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Modeling the Hydrologic Performance and Cost-Effectiveness of LID in a Residential Park Area Using a Decentralized Design Approach

Sergi Garbanzos, Marla C. Maniquiz-Redillas

2022Hydrology16 citationsDOIOpen Access PDF

Abstract

Low Impact Development (LID) is one of the current research interests toward green infrastructures and urban flood control that have the capability to return developed watersheds to pre-development hydrological conditions, bringing numerous water quantity and quality benefits, while being cheaper than their traditional counterparts. However, there is a current research gap about LIDs within tropical regions. This study aims to evaluate the cost efficiency of LID scenarios in varying surface areas through a cost-effectiveness (C/E) analysis and to assess flow reduction and infiltration improvement of the cost-effective LID scenarios using US EPA Stormwater Management Model (SWMM) in a tropical residential catchment receiving an annual rainfall of 1780.5 mm (70.1″), under a Type 1 Philippine Climate. Results have shown that the Weibull plotting position generated the largest rainfall amounts. A total of 2112 manually simulated LID scenarios were modeled to obtain the cost-effective or optimal LID scenarios, where they can generate a maximum of 38.67% flow reduction and 29.73% peak flow reduction, all observed in the multiple LID scenarios. At high rainfall amounts, the multiple LID scenarios can also peak at a 1113% increase in total infiltration in the given sub-catchments. Determining the target capture goal, applicable LID types, and cost estimations from a pilot project are vital components in the future application of LIDs in these regions.

Topics & Concepts

Low-impact developmentEnvironmental scienceStorm Water Management ModelInfiltration (HVAC)Hydrology (agriculture)Cost effectivenessCurrent (fluid)Flood mythSurface runoffStormwater managementStormwaterMeteorologyEngineeringOperations managementGeographyElectrical engineeringEcologyArchaeologyBiologyGeotechnical engineeringUrban Stormwater Management SolutionsFlood Risk Assessment and ManagementHydrology and Watershed Management Studies