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| − | <center><font size=3>'''Elements of design, operation, and maintenance that address potential risks associated with stormwater harvesting and use'''</font size><br>
| + | <font size=3>'''Elements of design, operation, and maintenance that address potential risks associated with stormwater harvesting and use'''</font size><br> |
| − | | + | Link to this [[Elements of design, operation, and maintenance that address potential risks associated with stormwater harvesting and use|table]] |
| − | Link to this [[Elements of design, operation, and maintenance that address potential risks associated with stormwater harvesting and use|table]]</center> | |
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| | <table class="sortable"> | | <table class="sortable"> |
Revision as of 15:55, 7 November 2016
Elements of design, operation, and maintenance that address potential risks associated with stormwater harvesting and use
Link to this table
| Risk Type |
Design Considerations |
O & M Considerations |
| Human Health Risks |
| Source area pollutants |
- Bypass runoff from pollutant hotspots in the source area
- Pre-storage treatment and treatment systems
- Source control BMPs
|
- Inspection and maintenance of source area
- Regular clean-out of accumulated sediments in storage ponds, if applicable
|
| Hazardous spills in the source area, including sudden air releases of hazardous substances that could deposit in the collection and storage systems |
- Incorporate at least a 72-hour residence time of harvested stormwater in storage unit to contain hazardous spills in the source area prior to distribution (NRMMC et al. 2008)
- Incorporate an emergency bypass in the collection system
|
- Regular inspection of source area for hazardous spills
- Coordination with local agencies responsible for responding to hazardous spills in the source area
- Incorporate an emergency spill response plan in the O&M document
|
| Metals and other chemicals from roofing materials (link to table 4 in WQ considerations) |
- Some roofs may leach chemicals at levels of concern
|
- Regular inspection and cleaning of system components to prevent degradation
|
| Bacteria, viruses |
- Source control BMPs
- Disinfection or filtration treatment systems
|
- Regular cleaning and maintenance of storage and treatment units
- Water quality monitoring
- Signage and/or access restriction to irrigation areas or other exposure controls
|
| Mosquito and other vector-borne illnesses |
- Install insect screens on exposed pipe and other openings
- See the following websites for information on mosquito control in storage ponds:
|
- Regular monitoring
- Regular mosquito control treatment of storage unit
|
| Ecological Risks |
| Plant communities |
- Source control BMPs
- Pre-storage treatment and treatment systems
- Use of salt tolerant plant species in irrigated areas
|
- Irrigation rates that optimize the saturation of soils without interfering with plant growth.
|
| Soils |
- Avoid irrigating high-clay soils with high-salinity stormwater. Salt reduces the permeability of clay soils by increasing the stickiness of clay soils when wet and forming hard clods and crusts upon drying (See this)
|
- Regular monitoring of stormwater runoff and soil quality if salt contamination of soils is a concern
|
| Aquatic ecosystems |
- Avoid inventoried public waters and wetlands for storage of harvested stormwater
- Install aeration systems in storage ponds to minimize algal blooms, if allowed by local code or ordinance
- Pre-storage treatment systems
|
- Regular monitoring of storage pond for adverse ecological impacts
|
| Local hydrology |
- Design storage residence times and overflow volumes such that downstream hydrology is not adversely impacted
|
- Regular inspection and maintenance of storage, overflow and distribution system components
|
| Equipment degradation |
- Source control BMPs
- Pre-storage treatment and treatment systems
|
- Regular inspection and cleaning of system components
|
