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

Garbanzos, Sergi; Maniquiz-Redillas, Marla C.

doi:10.3390/hydrology9040062

Cited by 8 publications

(6 citation statements)

References 46 publications

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“…In order to graphically summarize the performances (reduction percentages) found for the different metrics in the seven typologies, Table 8 presents a summary of the values found. The analysis for the total runoff volume reductions (10%-30%) identified similar performances for the RG, BC, and PP as those reported in previous studies (Arjenaki et al 2021;Garbanzos and Maniquiz-Redillas 2022;Jato-Espino et al 2016;Bai et al 2018), but somewhat limited for the rest of the typologies (< 5%). At the same time, the decrease in pollutant (TSS, NT, and TP) loads was high for all the typologies (> 90%).…”

Section: Overall Performancessupporting

confidence: 79%

“…Although the previous, and some other case studies have successfully implemented and validated SUDS urban models (e.g., Kong et al 2017;Maftuhah et al 2018;Rujner et al 2018;Garbanzos and Maniquiz-Redillas 2022;Arjenaki et al 2021;Ma et al 2022), there are still gaps regarding modeling technicalities and aspects that have not been addressed so far, such as trains modeling, continuous-long term modeling, effect of temporal and spatial scale, or performance of different typologies. Previous studies have highlighted the importance of systematically studying the sensitivity of the models to specific SUDS design parameters.…”

Section: Introductionmentioning

confidence: 99%

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Continuous Quantity and Quality Modeling for Assessing the Effect of SUDS: Application on a Conceptual Urban Drainage Basin

Ferrans

Temprano

2022

Environ. Process.

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The development of computational tools based on urban drainage models is fundamental for the correct selection of SUDS. The present study proposes a systematic approach based on continuous modeling on USEPA SWMM. The objective was to select the most suitable Sustainable Urban Drainage Systems (SUDS) by evaluating several aspects related to their design and configuration. The proposed methodology was applied to a conceptual watershed with meteorological information from Santander, Spain. The analysis of SUDS design parameters showed that only the surface variables showed a sensitivity of ≈20% for berm height and vegetation volume. The optimal configuration for the case study was a SUDS train consisting of green roofs, permeable pavements, vegetated swales and rain gardens, with 1% of the total subcatchment area cover, one structure, and a semi-aggregated spatial distribution. The methodology proved efficient but also highly dependent on the case study parameters and the meteorological conditions. The SUDS proved to have different efficiencies (30%—90%) in reducing the total runoff volume, the peak flow, and the pollutant loads depending on the region where the conceptual watershed was modeled. The methodology proved to be efficient for studying the combinations and interconnection of seven different typologies, as well as the effect of SUDS configuration, design and distribution on their performance.

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Section: Overall Performancessupporting

confidence: 79%

Section: Introductionmentioning

confidence: 99%

Continuous Quantity and Quality Modeling for Assessing the Effect of SUDS: Application on a Conceptual Urban Drainage Basin

Ferrans

Temprano

2022

Environ. Process.

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“…Several studies have confirmed that LIDs (Sustainable Drainage Systems, SUDs) have a positive impact on the hydrological and hydraulic load of traditional urban drainage systems; however, the biggest reduction was achieved in cases of small, relatively frequent rainfall events and more pervious soil types [199][200][201][202][203][204]. In case of extreme rainfall events, such a reduction in flow (water volume) is very limited and sensitive to local conditions.…”

Section: Rainfall-runoff Models and The Decision-making Processmentioning

confidence: 99%

Development of Rainfall-Runoff Models for Sustainable Stormwater Management in Urbanized Catchments

Szeląg

Łagód

Musz-Pomorska

et al. 2022

Water

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Modelling of stormwater networks and the related object (combined sewer overflows, diversion chambers, retention tanks) is a complex task requiring colleting of data with appropriate time and spatial resolution as well as application of adequate models. Often there is a need to find balance between the costs of conducting measurement (period, resolution) and the uncertainty of the model results. This paper presents an overview of simulation tools for sewerage networks modelling, related objects, as well as low-impact development (LID) systems in relation to the hydrodynamic and statistical models. Consecutive stages of data collection, sources of data uncertainty, limitations resulting from the adopted measurement methodology, as well as their influence on the simulation results and possible decision-making using the developed hydrodynamic or statistical model, are discussed. Attention is drawn to the optimization methods enabling reduction in the uncertainty of statistical models. The methods enabling the analysis of model uncertainty, as well as evaluation of its influence on the calculation results pertaining to stormwater hydrographs, retention tank capacity and combined sewers overflows, are also discussed. This is a very important aspect in terms of optimizing construction works in the sewerage network and designing their appropriate dimensions to achieve the assumed hydraulic effects.

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“…This study used the Weibull plotting position, a probability distribution function to fit distributions in hydrology (Murugappan, Sivaprakasam & Mohan, 2017;Adeboye & Alatise, 2007), to obtain the 90 th percentile of the collected rainfall for simulations. This 90 th percentile of total rainfall was selected as it has been the standard for many LID manuals (EPA, 2009; Ministry of the Environment & Climate Change, 2016) and some studies This journal is ⓒ Academic Society for Appropriate Technology 2022 (Frias & Maniquiz-Redillas, 2021;Garbanzos & Maniquiz-Redillas, 2022) for rainfall estimation in design. Equation (1) shows the Weibull distribution method formula.…”

Section: Rainfall Datamentioning

confidence: 99%

“…The Weibull distribution method performed showed that the 90 th percentile of the 40-year historical rainfall was approximately 16.64 mm. This was then distributed over 24 hours using the triangle method as used by Frias & Maniquiz-Redillas (2021) and Garbanzos & Maniquiz-Redillas (2022) and was utilized as the sole rainfall scenario for all simulations.…”

Section: Rainfall Characteristicsmentioning

confidence: 99%

Assessing the Flow Reduction of Low Impact Development Controls in a Residential Setting

Garbanzos

Maniquiz-Redillas

2022

J Appropr Technol

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The widespread development in recent years has resulted in the expansion of impervious surfaces, allowing runoff to accumulate and cause flooding issues. To reduce the impacts of runoff accumulation, the concept of low impact development (LID) has been adopted to restore the hydrological balance of urbanized areas. The objective of this study was to assess the flow reduction of the LID combinations in a residential park in Cavite, Philippines using Stormwater Management Model (SWMM). The 90<sup>th</sup> percentile of historical rainfall from the years 1975-2019 was used in the assessment. The bioretention (BR), infiltration trench (IT), and permeable pavement (PP) LID controls, which captured 43%, 42%, and 14% of the park area respectively, were selected for implementation alongside their different combinations. Results of this study have shown that most LID scenarios reached their maximum reduction capability once it takes up around 20-40% of the total available area. The highest reduction, at around 90%, was attained by the BR+IT+PP scenario. The use of the PP scenario, however, only yielded a 20% flow reduction due to its small capture area. Implementing LID controls in urbanized locations can help in reducing runoff buildup, thereby alleviating the potential impacts of flooding.

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

Cited by 8 publications

References 46 publications

Continuous Quantity and Quality Modeling for Assessing the Effect of SUDS: Application on a Conceptual Urban Drainage Basin

Continuous Quantity and Quality Modeling for Assessing the Effect of SUDS: Application on a Conceptual Urban Drainage Basin

Development of Rainfall-Runoff Models for Sustainable Stormwater Management in Urbanized Catchments

Assessing the Flow Reduction of Low Impact Development Controls in a Residential Setting

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