Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes
The effectiveness of porous pavement (PP) and bio-retention cells (BCs) under the influence of potential climate change was investigated based on representative concentration pathways (RCPs). A case study of a test catchment in Guangzhou illustrated changes of peak runoff under various climate scena...
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sg-ntu-dr.10356-1434442021-02-09T08:37:31Z Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes Wang, Mo Zhang, Dongqing Cheng, Yuning Tan, Soon Keat School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Engineering::Environmental engineering Porous Pavement Bioretention The effectiveness of porous pavement (PP) and bio-retention cells (BCs) under the influence of potential climate change was investigated based on representative concentration pathways (RCPs). A case study of a test catchment in Guangzhou illustrated changes of peak runoff under various climate scenarios. There were distinct increases in runoff volume and peak discharge in response to RCP8.5 but only marginal increases in response to RCP2.6 (compared with present conditions). The performance of PP and BCs in terms of percentage reduction of runoff volume and peak discharge was examined for 1-, 10-, and 100-year return period and 1- and 6-h-duration storms under various climate scenarios. The effectiveness of PP and BCs varied non-linearly with the extent of PP and BCs adopted. In general, the fluctuation of hydrological performance of PP is greater than that of BCs in RCP2.6 and RCP8.5 (e.g., peak flow reductions range from −60% to 69% and from −22% to 9%, for 5% area of PP and BCs, respectively). And PP is more cost-effective for frequent storms using life cycle costing analysis. We find that PP and BCs could significantly reduce runoff volume and peak discharge in response to rainfall events with short return period, but not for heavy storms with longer return period. Accepted version This work was supported by the National Natural Science Foundation of China [grant numbers 51808137, and 51838003]. 2020-09-02T01:33:51Z 2020-09-02T01:33:51Z 2019 Journal Article Wang, M., Zhang, D., Cheng, Y., & Tan, S. K. (2019). Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes. Journal of Environmental Management, 243, 157-167. doi:10.1016/j.jenvman.2019.05.012 0301-4797 https://hdl.handle.net/10356/143444 10.1016/j.jenvman.2019.05.012 31096169 2-s2.0-85065487480 243 157 167 en Journal of Environmental Management © 2019 Elsevier Ltd. All rights reserved. This paper was published in Journal of Environmental Management and is made available with permission of Elsevier Ltd. application/pdf |
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Engineering::Environmental engineering Porous Pavement Bioretention Wang, Mo Zhang, Dongqing Cheng, Yuning Tan, Soon Keat Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes |
| description |
The effectiveness of porous pavement (PP) and bio-retention cells (BCs) under the influence of potential climate change was investigated based on representative concentration pathways (RCPs). A case study of a test catchment in Guangzhou illustrated changes of peak runoff under various climate scenarios. There were distinct increases in runoff volume and peak discharge in response to RCP8.5 but only marginal increases in response to RCP2.6 (compared with present conditions). The performance of PP and BCs in terms of percentage reduction of runoff volume and peak discharge was examined for 1-, 10-, and 100-year return period and 1- and 6-h-duration storms under various climate scenarios. The effectiveness of PP and BCs varied non-linearly with the extent of PP and BCs adopted. In general, the fluctuation of hydrological performance of PP is greater than that of BCs in RCP2.6 and RCP8.5 (e.g., peak flow reductions range from −60% to 69% and from −22% to 9%, for 5% area of PP and BCs, respectively). And PP is more cost-effective for frequent storms using life cycle costing analysis. We find that PP and BCs could significantly reduce runoff volume and peak discharge in response to rainfall events with short return period, but not for heavy storms with longer return period. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Wang, Mo Zhang, Dongqing Cheng, Yuning Tan, Soon Keat |
| format |
Article |
| author |
Wang, Mo Zhang, Dongqing Cheng, Yuning Tan, Soon Keat |
| author_sort |
Wang, Mo |
| title |
Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes |
| title_short |
Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes |
| title_full |
Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes |
| title_fullStr |
Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes |
| title_full_unstemmed |
Assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes |
| title_sort |
assessing performance of porous pavements and bioretention cells for stormwater management in response to probable climatic changes |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143444 |
| _version_ |
1692012906806247424 |