green_roof
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| Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
| green_roof [2023/02/15 12:14] – admin | green_roof [2024/02/08 15:33] (current) – admin | ||
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| *Slows rate of runoff | *Slows rate of runoff | ||
| *Mitigates thermal impacts of runoff | *Mitigates thermal impacts of runoff | ||
| + | *Extends life of roof membrane | ||
| + | *Creates habitat and beautifies the built environment | ||
| **Disadvantages** | **Disadvantages** | ||
| Line 25: | Line 27: | ||
| * Layered systems | * Layered systems | ||
| * Enhanced systems | * Enhanced systems | ||
| - | * Sponge roof (mineral wool or synthetic fabric) | + | * Sponge roof (additional retention in mineral wool or synthetic fabric) |
| * Blue-green roof (sponge + detention storage) | * Blue-green roof (sponge + detention storage) | ||
| * Purple roof (sponge + detention storage + friction layer) | * Purple roof (sponge + detention storage + friction layer) | ||
| Line 47: | Line 49: | ||
| * Select species based on the local climate and the building micro-climates. Wind, temperature, | * Select species based on the local climate and the building micro-climates. Wind, temperature, | ||
| * Planting should be avoided during the peak summer months due to the additional irrigation required. | * Planting should be avoided during the peak summer months due to the additional irrigation required. | ||
| + | |||
| + | Resources for choosing green roof vegetation are provided in Appendix 2 of the Green Roof Guidance Document. | ||
| **System Layer Requirements** | **System Layer Requirements** | ||
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| **Irrigation** | **Irrigation** | ||
| - | Irrigation, or the ability to irrigate when needed, is strongly recommended for all green roof systems. Irrigation is an important design parameter and considerations should be made during the early design phases to accommodate this component. | + | Irrigation, or the ability to irrigate when needed, is strongly recommended for all green roof systems. Irrigation is an important design parameter and considerations should be made during the early design phases to accommodate this component. |
| **Equipment & Storage** | **Equipment & Storage** | ||
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| =====Maintenance===== | =====Maintenance===== | ||
| - | *Inspection Frequency | + | *Inspect twice a week during vegetation establishment |
| - | *Twice | + | *Strongly advise using a landscaping professional to inspect vegetation and keep coverage above 80% to prevent the spread of weeds. |
| - | *At least once every season after that, as well as after every storm even exceeding 1” or major weather events. | + | *Replace |
| - | | + | |
| - | | + | |
| - | *Requires | + | |
| - | *Use of plugs not seed. | + | |
| *Include access and safety recommendations for inspector and maintenance workers. | *Include access and safety recommendations for inspector and maintenance workers. | ||
| *Provide recommendations for watering | *Provide recommendations for watering | ||
| Line 94: | Line 94: | ||
| No credit shall be granted for Total Suspended Solids (TSS) or Total Phosphorus (TP) reduction for water passing through or over a green roof system; however, reduction on a site-wide basis can be realized through a reduced overall volume of stormwater due to retention in the green roof. | No credit shall be granted for Total Suspended Solids (TSS) or Total Phosphorus (TP) reduction for water passing through or over a green roof system; however, reduction on a site-wide basis can be realized through a reduced overall volume of stormwater due to retention in the green roof. | ||
| - | Peak rate and volume calculations should follow the steps below to determine an adjusted curve number for use in hydrology calculations. Volume reduction on a green roof is achieved primarily through the drainage layer and growing medium components, which absorb and retain a portion of the rainfall that lands on it making it available for plant uptake and evapotranspiration. For the calculation of runoff retention in the growing medium, the maximum available water capacity for runoff reduction is the difference in the water content between the field capacity and the wilting point. | + | ====Adjusted Curve Number==== |
| + | |||
| + | Peak rate and volume calculations should follow the steps below to determine an adjusted curve number for use in hydrology calculations. Volume reduction on a green roof is achieved primarily through the drainage layer and growing medium components, which absorb and retain a portion of the rainfall that lands on it making it available for plant uptake and evapotranspiration. | ||
| + | |||
| + | For the calculation of runoff retention in the growing medium, the maximum available water capacity for runoff reduction, or **𝜂< | ||
| * Field capacity is the water content of the soil after free drainage has ceased. | * Field capacity is the water content of the soil after free drainage has ceased. | ||
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| Values for field capacity and the wilting point of the selected growing medium must be obtained either from a published research article or tested in accordance with either the ASTM D-6836 method or the Soil Survey Investigations Report No. 42, Kellogg Soil Survey Laboratory Methods Manual, published by NRCS. | Values for field capacity and the wilting point of the selected growing medium must be obtained either from a published research article or tested in accordance with either the ASTM D-6836 method or the Soil Survey Investigations Report No. 42, Kellogg Soil Survey Laboratory Methods Manual, published by NRCS. | ||
| - | The following calculation, | + | The following calculation, |
| - | **Step 1 - Calculate storage volume of green roof** | + | ---- |
| + | |||
| + | //Step 1 - Calculate storage volume of green roof// | ||
| $$ V_s=\frac{A_\text{roof} \cdot[(d_\text{media} \cdot 𝜂_1)+(d_\text{drainage} \cdot 𝜂_2)]}{12 \frac{in}{ft}} \quad , where: $$ | $$ V_s=\frac{A_\text{roof} \cdot[(d_\text{media} \cdot 𝜂_1)+(d_\text{drainage} \cdot 𝜂_2)]}{12 \frac{in}{ft}} \quad , where: $$ | ||
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| - | **Step 2 - Calculate runoff volume** | + | //Step 2 - Calculate runoff volume// |
| Calculate the runoff from a traditional roof (CN=98) of equivalent area and subtract the storage volume from Step 1 to determine the green roof's runoff volume. Perform this calculation for each design storm to determine the corresponding roof runoff volumes. | Calculate the runoff from a traditional roof (CN=98) of equivalent area and subtract the storage volume from Step 1 to determine the green roof's runoff volume. Perform this calculation for each design storm to determine the corresponding roof runoff volumes. | ||
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| $$ \text{Green Roof Runoff (cf) = Traditional Roof Runoff (cf)} - V_s $$ | $$ \text{Green Roof Runoff (cf) = Traditional Roof Runoff (cf)} - V_s $$ | ||
| - | **Step 3 - Calculate direct runoff depth** | + | //Step 3 - Calculate direct runoff depth// |
| Divide the green roof runoff volume from Step 2 by the green roof area to determine the direct runoff depth. | Divide the green roof runoff volume from Step 2 by the green roof area to determine the direct runoff depth. | ||
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| - | **Step 4 - Determine adjusted curve number** | + | //Step 4 - Determine adjusted curve number// |
| Use the direct runoff, 𝑄, calculated in Step 3 and the rainfall precipitation, | Use the direct runoff, 𝑄, calculated in Step 3 and the rainfall precipitation, | ||
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| {{ : | {{ : | ||
| + | |||
| + | ====Adjusted Curve Number Calculator==== | ||
| + | |||
| + | The calculator below can be used to determine the adjusted curve number, with the source spreadsheet available {{: | ||
| + | |||
| + | {{url> | ||
| ====References==== | ====References==== | ||
| - | *[[https://www.nj.gov/dep/ | + | *[[https://dep.nj.gov/wp-content/ |
| + | *{{ : | ||
| + | *{{ : | ||
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