Difference between revisions of "Additives"

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A number of granular amendments have been demonstrated to improve nutrient removal from discharge water in BMPs such as [[bioretention cells]], [[absorbent landscapes]], [[sand filters]] or [[green roofs]].  
A number of granular amendments have been demonstrated to improve nutrient removal from discharge water in BMPs such as [[bioretention]] systems, [[stormwater planters]], [[absorbent landscapes]], [[sand filters]] or [[green roofs]].  
There are two primary processes involved, precipitation and adsorption. Both mechanisms are ultimately finite, but have been shown in come cases to make significant improvements on the discharged water quality over several years.
 
There are two primary processes involved, chemical precipitation and adsorption. Both mechanisms are ultimately finite, but have been shown in come cases to make significant improvements on the discharged water quality over several years.
 
{{:Disclaimer}}
 
{|class="wikitable"
{|class="wikitable"
|+ Soil Additives
|+ Filter Media Additives
|-  
|-  
!style="background: darkcyan; color: white"|Material
!Material
!style="background: darkcyan; color: white"|Benefits
!Benefits
!style="background: darkcyan; color: white"|Potential concerns
!Potential concerns
|-
|-
![[Biochar]]
![[Biochar]]
|?||Currently expensive <br> Energy intensive to produce
|Renewable <br> Enhances soil aggregation, water holding capacity and organic carbon content||Currently expensive <br> Energy intensive to produce <br> Some sources say ineffective for phosphorus removal
|-
![[Bold and Gold]]<sup>TM</sup>
|Documented Phosphorus removal upto 71%<ref>Hood A, Chopra M, Wanielista M. Assessment of Biosorption Activated Media Under Roadside Swales for the Removal of Phosphorus from Stormwater. Water. 2013;5(1):53-66. doi:10.3390/w5010053.</ref>||[http://boldandgold.com/index.html Proprietary]
|-
|-
![[Iron filings (ZVI)]]
![[Bold & Gold]]<sup>TM</sup>
|Proven phosphorus retention||May harm plants<ref>Logsdon SD, Sauer PA. Iron Filings Cement Engineered Soil Mix. Agron J. 2016;108(4):1753. doi:10.2134/agronj2015.0427.</ref>
|Documented total phosphorus removal of up to 71%<ref>Hood A, Chopra M, Wanielista M. Assessment of Biosorption Activated Media Under Roadside Swales for the Removal of Phosphorus from Stormwater. Water. 2013;5(1):53-66. doi:10.3390/w5010053.</ref>||[http://boldandgold.com/index.html Proprietary]
|-
|-
![[Phoslock]]<sup>TM</sup>
![[Iron filings or Zero valent iron (ZVI)]]
|? ||?
|Proven phosphorus retention <br> Retained phosphorus is stable||May harm plants<ref>Logsdon SD, Sauer PA. Iron Filings Cement Engineered Soil Mix. Agron J. 2016;108(4):1753. doi:10.2134/agronj2015.0427.</ref> <br> Removal efficiency declines with increased concentration of incoming phosphorus
|-
|-
![[Red sand]]
![[Red sand or Iron-enriched sand]]
|Proven phosphorus retention||?
|Proven phosphorus removal <br> Also removes TSS||Poor orthophosphate removal in hypoxic or anoxic conditions
|-
|-
![[Smart Sponge]]<sup>TM</sup>
![[Smart Sponge]]<sup>TM</sup>
| ||
|Removes phosphorus, as well as TSS, fecal coliform bacteria and heavy metals <br> Non-leaching||1-3 year lifespan, after which the product is removed as solid waste <br> [http://www.abtechindustries.com/smart-sponge Proprietary]
|-
|-
![[Sorptive media]]<sup>TM</sup>
![[Sorbtive Media]]<sup>TM</sup>
|Documented phosphorus retention||[http://www.imbriumsystems.com/stormwater-treatment-solutions/sorbtive-media Proprietary]
|High phosphorus removal efficiency||[http://www.imbriumsystems.com/Portals/0/documents/sm/brochures/Sorbtive%20Media%20Brochure.pdf Proprietary]
|-
|-
![[Water treatment residuals]]
![[Water treatment residuals]]
|Waste product reuse||Quality control
|Waste product reuse||Quality control (capabilities depend on source, treatment methods, storage time)
|}
|}


[[category: materials]]
[[category: materials]]
[[category: Phosphorus]]
[[category: Water quality]]

Latest revision as of 17:08, 11 September 2020

A number of granular amendments have been demonstrated to improve nutrient removal from discharge water in BMPs such as bioretention systems, stormwater planters, absorbent landscapes, sand filters or green roofs.

There are two primary processes involved, chemical precipitation and adsorption. Both mechanisms are ultimately finite, but have been shown in come cases to make significant improvements on the discharged water quality over several years.

In our effort to make this guide as functional as possible, we have decided to include proprietary systems and links to manufacturers websites.
Inclusion of such links does not constitute endorsement by the Sustainable Technologies Evaluation Program.
Lists are ordered alphabetically; link updates are welcomed using the form below.

Filter Media Additives
Material Benefits Potential concerns
Biochar Renewable
Enhances soil aggregation, water holding capacity and organic carbon content
Currently expensive
Energy intensive to produce
Some sources say ineffective for phosphorus removal
Bold & GoldTM Documented total phosphorus removal of up to 71%[1] Proprietary
Iron filings or Zero valent iron (ZVI) Proven phosphorus retention
Retained phosphorus is stable
May harm plants[2]
Removal efficiency declines with increased concentration of incoming phosphorus
Red sand or Iron-enriched sand Proven phosphorus removal
Also removes TSS
Poor orthophosphate removal in hypoxic or anoxic conditions
Smart SpongeTM Removes phosphorus, as well as TSS, fecal coliform bacteria and heavy metals
Non-leaching
1-3 year lifespan, after which the product is removed as solid waste
Proprietary
Sorbtive MediaTM High phosphorus removal efficiency Proprietary
Water treatment residuals Waste product reuse Quality control (capabilities depend on source, treatment methods, storage time)
  1. Hood A, Chopra M, Wanielista M. Assessment of Biosorption Activated Media Under Roadside Swales for the Removal of Phosphorus from Stormwater. Water. 2013;5(1):53-66. doi:10.3390/w5010053.
  2. Logsdon SD, Sauer PA. Iron Filings Cement Engineered Soil Mix. Agron J. 2016;108(4):1753. doi:10.2134/agronj2015.0427.