1. Performance and uncertainty assessment of green roofs for urban flood reduction in a high-density catchment in Ahmedabad, India.
- Author
-
Bose, Tushar, Kalbar, Pradip P., and Mondal, Arpita
- Subjects
- *
GREEN roofs , *RAINFALL , *SUSTAINABLE development , *FLOODS ,DEVELOPING countries - Abstract
Urban flooding poses a significant challenge to the rapidly growing Indian cities. Low-impact development strategies such as green roofs have shown the potential to reduce urban flooding. However, their performance assessment significantly varies across different studies. Therefore, the study's primary objective is to evaluate green roofs in the Indian context. For this evaluation, the green roofs are assessed based on building-level implementation scenarios for a high-density urban area in India for 25%,50%, and 75% application rates and different rainfall intensities (2,3 and 4-h duration and 2,5,10 and 25-year frequencies). Secondly, to probe the variations in the green roof performance across studies, uncertainty contributions to the runoff reduction from different parameters are quantified. The results show that green roofs can reduce up to 62% of flood volume and 24% of runoff. However, they are reasonably effective only beyond 25% application rates. Further, rainfall intensity contributes the most to the uncertainty of runoff reduction from green roofs. This uncertainty assessment implies that localized evaluation of green roofs depending on local rainfall conditions is required for city-wide policy planning. The study has a significant contribution to building confidence in the ability of green roofs to reduce urban floods in the context of developing countries like India. • Green roof performance is assessed through building-level implementation scenarios. • Green roofs show a reduction of up to 62% in flood volume and 24% in runoff. • Green roofs are reasonably effective only at a minimum 25% application rate. • Rainfall intensity contributes the highest to the total performance uncertainties. • Uncertainty quantification can explain performance variations across studies. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF