Changes

Jump to navigation Jump to search
13 bytes added ,  2 years ago
Line 81: Line 81:
[[Permeable pavements]] can improve drainage and prevent melt water from ponding and refreezing. Some permeable pavements also have higher friction coefficients that may reduce the amount of salt needed to create slip-free surfaces.
[[Permeable pavements]] can improve drainage and prevent melt water from ponding and refreezing. Some permeable pavements also have higher friction coefficients that may reduce the amount of salt needed to create slip-free surfaces.


==Salt Reduction Best Practices==
==Site Design: Salt Reduction Best Practices==
Since salt is not removed by traditional best practices, reducing application rates to only what is needed to achieve pavement safety requirements is the best means of managing impacts of salt on the environment and infrastructure. Pavement friction testing has shown that salting beyond the required amount does not translate into improved safety: [https://sustainabletechnologies.ca/app/uploads/2021/05/Friction-and-Parking-Lots.pdf LSRCA's Technical Bulletin: Alternatives to Salt].<ref>LSRCA. 2020. Friction and Parking Lots. Technical Bulletin, Volume 3 September 2020. https://sustainabletechnologies.ca/app/uploads/2021/05/Friction-and-Parking-Lots.pdf</ref>
Since salt is not removed by traditional best practices, reducing application rates to only what is needed to achieve pavement safety requirements is the best means of managing impacts of salt on the environment and infrastructure. Pavement friction testing has shown that salting beyond the required amount does not translate into improved safety: [https://sustainabletechnologies.ca/app/uploads/2021/05/Friction-and-Parking-Lots.pdf LSRCA's Technical Bulletin: Alternatives to Salt].<ref>LSRCA. 2020. Friction and Parking Lots. Technical Bulletin, Volume 3 September 2020. https://sustainabletechnologies.ca/app/uploads/2021/05/Friction-and-Parking-Lots.pdf</ref>


Navigation menu