A Comprehensive Review of Low Impact Development Models for Research, Conceptual, Preliminary and Detailed Design Applications

Kaykhosravi, Sarah; Khan, Usman T.; Jadidi, Amaneh

doi:10.3390/w10111541

Cited by 67 publications

(34 citation statements)

References 46 publications

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“…LID Placement. LID can be modeled two different ways within SWMM: (1) LID as its own subcatchment, which allows series routing of LID; or (2) by placing LID within a parent subcatchment, which allows parallel routing of LID (Rossman 2015; Kaykhosravi et al 2018). This study investigated the second option, which means that the model parameter impacted by LID placement is the subcatchment percent imperviousness.…”

Section: Methodsmentioning

confidence: 99%

“…However, Gao et al (2018) do not discuss subsequent routing of BR outflow in the model. LID Placement. Kaykhosravi et al (2018) reviewed eleven LID models and note the advantages and disadvantages of modeling LID as either new subcatchments or by placing LID within a parent subcatchment, but do not comment on the impacts of placement location or model adjustments that must be made with LID placement. Fry and Maxwell (2017) studied the effects of converting pervious areas to LID and concluded LID placement is more important for runoff reduction than storage capacity/sizing, indicating LID placement is an important consideration in LID modeling.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

SWMM Sensitivity to LID Siting and Routing Parameters: Implications for Stormwater Regulatory Compliance

Panos

Wolfand

Hogue

2020

J American Water Resour Assoc

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Misrepresentation of sensitive siting and routing parameters for low impact development (LID) affects hydrologic model outputs, stormwater infrastructure design, and regulatory compliance. ABSTRACT: Cities are experiencing new growth through infill development, or "redevelopment," where lower density land uses are redeveloped to high density with increased impervious surfaces. Cities need revised stormwater criteria to manage increases in stormwater runoff and flooding from redevelopment via low impact development (LID). Watershed-scale hydrologic modeling in the Storm Water Management Model (SWMM) can help policy makers revise regulations to adapt to redevelopment. However, LID modeling is still relatively new and the understanding of model sensitivity to certain parameters is lacking. In particular, LID siting and routing parameters such as outflow routing from, area treated by, and placement of LID are not well studied. Using a case study of a redeveloping neighborhood in Denver, Colorado, we tested 32 configurations of these parameters in a calibrated, SWMM for PC (PCSWMM) model. We found some configurations lead to counteracting model processes that result in similar runoff reduction across a variety of configurations, suggesting to policy makers that reduction targets may be met in a myriad of ways. The relative sensitivity of runoff volume to area treated and LID placement was found to be on average 3.0 and 11.2 times higher than other model parameters. Given this sensitivity, practitioners and modelers should consider LID siting and routing parameters in hydrologic modeling efforts that inform regulations.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

SWMM Sensitivity to LID Siting and Routing Parameters: Implications for Stormwater Regulatory Compliance

Panos

Wolfand

Hogue

2020

J American Water Resour Assoc

View full text Add to dashboard Cite

show abstract

“…Within this context, the improvement of flood models for simulations of LID methodologies is a current challenge. Kaykhosravi et al [46] analyzed the application of 11 flood models in the simulation of LID techniques and showed that none of the selected models constitute a fully integrated environment in which to simulate all LID applications. Different models have different advantages and limitations.…”

Section: Mathematical Modelingmentioning

confidence: 99%

Innovations in Best Practices: Approaches to Managing Urban Areas and Reducing Flood Risk in Reggio Calabria (Italy)

et al. 2021

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Urbanization increases imperviousness and reduces infiltration, retention, and evapotranspiration, frequently aggravating urban flooding due to greater runoff and higher and faster discharge peaks. Effective strategies to mitigate flood risks require a better understanding of the watershed dynamics and space to reverse the negative impacts. However, often cities do not have proper data sets to feed mathematical models that would be helpful in mapping water dynamics. Attempts to reduce flood risks have been made for decades by means of structural interventions but were frequently designed within the logic of a local scale, using limited available spaces and often merely shifting flooding downstream. Therefore, assessing urban floods requires a modeling approach capable of reflecting the watershed scale, considering interactions between hydraulic structures and urban landscape, where best practices and non-structural measures aim to improve community flood resilience through the reduction of social and financial costs in the long run. This paper proposes an integrated approach to analyze low impact development (LID) practices complemented by non-structural measures in a case study in southern Italy, supported by mathematical modeling in a strategy to overcome a context of almost no available data and limited urban open spaces.

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“…In combination with flood vulnerability assessment models (Hammond et al., 2015), results from UFMs can be used to evaluate the costs and benefits of flood resilience strategies (Lerer et al., 2017). However, use of UFMs to support resilience planning is heavily dependent on the capability of the model to represent both current conditions and the function of various management strategies, such as land use planning or the construction of gray and green infrastructure, under realistic operating conditions (Hemmati et al., 2020; Kaykhosravi, et al., 2018; Niazi et al., 2017). As cities plan multibillion dollar flood resilience initiatives (Aerts, Botzen, Moel, & Bowman, 2013; City of Copenhagen, 2012; NYCDEP/Ramboll, 2017), development and use of robust UFMs present a great value to support the optimized design of these infrastructure and their operation.…”

Section: Introductionmentioning

confidence: 99%

The Value of Urban Flood Modeling

et al. 2021

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As the human population and the impending magnitude of global climate change both continue to grow, there is an imperative to better understand the function of cities as ecosystems and their resilience to climate-driven disturbances. Floods are prominent disturbances to urban ecosystems (Grimm et al., 2017; Rentschler et al., 2019), and their meteorological drivers-including extreme precipitation, sea level rise, and coastal storms-are projected to increase in coming decades (Y. Chen et al., 2018). Numerical models are essential tools for understanding floods and their associated risks. But despite recent advances in computational resources, existing flood models remain limited in their capability to represent integrated flooding processes in urban areas and provide credible, quantitative information needed to support risk assessment and resilience practice. In this commentary, we discuss the potential value of urban flood modeling for urban resilience and limitations of existing modeling approaches. We then present a research agenda and vision for the future of urban flood modeling, realized through collaboration between researchers and practitioners. We define urban flood models (UFMs) as numerical models that are capable of representing the features of urban ecosystems and the mechanisms of flooding that impact them. Cities are Social-Ecological-Technological

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A Comprehensive Review of Low Impact Development Models for Research, Conceptual, Preliminary and Detailed Design Applications

Cited by 67 publications

References 46 publications

SWMM Sensitivity to LID Siting and Routing Parameters: Implications for Stormwater Regulatory Compliance

SWMM Sensitivity to LID Siting and Routing Parameters: Implications for Stormwater Regulatory Compliance

Innovations in Best Practices: Approaches to Managing Urban Areas and Reducing Flood Risk in Reggio Calabria (Italy)

The Value of Urban Flood Modeling

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