a construction site The technique involves inserting a narrow blade into the soil with a wedge type point on its tip to slightly disrupt the soil upward while simultaneously inserting the silt fence fabric into the slot with a moving pivot while the machine is moving forward This step is followed by mechanical soil compaction setting of fence posts and attaching the fabric 6 11 Effectiveness edit nbsp Installation detail for a silt fence with specifications recommended by US EPA 12 Silt fence fabrics geotextiles tested in laboratory settings have shown to be effective at trapping sediment particles 13 45 47 Although there have been few field tests of silt fences installed at construction sites these tests have shown generally poor results 13 27 31 53 55 Effectiveness testing involved measurements for both total suspended solids and turbidity Other studies and articles about silt fence usage and practice document problems with installation and maintenance implying poor performance 1 Since 1998 static slicing the material into the ground has proven to be the most efficient and most effective installation method because slicing maintains the soil on both sides of the fence and is conducive to proper compaction which is critical to performance as well citation needed In 2000 the U S Environmental Protection Agency EPA co sponsored silt fence efficacy field research through its Environmental Technology Verification Program and in general the report found the static slicing method to be highly effective and efficient 14 Silt fence effectiveness is best determined by how many hundreds of pounds of sediment are contained behind a given silt fence after a storm event and not turbidity etc as sediment retention is the end goal and not a water quality measurement used in erosion control for instance citation needed Silt fences may perform poorly for a variety of reasons including improper location e g placing fence where it will not pond runoff water improper installation e g failure to adequately embed and backfill the lower edge of fabric in the soil and lack of maintenance fabric falling off of the posts or posts knocked down A silt fence top full of sediment may need maintenance replacement but it is a huge success 7 p 6 10 The fabric may become damaged with holes and tears if construction materials are stored next to or on top of the fence During various phases of construction at a site a silt fence may be removed relocated and reinstalled multiple times 13 30 31 It may be difficult to maintain effectiveness of a silt fence under such operating conditions Location of fences in areas with high flows may lead to fence failures when the installation is not adequately back filled and properly compacted and or the post spacing is inadequate 8 p 7 46 See also editGeosynthetics Geotechnical engineering Nonpoint source pollution Sediment basin StormwaterReferences edit a b Stevens Ellen Barfield Billy J Britton S L Hayes J S September 2004 Filter Fence Design Aid for Sediment Control at Construction Sites Report Cincinnati OH U S Environmental Protection Agency EPA EPA 600 R 04 185 Sprague C J 1999 Assuring the Effectiveness of Silt Fences and Other Sediment Barriers Proceedings of Conference 30 International Erosion Control Association Nashville TN pp 133 154 Brzozowski Carol Nov Dec 2006 Silt Fence Installation Erosion Control Forester Media 13 7 Chapter 2 Erosion and Sediment Control Principles Practices and Costs PDF Virginia Erosion and Sediment Control Handbook Report 3rd ed Richmond VA Virginia Department of Environmental Quality VA DEQ 1992 Spec 3 05 Silt Fence Virginia Erosion and Sediment Control Handbook PDF Report 3rd ed VA DEQ 1992 p III 19 a b Silt Fences PDF Report Stormwater Best Management Practice Washington D C EPA 2012 EPA 833 F 11 008 a b Fifield Jerald S 2004 Designing for Effective Sediment and Erosion Control for Construction Sites Santa Barbara CA Forester Press ISBN 978 0 9707687 3 5 a b Development Document for Final Effluent Guidelines and Standards for the Construction and Development Category Report Washington D C EPA 2009 EPA 821 R 09 010 Section 3 2 Super Silt Fence PDF Erosion and Sediment Control Manual Report Washington D C District of Columbia Department of Energy and Environment September 2017 pp 93 96 Section H 26 0 Super Silt Fences 1994 Maryland Specifications for Soil Erosion and Sediment Control PDF Report Baltimore MD Maryland Department of the Environment 1994 Carpenter Thomas Sprague Joel Jul Aug 2002 Silt Fence Installation Efficacy Grading and Excavation Contractor Forester Media 4 5 Developing Your Stormwater Pollution Prevention Plan A Guide for Construction Sites PDF Report Washington D C EPA 2007 EPA 833 R 060 04 a b c Barrett Michael E Kearney John E McCoy Terry G Malina Joseph F Jr Charbeneau Randall J March 1996 An Evaluation of the Use and Effectiveness of Temporary Sediment Controls PDF Report University of Texas at Austin Center for Transportation Research Research Report 1943 2 Environmental Technology Verification Report for Installation of Silt Fence Using the Tommy Static Slicing Method PDF Washington D C Environmental Technology Evaluation Center EvTEC Civil Engineering Research Foundation 2001 ISBN 0 7844 0565 4 CERF Report No 40565 Further reading editBrzozowski Carol Sep Oct 2004 Research and Testing of ESC Products and Methods Erosion Control Forester Media 11 6 Archived from the original on 12 June 2017 External links editInternational Erosion Control Association Professional Association Publications Training WatchYourDirt com An Erosion and Sediment Control Video Education Resource Retrieved from https en wikipedia org w index php title Silt fence amp oldid 1183212149, wikipedia, wiki, book, books, library,

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