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<font size=3>'''Table summarizing of properties of deicing agents'''</font size><br>
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<font size=3>'''Table summarizing of properties of deicing agents. Adapted from [https://stormwater.pca.state.mn.us/index.php?title=References_for_Smart_Salting_%28S2%29_and_road_salt_winter_maintenance Local Road Research Board, 2012], [https://stormwater.pca.state.mn.us/index.php?title=References_for_Smart_Salting_%28S2%29_and_road_salt_winter_maintenance Ketcham et al., 1996] and [https://stormwater.pca.state.mn.us/index.php?title=References_for_Smart_Salting_%28S2%29_and_road_salt_winter_maintenance Levelton Consultants Ltd., 2008].'''</font size><br>
 
Link to this [[Table summarizing of properties of deicing agents|table]]
 
Link to this [[Table summarizing of properties of deicing agents|table]]
  
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<th rowspan=2>Category</th>
 
<th rowspan=2>Category</th>
 
<th rowspan=2>Type</th>
 
<th rowspan=2>Type</th>
<th rowspan=2>Lowest Practical Melting Temperature <sub>1,2</sub> </th>
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<th rowspan=2>Lowest Practical Melting Pavement Temperature</th>
<th colspan=4>Potential for corrosion impairment<sup>3</sup></th>
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<th colspan=3>Potential for corrosion impairment<sup>3</sup></th>
<th colspan=3>Environmental Impact<sup>3</sup></th>
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<th colspan=4>Environmental Impact</th>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
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<th>Concrete Matrix</th>
 
<th>Concrete Matrix</th>
 
<th>Concrete Reinforcing</th>
 
<th>Concrete Reinforcing</th>
<th>Water Quality/Aquatic Live</th>
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<th>Water Quality/Aquatic Life</th>
 
<th>Air Quality</th>
 
<th>Air Quality</th>
 
<th>Soils</th>
 
<th>Soils</th>
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<td rowspan=3>Acetate Based Deicers</td>
 
<td rowspan=3>Acetate Based Deicers</td>
 
<td>Calcium Magnesium Acetate</td>
 
<td>Calcium Magnesium Acetate</td>
<td>20°F</td>
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<td>20°F [https://www.cryotech.com/snow-and-ice-control-chemicals-for-airports-operations]</td>
 
<td>Low/moderate; Potential to initiate and accelerate corrosion due to elevated conductivity</td>
 
<td>Low/moderate; Potential to initiate and accelerate corrosion due to elevated conductivity</td>
 
<td>Moderate/high: Will exacerbate scaling; risk of pate deterioration from magnesium reactions</td>
 
<td>Moderate/high: Will exacerbate scaling; risk of pate deterioration from magnesium reactions</td>
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<tr>
 
<tr>
 
<td>Potassium Acetate</td>
 
<td>Potassium Acetate</td>
<td>-15°F</td>
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<td>-26°F [https://www.cryotech.com/snow-and-ice-control-chemicals-for-airports-operations]</td>
 
<td>Low/moderate; Potential to initiate and accelerate corrosion due to elevated conductivity</td>
 
<td>Low/moderate; Potential to initiate and accelerate corrosion due to elevated conductivity</td>
<td>   </td>
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<td>[https://ascelibrary.org/doi/10.1061/%28ASCE%29MT.1943-5533.0001754]</td>
<td>Low; probably little or no effect</td>
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<td>Low; probably little or no effect [https://ascelibrary.org/doi/10.1061/%28ASCE%29MT.1943-5533.0001754]</td>
 
<td>High: Organic content leading to oxygen demand</td>
 
<td>High: Organic content leading to oxygen demand</td>
 
<td>Low: Leads to reduced abrasives use</td>
 
<td>Low: Leads to reduced abrasives use</td>
<td>   </td>
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<td></td>
<td>   </td>
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<td></td>
<td>    </td>
 
 
</tr>
 
</tr>
 
<tr>
 
<tr>
 
<td>Sodium Acetate</td>
 
<td>Sodium Acetate</td>
<td>-20°F</td>
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<td>0°F [https://www.cryotech.com/snow-and-ice-control-chemicals-for-airports-operations]</td>
<td>  </td>
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<td></td>
<td>   </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td>Relative aquatic toxicity: high</td>
<td> </td>
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<td></td>
<td>   </td>
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<td></td>
<td>   </td>
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<td></td>
<td>   </td>
 
 
</tr>
 
</tr>
 
<tr>
 
<tr>
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<td>Molasses</td>
 
<td>Molasses</td>
 
<td>NA</td>
 
<td>NA</td>
<td>   </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
 
<td>Corn Syrup</td>
 
<td>Corn Syrup</td>
 
<td>NA</td>
 
<td>NA</td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
<td>   </td>
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<td></td>
<td> </td>
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<td></td>
<td> </td>
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<td></td>
 
</tr>
 
</tr>
 
</table>
 
</table>
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<!--
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<font size=1><sup>1</sup>For information on aquatic toxicity, see [http://clearroads.org/wp-content/uploads/dlm_uploads/11-02_Determine-the-Toxicity-of-Deicing-Materials_Final-Report_12-30-2013.pdf Determining the Aquatic Toxicity of Deicing Materials] (Barr Engineering, 2013)</font size>-->
  
[[category:Table]]
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<noinclude>
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[[Category:Level 3 - General information, reference, tables, images, and archives/Tables/Chloride, salt management]]
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</noinclude>

Latest revision as of 15:50, 4 August 2022

Table summarizing of properties of deicing agents. Adapted from Local Road Research Board, 2012, Ketcham et al., 1996 and Levelton Consultants Ltd., 2008.
Link to this table

Category Type Lowest Practical Melting Pavement Temperature Potential for corrosion impairment3 Environmental Impact
Atmospheric Corrosion to Metals Concrete Matrix Concrete Reinforcing Water Quality/Aquatic Life Air Quality Soils Vegetation
Chloride Based Deicers Sodium Chloride 15°F High; will initiate and accelerate corrosion Low/moderate; Will exacerbate scaling; low risk of paste attack High: Will initiate corrosion of rebar Moderate: Excessive chloride loading/metals contaminants; ferrocyanide additives Low: Leads to reduced abrasives use Moderate/High: Sodium accumulation breaks down soil structure and decreases permeability and soil stability; potential for metals to mobilize High: Spray causes foliage damage; osmotic stress harms roots, chloride toxicosis
Calcium Chloride -20°F High; Will initiate and accelerate corrosion; higher potential for corrosion related to hydroscopic properties Low/moderate; Will exacerbate scaling; low risk of paste attack High: Will initiate corrosion of rebar Moderate: Excessive chloride loading; heavy metal contamination Low: Leads to reduced abrasives use Low/Moderate: Improves soil structure; increases permeability; potential for metals to mobilize High: Spray causes foliage damage; osmotic stress harms roots, chloride toxicosis
Magnesium Chloride -10°F High; Will initiate and accelerate corrosion; higher potential for corrosion related to hydroscopic properties Moderate/high: Will exacerbate scaling; risk of paste deterioration from magnesium High: Will initiate corrosion of rebar, evidence suggest MgCl2 has the highest potential for corrosion of chloride produces Moderate: Excessive chloride loading; heavy metal contamination Low: Leads to reduced abrasives Low/Moderate: Improves soil structure; increases permeability; potential for metals to mobilize High: Spray causes foliage damage; osmotic stress harms roots, chloride toxicosis
Acetate Based Deicers Calcium Magnesium Acetate 20°F [1] Low/moderate; Potential to initiate and accelerate corrosion due to elevated conductivity Moderate/high: Will exacerbate scaling; risk of pate deterioration from magnesium reactions Low; probably little or no effect High: Organic content leading to oxygen demand Low: Leads to reduced abrasives use Low/Moderate: Improves soil structure; increases permeability; potential for metals to mobilize Low: Little or no adverse effect; osmotic stress at high levels
Potassium Acetate -26°F [2] Low/moderate; Potential to initiate and accelerate corrosion due to elevated conductivity [3] Low; probably little or no effect [4] High: Organic content leading to oxygen demand Low: Leads to reduced abrasives use
Sodium Acetate 0°F [5] Relative aquatic toxicity: high
Carbohydrates Beet Juice NA Low; Potential to initiate and accelerate corrosion due to elevated conductivity clams of mitigation of corrosion require further evaluation Low; Probably little or no effect Low; Probably little or no effect; claims of mitigation of corrosion require further evaluation High Organic matter leading to oxygen demand; nutrient enrichment by phosphorus and nitrogen; heavy metals Low: Leads to reduced abrasive use Low: Probably little or no effect; limited information available Low: Probably little or no effect
Molasses NA
Corn Syrup NA

This page was last edited on 4 August 2022, at 15:50.