Evaluating the Effectiveness of Best Management Practices in Adapting the Impacts of Climate Change-Induced Urban Flooding-Reference-Cited by-同舟云学术

Evaluating the Effectiveness of Best Management Practices in Adapting the Impacts of Climate Change-Induced Urban Flooding

Published:2024-02-26 Issue:3 Volume:15 Page:281
ISSN:2073-4433
Container-title:Atmosphere
language:en
Short-container-title:Atmosphere

Author:

Bhusal Amrit¹^ORCID,Thakur Balbhadra²^ORCID,Kalra Ajay³^ORCID,Benjankar Rohan⁴^ORCID,Shrestha Aruna⁵

Affiliation:

1. Arcadis U.S., Inc., 7575 Huntington Park Dr Suite 130, Columbus, OH 43235, USA

2. FTN Associates, Ltd., 3 Innwood Cir #220, Little Rock, AR 72211, USA

3. School of Civil, Environmental, and Infrastructure Engineering, Southern Illinois University, 1230 Lincoln Drive, Carbondale, IL 62901, USA

4. Department of Civil Engineering, Southern Illinois University Edwardsville, 61 Circle Dr, Edwardsville, IL 62026, USA

5. AECOM Technical Services Inc., 1350 Deming Way, Suite 100, Middleton, WI 53562, USA

Abstract

Floods are amongst the most destructive and costly natural disasters impacting communities around the globe. The severity and reoccurrence of flooding events have been more common in recent years as a result of the changing climate and urbanization. Best Management Practices (BMPs) are commonly used flood management techniques that aim to alleviate flooding and its impacts by capturing surface runoff and promoting infiltration. Recent studies have examined the effectiveness of BMPs in countering the effects of flooding; however, the performance of such strategies still needs to be analyzed for possible future climate change. In this context, this research employs climate model-driven datasets from the North American Regional Climate Change Assessment Program to evaluate the effects of climate change on urban hydrology within a study region by calculating historical and projected 6 h 100-year storm depths. Finally, the climate-induced design storms are simulated in the PCSWMM model, and the three BMP options (i.e., porous pavement, infiltration trench, and green roof) are evaluated to alleviate the impact of flooding events. This study quantifies the impact of changing climate on flood severity based on future climate models. The results indicate that peak discharge and peak volume are projected to increase by a range of 5% to 43% and 8% to 94%, respectively. In addition, the results demonstrated that green roofs, Permeable Pavement, and infiltration trenches help to reduce peak discharge by up to 7%, 14%, and 15% and reduce flood volume by up to 19%, 24%, and 29%, respectively, thereby presenting a promising solution to address the challenges posed by climate change-induced flooding events.

Funder

University of Illinois System

Publisher

MDPI AG

Link

https://www.mdpi.com/2073-4433/15/3/281/pdf

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