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| *Provincial staff | | *Provincial staff |
| | | |
− | ===Forming community partnerships=== | + | ===Forming Community Partnerships=== |
| [[File:Example.jpg|thumb|Green features in your parking lot provide shade and evaporative cooling. This plays a role in reducing air temperatures on your site and making the walk from a car to your municipal facility a better experience during hot summer days]] | | [[File:Example.jpg|thumb|Green features in your parking lot provide shade and evaporative cooling. This plays a role in reducing air temperatures on your site and making the walk from a car to your municipal facility a better experience during hot summer days]] |
| [[File:Example.jpg|thumb|This dry hydrant is connected to a large subsurface cistern. This water supply can be used in emergency situations to fight fires on site. (Source: Aquafor Beech)]] | | [[File:Example.jpg|thumb|This dry hydrant is connected to a large subsurface cistern. This water supply can be used in emergency situations to fight fires on site. (Source: Aquafor Beech)]] |
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| There are also excellent opportunities to integrate rainwater harvesting systems in many municipal facilities. Rainwater harvesting systems have two requirements: an area for catchment of relatively clean runoff, and a nearby demand for water usage. Municipal facilities often have large rooftop areas that produce relatively clean runoff. Installing a cistern either internal to the building or buried adjacent to the building can provide a sustainable source of water for site irrigation needs, including landscaped areas and recreational fields, as well as indoor use for flushing toilets and urinals. | | There are also excellent opportunities to integrate rainwater harvesting systems in many municipal facilities. Rainwater harvesting systems have two requirements: an area for catchment of relatively clean runoff, and a nearby demand for water usage. Municipal facilities often have large rooftop areas that produce relatively clean runoff. Installing a cistern either internal to the building or buried adjacent to the building can provide a sustainable source of water for site irrigation needs, including landscaped areas and recreational fields, as well as indoor use for flushing toilets and urinals. |
| + | |
| + | === Targeting Highly Visible Areas === |
| + | If your LID integration strategy involves highly visible LID practices, consider targeting areas with high-volume pedestrian traffic. |
| + | |
| + | === Targeting Pollution Prevention Opportunities === |
| + | On some municipal sites, pollution prevention techniques and strategies outlined in Chapter 2 are the best approaches to mitigating the environmental impact of your site. Retrofits of municipal works yards require a different approach than other land uses discussed in this guide. Works yards do not offer substantial opportunities for public interaction. LID retrofits should focus primarily on reducing pollution generated on-site. Fuelling stations, waste storage areas, truck washing stations, sand and salt storage, staging areas, and water conveyance features should be targeted for |
| + | pollution prevention. |
| + | |
| + | === Source Areas === |
| + | The LID option that best fits your site will depend what types of source areas are present. Types of source areas include: |
| + | *Active use area |
| + | *Passive use area |
| + | *Pedestrian walkway |
| + | *Internal driveway |
| + | *Parking lot |
| + | |
| + | On municipal sites, pollution prevention is often associated with changes to operations and maintenance practices and has not been included in '''Table 4.3.1'''. An aerial photo of a park with each of these source areas accompanies '''Table 4.3.1'''. Options and implementation strategies for a few of these source areas will give you some ideas for your park site. |