Changes

Jump to navigation Jump to search
Line 218: Line 218:

{|class="wikitable"
{|class="wikitable"
|+Volumetric runoff reduction from permeable pavements
|+Volumetric runoff reduction from bioretention
|-
|-
!'''LID Practice'''
!'''LID Practice'''
Line 225: Line 225:
!'''Reference'''
!'''Reference'''
|-
|-
|rowspan="6" style="text-align: center;" | Bioretention without underdrain
|rowspan="4" style="text-align: center;" | Bioretention without underdrain
|style="text-align: center;" |Connecticut
|style="text-align: center;" |Connecticut
|style="text-align: center;" |99%
|style="text-align: center;" |99%
Line 237: Line 237:
|style="text-align: center;" |70%
|style="text-align: center;" |70%
|style="text-align: center;" |Emerson and Traver (2004)<ref>Emerson, C., Traver, R. 2004. The Villanova Bio-infiltration Traffic Island: Project Overview. Proceedings of 2004 World Water and Environmental Resources Congress (EWRI/ASCE). Salt Lake City, Utah, June 22 – July 1, 2004. https://ascelibrary.org/doi/book/10.1061/9780784407370</ref>
|style="text-align: center;" |Emerson and Traver (2004)<ref>Emerson, C., Traver, R. 2004. The Villanova Bio-infiltration Traffic Island: Project Overview. Proceedings of 2004 World Water and Environmental Resources Congress (EWRI/ASCE). Salt Lake City, Utah, June 22 – July 1, 2004. https://ascelibrary.org/doi/book/10.1061/9780784407370</ref>
 
|-
|style="text-align: center;" |China
|style="text-align: center;" |China
|style="text-align: center;" |'''<u><span title="Note: Runoff reduction estimates are based on SWMM and RECARGA models applied to generate the runoff reduction percentages of a bioretention installation near one of China's and  expressway service area.">85 to 100%*</span></u>'''
|style="text-align: center;" |'''<u><span title="Note: Runoff reduction estimates are based on SWMM and RECARGA models applied to generate the runoff reduction percentages of a bioretention installation near one of China's and  expressway service area.">85 to 100%*</span></u>'''
|style="text-align: center;" |Gao, ''et al.'' (2018)<ref>Gao, J., Pan, J., Hu, N. and Xie, C., 2018. Hydrologic performance of bioretention in an expressway service area. Water Science and Technology, 77(7), pp.1829-1837.</ref>
|style="text-align: center;" |Gao, ''et al.'' (2018)<ref>Gao, J., Pan, J., Hu, N. and Xie, C., 2018. Hydrologic performance of bioretention in an expressway service area. Water Science and Technology, 77(7), pp.1829-1837.</ref>
|-
|-
|rowspan="10" style="text-align: center;" | Bioretention with underdrain
|rowspan="8" style="text-align: center;" | Bioretention with underdrain
|-
|-
|style="text-align: center;" |Texas
|style="text-align: center;" |Texas
Line 269: Line 269:
|-
|-
|style="text-align: center;" |Ohio
|style="text-align: center;" |Ohio
|style="text-align: center;" |36to 59%
|style="text-align: center;" |36 to 59%
|style="text-align: center;" |Winston ''et al.'' (2016). <ref>Winston, R.J., Dorsey, J.D. and Hunt, W.F. 2016. Quantifying volume reduction and peak flow mitigation for three bioretention cells in clay soils in northeast Ohio. Science of the Total Environment, 553, pp.83-95.</ref>
|style="text-align: center;" |Winston ''et al.'' (2016). <ref>Winston, R.J., Dorsey, J.D. and Hunt, W.F. 2016. Quantifying volume reduction and peak flow mitigation for three bioretention cells in clay soils in northeast Ohio. Science of the Total Environment, 553, pp.83-95.</ref>
|-
|-
|rowspan="10" style="text-align: center;" | Bioretention with underdrain & liner
|rowspan="5" style="text-align: center;" | Bioretention with underdrain & liner
|-
|-
|style="text-align: center;" |Ontario
|style="text-align: center;" |Ontario

Navigation menu