ASDSO Dam Safety Toolbox

Synthetic Turf Revetments: Difference between revisions

From ASDSO Dam Safety Toolbox
Jump to: navigation, search
No edit summary
No edit summary
 
Line 6: Line 6:
<!-- Introductory paragraph or topic page summary -->  
<!-- Introductory paragraph or topic page summary -->  


"An innovative erosion protection technology was developed in 2010 for embankment dams and levees that uses artificial or synthetic turf instead of natural grass or hard armor (i.e., RCC, ACBs, and rock [[riprap]]) to eliminate the long-term maintenance requirements and potential weaknesses of traditional vegetative and hard armor systems. HydroTurf™ (Patented product of Watershed Geosynthetics LLC) combines a durable, engineered synthetic turf underlain by a high-friction impermeable geomembrane with an integrated drainage layer. The synthetic turf is infilled in place with a special blend of cementitious materials for ballast. The cementitious infill is placed dry to a thickness of approximately 1 inch and then hydrated with a light spray of water to produce an erosion-resistant surface. Its high strength is capable of resisting potential damage from vehicles, debris, and burrowing animals. This system thereby offers the [[environmental]] and aesthetic [[benefits]] of natural vegetation (i.e., low-turbidity surface runoff and natural appearance) as well as the performance and maintenance benefits of hard armor." <ref name="FEMA1015">[[Technical Manual: Overtopping Protection for Dams (FEMA P-1015) | Technical Manual: Overtopping Protection for Dams (FEMA P-1015), FEMA, 2014]]</ref>  
"An innovative erosion protection technology was developed in 2010 for [[Embankment Dams|embankment dams]] and levees that uses artificial or synthetic turf instead of natural grass or hard armor (i.e., RCC, ACBs, and rock [[riprap]]) to eliminate the long-term maintenance requirements and potential weaknesses of traditional vegetative and hard armor systems. HydroTurf™ (Patented product of Watershed Geosynthetics LLC) combines a durable, engineered synthetic turf underlain by a high-friction impermeable geomembrane with an integrated drainage layer. The synthetic turf is infilled in place with a special blend of cementitious materials for ballast. The cementitious infill is placed dry to a thickness of approximately 1 inch and then hydrated with a light spray of water to produce an erosion-resistant surface. Its high strength is capable of resisting potential damage from vehicles, debris, and burrowing animals. This system thereby offers the [[environmental]] and aesthetic benefits of natural vegetation (i.e., low-turbidity surface runoff and natural appearance) as well as the performance and maintenance benefits of hard armor." <ref name="FEMA1015">[[Technical Manual: Overtopping Protection for Dams (FEMA P-1015) | Technical Manual: Overtopping Protection for Dams (FEMA P-1015), FEMA, 2014]]</ref>  
   
   
<!-- In the location of an in text citation, simply enclose the citation as follows: <ref> citation </ref>. Citations will automatically populate. Learn more at https://www.mediawiki.org/wiki/Help:Cite.  -->  
<!-- In the location of an in text citation, simply enclose the citation as follows: <ref> citation </ref>. Citations will automatically populate. Learn more at https://www.mediawiki.org/wiki/Help:Cite.  -->  

Latest revision as of 21:30, 28 March 2024



"An innovative erosion protection technology was developed in 2010 for embankment dams and levees that uses artificial or synthetic turf instead of natural grass or hard armor (i.e., RCC, ACBs, and rock riprap) to eliminate the long-term maintenance requirements and potential weaknesses of traditional vegetative and hard armor systems. HydroTurf™ (Patented product of Watershed Geosynthetics LLC) combines a durable, engineered synthetic turf underlain by a high-friction impermeable geomembrane with an integrated drainage layer. The synthetic turf is infilled in place with a special blend of cementitious materials for ballast. The cementitious infill is placed dry to a thickness of approximately 1 inch and then hydrated with a light spray of water to produce an erosion-resistant surface. Its high strength is capable of resisting potential damage from vehicles, debris, and burrowing animals. This system thereby offers the environmental and aesthetic benefits of natural vegetation (i.e., low-turbidity surface runoff and natural appearance) as well as the performance and maintenance benefits of hard armor." [1]


Citations: